From cddebbded238fb56a2ef807d00d19f267d572d2a Mon Sep 17 00:00:00 2001 From: gha3mi <36126354+gha3mi@users.noreply.github.com> Date: Fri, 17 May 2024 21:18:16 +0000 Subject: [PATCH] =?UTF-8?q?Deploying=20to=20gh-pages=20from=20@=20gha3mi/f?= =?UTF-8?q?orcad@a93fcc22ddacab0e2e30fd055c7acefba32b2055=20=F0=9F=9A=80?= MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit --- index.html | 2 +- interface/compute_multiplicity.html | 1040 +++--- interface/elemconn_c0.html | 360 +- interface/elemconn_cn.html | 28 +- interface/ndgrid.html | 80 +- interface/unique.html | 22 +- lists/files.html | 2 +- lists/modules.html | 2 +- lists/procedures.html | 3542 ++++++++++---------- lists/programs.html | 2 +- lists/types.html | 2 +- module/forcad.html | 6 +- module/forcad_nurbs_curve.html | 644 ++-- module/forcad_nurbs_surface.html | 684 ++-- module/forcad_nurbs_volume.html | 124 +- module/forcad_utils.html | 140 +- proc/basis.html | 6 +- proc/basis_bernstein.html | 6 +- proc/basis_bspline.html | 10 +- proc/basis_bspline_der.html | 10 +- proc/basis~2.html | 127 +- proc/basis~3.html | 127 +- proc/bincoeff.html | 50 +- proc/cmp_degree.html | 2 +- proc/cmp_degree~2.html | 485 ++- proc/cmp_degree~3.html | 487 +-- proc/cmp_elem.html | 4 +- proc/cmp_elem_xc_vis.html | 6 +- proc/cmp_elem_xc_vis~2.html | 189 +- proc/cmp_elem_xc_vis~3.html | 189 +- proc/cmp_elem_xg_vis.html | 6 +- proc/cmp_elem_xg_vis~2.html | 189 +- proc/cmp_elem_xg_vis~3.html | 189 +- proc/cmp_elemconn_c0_l.html | 370 +- proc/cmp_elemconn_c0_s.html | 368 +- proc/cmp_elemconn_c0_v.html | 368 +- proc/cmp_elemconn_cn_l.html | 24 +- proc/cmp_elemconn_cn_s.html | 20 +- proc/cmp_elemconn_cn_v.html | 20 +- proc/cmp_elem~2.html | 114 +- proc/cmp_elem~3.html | 116 +- proc/cmp_nc.html | 2 +- proc/cmp_nc~2.html | 563 +++- proc/cmp_nc~3.html | 563 +--- proc/compute_dtgc_bspline_1d.html | 14 +- proc/compute_dtgc_bspline_2d.html | 12 +- proc/compute_dtgc_bspline_3d.html | 12 +- proc/compute_dtgc_nurbs_1d.html | 16 +- proc/compute_dtgc_nurbs_2d.html | 14 +- proc/compute_dtgc_nurbs_3d.html | 14 +- proc/compute_knot_vector.html | 674 ++-- proc/compute_multiplicity1.html | 1044 +++--- proc/compute_multiplicity2.html | 1046 +++--- proc/compute_tgc_bspline_1d.html | 14 +- proc/compute_tgc_bspline_2d.html | 12 +- proc/compute_tgc_bspline_3d.html | 12 +- proc/compute_tgc_nurbs_1d.html | 16 +- proc/compute_tgc_nurbs_2d.html | 14 +- proc/compute_tgc_nurbs_3d.html | 14 +- proc/compute_xg_bspline_1d.html | 16 +- proc/compute_xg_bspline_2d.html | 14 +- proc/compute_xg_bspline_3d.html | 16 +- proc/compute_xg_nurbs_1d.html | 18 +- proc/compute_xg_nurbs_2d.html | 16 +- proc/compute_xg_nurbs_3d.html | 18 +- proc/create.html | 8 +- proc/create~2.html | 333 +- proc/create~3.html | 335 +- proc/derivative.html | 6 +- proc/derivative~2.html | 127 +- proc/derivative~3.html | 127 +- proc/elevate_degree.html | 4 +- proc/elevate_degree_a_5_9.html | 60 +- proc/elevate_degree~2.html | 369 +- proc/elevate_degree~3.html | 367 +- proc/export_xc.html | 2 +- proc/export_xc~2.html | 185 +- proc/export_xc~3.html | 185 +- proc/export_xg.html | 2 +- proc/export_xg~2.html | 185 +- proc/export_xg~3.html | 185 +- proc/factln.html | 48 +- proc/finalize.html | 2 +- proc/finalize~2.html | 211 +- proc/finalize~3.html | 211 +- proc/findspan.html | 92 +- proc/generate_xc.html | 36 +- proc/generate_xc~2.html | 89 +- proc/generate_xc~3.html | 89 +- proc/generate_xc~4.html | 58 +- proc/generate_xc~5.html | 58 +- proc/get_continuity.html | 4 +- proc/get_continuity~2.html | 67 +- proc/get_continuity~3.html | 67 +- proc/get_degree.html | 6 +- proc/get_degree_all.html | 4 +- proc/get_degree_all~2.html | 20 +- proc/get_degree_dir.html | 4 +- proc/get_degree_dir~2.html | 22 +- proc/get_elem.html | 4 +- proc/get_elem_xc_vis.html | 4 +- proc/get_elem_xc_vis~2.html | 14 +- proc/get_elem_xc_vis~3.html | 14 +- proc/get_elem_xg_vis.html | 4 +- proc/get_elem_xg_vis~2.html | 14 +- proc/get_elem_xg_vis~3.html | 14 +- proc/get_elem~2.html | 14 +- proc/get_elem~3.html | 14 +- proc/get_knot_all.html | 4 +- proc/get_knot_all~2.html | 191 +- proc/get_knot_all~3.html | 191 +- proc/get_knoti.html | 6 +- proc/get_knoti~2.html | 193 +- proc/get_knoti~3.html | 193 +- proc/get_multiplicity.html | 4 +- proc/get_multiplicity~2.html | 497 +-- proc/get_multiplicity~3.html | 495 +-- proc/get_nc.html | 4 +- proc/get_nc~2.html | 186 +- proc/get_nc~3.html | 186 +- proc/get_ng.html | 4 +- proc/get_ng~2.html | 165 +- proc/get_ng~3.html | 167 +- proc/get_wc_all.html | 4 +- proc/get_wc_all~2.html | 75 +- proc/get_wc_all~3.html | 79 +- proc/get_wci.html | 6 +- proc/get_wci~2.html | 73 +- proc/get_wci~3.html | 77 +- proc/get_xc_all.html | 4 +- proc/get_xc_all~2.html | 75 +- proc/get_xc_all~3.html | 79 +- proc/get_xci.html | 6 +- proc/get_xcid.html | 6 +- proc/get_xcid~2.html | 73 +- proc/get_xcid~3.html | 79 +- proc/get_xci~2.html | 67 +- proc/get_xci~3.html | 71 +- proc/get_xg_all.html | 4 +- proc/get_xg_all~2.html | 178 +- proc/get_xg_all~3.html | 180 +- proc/get_xgi.html | 6 +- proc/get_xgid.html | 6 +- proc/get_xgid~2.html | 178 +- proc/get_xgid~3.html | 182 +- proc/get_xgi~2.html | 178 +- proc/get_xgi~3.html | 180 +- proc/get_xt.html | 4 +- proc/get_xt~2.html | 31 +- proc/get_xt~3.html | 33 +- proc/hexahedron_xc.html | 8 +- proc/insert_knot_a_5_1.html | 54 +- proc/insert_knots.html | 6 +- proc/insert_knots~2.html | 347 +- proc/insert_knots~3.html | 347 +- proc/is_rational.html | 4 +- proc/is_rational~2.html | 307 +- proc/is_rational~3.html | 307 +- proc/isinf.html | 2 +- proc/isnan.html | 2 +- proc/kron.html | 2 +- proc/modify_wc.html | 4 +- proc/modify_wc~2.html | 307 +- proc/modify_wc~3.html | 307 +- proc/modify_xc.html | 4 +- proc/modify_xc~2.html | 429 ++- proc/modify_xc~3.html | 431 +-- proc/ndgrid2.html | 78 +- proc/ndgrid3.html | 78 +- proc/nearest_point.html | 8 +- proc/nearest_point_help_1d.html | 10 +- proc/nearest_point_help_2d.html | 10 +- proc/nearest_point_help_3d.html | 6 +- proc/nearest_point~2.html | 71 +- proc/nearest_point~3.html | 69 +- proc/put_to_nurbs.html | 4 +- proc/remove_knots.html | 6 +- proc/remove_knots_a_5_8.html | 60 +- proc/remove_knots~2.html | 347 +- proc/remove_knots~3.html | 347 +- proc/repelem.html | 680 ++-- proc/rotate_xc.html | 8 +- proc/rotate_xc~2.html | 91 +- proc/rotate_xc~3.html | 93 +- proc/rotate_xg.html | 8 +- proc/rotate_xg~2.html | 74 +- proc/rotate_xg~3.html | 76 +- proc/rotation.html | 114 +- proc/set1.html | 8 +- proc/set1~2.html | 526 +-- proc/set1~3.html | 532 ++- proc/set2.html | 8 +- proc/set2~2.html | 552 ++- proc/set2~3.html | 560 +--- proc/set3.html | 8 +- proc/set3~2.html | 479 ++- proc/set3~3.html | 485 +-- proc/set_c.html | 4 +- proc/set_circle.html | 78 +- proc/set_c~2.html | 258 +- proc/set_c~3.html | 256 +- proc/set_elem.html | 4 +- proc/set_elem_xc_vis.html | 4 +- proc/set_elem_xc_vis~2.html | 14 +- proc/set_elem_xc_vis~3.html | 14 +- proc/set_elem_xg_vis.html | 4 +- proc/set_elem_xg_vis~2.html | 14 +- proc/set_elem_xg_vis~3.html | 14 +- proc/set_elem~2.html | 14 +- proc/set_elem~3.html | 14 +- proc/set_half_circle.html | 78 +- proc/set_half_ring.html | 4 +- proc/set_half_ring~2.html | 96 +- proc/set_hexahedron.html | 8 +- proc/set_ring.html | 4 +- proc/set_ring~2.html | 96 +- proc/set_tetragon.html | 100 +- proc/show.html | 2 +- proc/show~2.html | 129 +- proc/show~3.html | 131 +- proc/tetragon_xc.html | 8 +- proc/translate_xc.html | 4 +- proc/translate_xc~2.html | 72 +- proc/translate_xc~3.html | 74 +- proc/translate_xg.html | 4 +- proc/translate_xg~2.html | 40 +- proc/translate_xg~3.html | 42 +- proc/unique_integer.html | 20 +- proc/unique_real.html | 20 +- program/example1_curve.html | 338 +- program/example3_surface.html | 414 +-- program/example3_volume.html | 42 +- program/example_nurbs_curve.html | 190 +- program/example_nurbs_surface.html | 216 +- program/example_nurbs_volume.html | 30 +- program/example_ppm1.html | 268 +- program/example_ppm2.html | 296 +- program/example_ppm3.html | 380 +-- program/example_put_to_nurbs.html | 16 +- program/nearest_point_1d.html | 130 +- program/nearest_point_2d.html | 152 +- program/nearest_point_2d_bench.html | 166 +- program/nearest_point_3d.html | 18 +- program/shape_c_1d.html | 176 +- program/shape_c_2d.html | 198 +- program/shape_c_3d.html | 6 +- program/shape_circle.html | 166 +- program/shape_half_circle.html | 166 +- program/shape_half_ring_2d.html | 188 +- program/shape_half_ring_3d.html | 6 +- program/shape_hexahedron.html | 6 +- program/shape_ring_2d.html | 188 +- program/shape_ring_3d.html | 6 +- program/shape_tetragon.html | 188 +- search.html | 2 +- sourcefile/demo_curve.f90.html | 2 +- sourcefile/demo_surface.f90.html | 2 +- sourcefile/demo_volume.f90.html | 2 +- sourcefile/example_curve_1.f90.html | 2 +- sourcefile/example_ppm1.f90.html | 2 +- sourcefile/example_ppm2.f90.html | 2 +- sourcefile/example_ppm3.f90.html | 2 +- sourcefile/example_surface_1.f90.html | 2 +- sourcefile/example_volume_1.f90.html | 2 +- sourcefile/forcad.f90.html | 2 +- sourcefile/forcad_nurbs_curve.f90.html | 2 +- sourcefile/forcad_nurbs_surface.f90.html | 2 +- sourcefile/forcad_nurbs_volume.f90.html | 2 +- sourcefile/forcad_utils.f90.html | 2 +- sourcefile/nearest_point_1d.f90.html | 2 +- sourcefile/nearest_point_2d.f90.html | 2 +- sourcefile/nearest_point_2d_bench.f90.html | 2 +- sourcefile/nearest_point_3d.f90.html | 2 +- sourcefile/put_to_nurbs.f90.html | 2 +- sourcefile/shape_c_1d.f90.html | 2 +- sourcefile/shape_c_2d.f90.html | 2 +- sourcefile/shape_c_3d.f90.html | 2 +- sourcefile/shape_circle.f90.html | 2 +- sourcefile/shape_half_circle.f90.html | 2 +- sourcefile/shape_half_ring_2d.f90.html | 2 +- sourcefile/shape_half_ring_3d.f90.html | 2 +- sourcefile/shape_hexahedron.f90.html | 2 +- sourcefile/shape_ring_2d.f90.html | 2 +- sourcefile/shape_ring_3d.f90.html | 2 +- sourcefile/shape_tetragon.f90.html | 2 +- tipuesearch/tipuesearch_content.js | 2 +- type/nurbs_curve.html | 394 +-- type/nurbs_surface.html | 390 +-- type/nurbs_volume.html | 38 +- 289 files changed, 18562 insertions(+), 18562 deletions(-) diff --git a/index.html b/index.html index 7bb6e37b0..6e1115ccc 100644 --- a/index.html +++ b/index.html @@ -260,7 +260,7 @@

Derived Types

Documentation generated by FORD - on 2024-05-17T21:11:41.817259

+ on 2024-05-17T21:17:42.005035


diff --git a/interface/compute_multiplicity.html b/interface/compute_multiplicity.html index 6a8608953..4fbdc9b48 100644 --- a/interface/compute_multiplicity.html +++ b/interface/compute_multiplicity.html @@ -296,1036 +296,1036 @@

Called by

- - + + interface~~compute_multiplicity~~CalledByGraph - + interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity proc~cmp_nc - -nurbs_volume%cmp_nc + +nurbs_volume%cmp_nc proc~cmp_nc->interface~compute_multiplicity - - + + proc~cmp_nc~2 - - -nurbs_curve%cmp_nc + + +nurbs_surface%cmp_nc proc~cmp_nc~2->interface~compute_multiplicity - - + + proc~cmp_nc~3 - - -nurbs_surface%cmp_nc + + +nurbs_curve%cmp_nc proc~cmp_nc~3->interface~compute_multiplicity - - + + proc~elevate_degree_a_5_9 - -elevate_degree_A_5_9 + +elevate_degree_A_5_9 proc~elevate_degree_a_5_9->interface~compute_multiplicity - - + + proc~get_continuity - -nurbs_volume%get_continuity + +nurbs_volume%get_continuity proc~get_continuity->interface~compute_multiplicity - - + + proc~get_continuity~2 - - -nurbs_curve%get_continuity + + +nurbs_surface%get_continuity proc~get_continuity~2->interface~compute_multiplicity - - + + proc~get_continuity~3 - - -nurbs_surface%get_continuity + + +nurbs_curve%get_continuity proc~get_continuity~3->interface~compute_multiplicity - - + + proc~get_multiplicity - -nurbs_volume%get_multiplicity + +nurbs_volume%get_multiplicity proc~get_multiplicity->interface~compute_multiplicity - - + + proc~get_multiplicity~2 - - -nurbs_curve%get_multiplicity + + +nurbs_surface%get_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity - - + + proc~get_multiplicity~3 - - -nurbs_surface%get_multiplicity + + +nurbs_curve%get_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity - - + + proc~get_nc - -get_nc + +get_nc proc~get_nc->interface~compute_multiplicity - - + + - + -proc~get_nc~3 - - -nurbs_surface%get_nc +proc~get_nc~2 + + +nurbs_surface%get_nc - + -proc~get_nc~3->interface~compute_multiplicity - - +proc~get_nc~2->interface~compute_multiplicity + + proc~insert_knots - -nurbs_volume%insert_knots + +nurbs_volume%insert_knots proc~insert_knots->interface~compute_multiplicity - - + + none~set - -nurbs_volume%set + +nurbs_volume%set proc~insert_knots->none~set - - + + proc~insert_knots~2 - - -nurbs_curve%insert_knots + + +nurbs_surface%insert_knots proc~insert_knots~2->interface~compute_multiplicity - - + + - + none~set~2 - - -nurbs_curve%set + + +nurbs_surface%set - + proc~insert_knots~2->none~set~2 - - + + proc~insert_knots~3 - - -nurbs_surface%insert_knots + + +nurbs_curve%insert_knots proc~insert_knots~3->interface~compute_multiplicity - - + + - + none~set~3 - - -nurbs_surface%set + + +nurbs_curve%set - + proc~insert_knots~3->none~set~3 - - + + proc~remove_knots - -nurbs_volume%remove_knots + +nurbs_volume%remove_knots proc~remove_knots->interface~compute_multiplicity - - + + proc~remove_knots->none~set - - + + proc~remove_knots~2 - - -nurbs_curve%remove_knots + + +nurbs_surface%remove_knots proc~remove_knots~2->interface~compute_multiplicity - - + + - + proc~remove_knots~2->none~set~2 - - + + proc~remove_knots~3 - - -nurbs_surface%remove_knots + + +nurbs_curve%remove_knots proc~remove_knots~3->interface~compute_multiplicity - - + + - + proc~remove_knots~3->none~set~3 - - + + proc~cmp_degree - -nurbs_volume%cmp_degree + +nurbs_volume%cmp_degree proc~cmp_degree->proc~get_multiplicity - - + + proc~cmp_degree~2 - - -nurbs_curve%cmp_degree + + +nurbs_surface%cmp_degree proc~cmp_degree~2->proc~get_multiplicity~2 - - + + proc~cmp_degree~3 - - -nurbs_surface%cmp_degree + + +nurbs_curve%cmp_degree proc~cmp_degree~3->proc~get_multiplicity~3 - - + + proc~cmp_elem - -nurbs_volume%cmp_elem + +nurbs_volume%cmp_elem proc~cmp_elem->proc~get_multiplicity - - + + proc~cmp_elem~2 - - -nurbs_curve%cmp_elem + + +nurbs_surface%cmp_elem proc~cmp_elem~2->proc~get_multiplicity~2 - - + + proc~cmp_elem~3 - - -nurbs_surface%cmp_elem + + +nurbs_curve%cmp_elem proc~cmp_elem~3->proc~get_multiplicity~3 - - + + proc~elevate_degree - -nurbs_volume%elevate_degree + +nurbs_volume%elevate_degree proc~elevate_degree->proc~elevate_degree_a_5_9 - - + + proc~elevate_degree->none~set - - + + proc~elevate_degree~2 - - -nurbs_curve%elevate_degree + + +nurbs_surface%elevate_degree proc~elevate_degree~2->proc~elevate_degree_a_5_9 - - + + - + proc~elevate_degree~2->none~set~2 - - + + proc~elevate_degree~3 - - -nurbs_surface%elevate_degree + + +nurbs_curve%elevate_degree proc~elevate_degree~3->proc~elevate_degree_a_5_9 - - + + - + proc~elevate_degree~3->none~set~3 - - + + proc~set1 - -nurbs_volume%set1 + +nurbs_volume%set1 proc~set1->proc~cmp_nc - - + + proc~set1->proc~cmp_degree - - + + - + -proc~set1~3 - - -nurbs_surface%set1 +proc~set1~2 + + +nurbs_surface%set1 - + -proc~set1~3->proc~cmp_nc~3 - - +proc~set1~2->proc~cmp_nc~2 + + - - -proc~set1~3->proc~cmp_degree~3 - - + + +proc~set1~2->proc~cmp_degree~2 + + proc~set2 - -nurbs_volume%set2 + +nurbs_volume%set2 proc~set2->proc~cmp_nc - - + + - + -proc~set2~3 - - -nurbs_surface%set2 +proc~set2~2 + + +nurbs_surface%set2 - + -proc~set2~3->proc~cmp_nc~3 - - +proc~set2~2->proc~cmp_nc~2 + + program~example1_curve - -example1_curve + +example1_curve - - -program~example1_curve->proc~insert_knots~2 - - + + +program~example1_curve->proc~insert_knots~3 + + - - -program~example1_curve->proc~remove_knots~2 - - + + +program~example1_curve->proc~remove_knots~3 + + - - -program~example1_curve->proc~elevate_degree~2 - - + + +program~example1_curve->proc~elevate_degree~3 + + - + -program~example1_curve->none~set~2 - - +program~example1_curve->none~set~3 + + program~example3_surface - -example3_surface + +example3_surface - - -program~example3_surface->proc~insert_knots~3 - - + + +program~example3_surface->proc~insert_knots~2 + + - - -program~example3_surface->proc~remove_knots~3 - - + + +program~example3_surface->proc~remove_knots~2 + + - - -program~example3_surface->proc~elevate_degree~3 - - + + +program~example3_surface->proc~elevate_degree~2 + + - + -program~example3_surface->none~set~3 - - +program~example3_surface->none~set~2 + + program~example3_volume - -example3_volume + +example3_volume program~example3_volume->proc~insert_knots - - + + program~example3_volume->proc~remove_knots - - + + program~example3_volume->proc~elevate_degree - - + + program~example3_volume->none~set - - + + none~set->proc~set1 - - + + none~set->proc~set2 - - + + proc~set3 - -nurbs_volume%set3 + +nurbs_volume%set3 none~set->proc~set3 - - + + - + -none~set~3->proc~set1~3 - - +none~set~2->proc~set1~2 + + - + -none~set~3->proc~set2~3 - - +none~set~2->proc~set2~2 + + - - -proc~set3~3 - - -nurbs_surface%set3 + + +proc~set3~2 + + +nurbs_surface%set3 - - -none~set~3->proc~set3~3 - - + + +none~set~2->proc~set3~2 + + - + -proc~set1~2 - - -nurbs_curve%set1 +proc~set1~3 + + +nurbs_curve%set1 - - -proc~set1~2->proc~cmp_degree~2 - - + + +proc~set1~3->proc~cmp_degree~3 + + proc~set3->proc~cmp_degree - - + + - - -proc~set3~2 - + + +proc~set3~2->proc~cmp_degree~2 + + + + + +proc~set3~3 + nurbs_curve%set3 - - -proc~set3~2->proc~cmp_degree~2 - - - proc~set3~3->proc~cmp_degree~3 - - + + - + -none~set~2->proc~set1~2 - - +none~set~3->proc~set1~3 + + - - -none~set~2->proc~set3~2 - - + + +none~set~3->proc~set3~3 + + proc~modify_wc - -nurbs_volume%modify_Wc + +nurbs_volume%modify_Wc proc~modify_wc->none~set - - + + - + -proc~modify_wc~3 - - -nurbs_surface%modify_Wc +proc~modify_wc~2 + + +nurbs_surface%modify_Wc - + -proc~modify_wc~3->none~set~3 - - +proc~modify_wc~2->none~set~2 + + proc~modify_xc - -nurbs_volume%modify_Xc + +nurbs_volume%modify_Xc proc~modify_xc->none~set - - + + - + -proc~modify_xc~3 - - -nurbs_surface%modify_Xc +proc~modify_xc~2 + + +nurbs_surface%modify_Xc - + -proc~modify_xc~3->none~set~3 - - +proc~modify_xc~2->none~set~2 + + proc~set_c - -nurbs_volume%set_C + +nurbs_volume%set_C proc~set_c->none~set - - + + - + -proc~set_c~3 - - -nurbs_surface%set_C +proc~set_c~2 + + +nurbs_surface%set_C - + -proc~set_c~3->none~set~3 - - +proc~set_c~2->none~set~2 + + proc~set_half_ring - -nurbs_volume%set_half_ring + +nurbs_volume%set_half_ring proc~set_half_ring->none~set - - + + proc~set_half_ring~2 - -nurbs_surface%set_half_ring + +nurbs_surface%set_half_ring - + -proc~set_half_ring~2->none~set~3 - - +proc~set_half_ring~2->none~set~2 + + proc~set_hexahedron - -nurbs_volume%set_hexahedron + +nurbs_volume%set_hexahedron proc~set_hexahedron->none~set - - + + proc~set_ring - -nurbs_volume%set_ring + +nurbs_volume%set_ring proc~set_ring->none~set - - + + proc~set_ring~2 - -nurbs_surface%set_ring + +nurbs_surface%set_ring - + -proc~set_ring~2->none~set~3 - - +proc~set_ring~2->none~set~2 + + proc~set_tetragon - -nurbs_surface%set_tetragon + +nurbs_surface%set_tetragon - + -proc~set_tetragon->none~set~3 - - +proc~set_tetragon->none~set~2 + + program~example_nurbs_surface - -example_nurbs_surface + +example_nurbs_surface - + -program~example_nurbs_surface->none~set~3 - - +program~example_nurbs_surface->none~set~2 + + program~example_nurbs_volume - -example_nurbs_volume + +example_nurbs_volume program~example_nurbs_volume->none~set - - + + program~example_put_to_nurbs - -example_put_to_nurbs + +example_put_to_nurbs program~example_put_to_nurbs->none~set - - + + - + -proc~modify_wc~2 - - -nurbs_curve%modify_Wc +proc~modify_wc~3 + + +nurbs_curve%modify_Wc - + -proc~modify_wc~2->none~set~2 - - +proc~modify_wc~3->none~set~3 + + - + -proc~modify_xc~2 - - -nurbs_curve%modify_Xc +proc~modify_xc~3 + + +nurbs_curve%modify_Xc - + -proc~modify_xc~2->none~set~2 - - +proc~modify_xc~3->none~set~3 + + @@ -1336,119 +1336,119 @@

Called by

- + -proc~set_circle->none~set~2 - - +proc~set_circle->none~set~3 + + - + -proc~set_c~2 - +proc~set_c~3 + nurbs_curve%set_C - + -proc~set_c~2->none~set~2 - - +proc~set_c~3->none~set~3 + + proc~set_half_circle - -nurbs_curve%set_half_circle + +nurbs_curve%set_half_circle - + -proc~set_half_circle->none~set~2 - - +proc~set_half_circle->none~set~3 + + program~example_nurbs_curve - -example_nurbs_curve + +example_nurbs_curve - + -program~example_nurbs_curve->none~set~2 - - +program~example_nurbs_curve->none~set~3 + + program~example_ppm1 - -example_ppm1 + +example_ppm1 program~example_ppm1->proc~set_ring~2 - - + + program~example_ppm1->proc~set_tetragon - - + + program~example_ppm2 - -example_ppm2 + +example_ppm2 program~example_ppm2->proc~set_half_ring~2 - - + + program~example_ppm2->proc~set_tetragon - - + + program~example_ppm3 - -example_ppm3 + +example_ppm3 - + -program~example_ppm3->proc~modify_xc~3 - - +program~example_ppm3->proc~modify_xc~2 + + program~example_ppm3->proc~set_tetragon - - + + @@ -1462,173 +1462,173 @@

Called by

program~nearest_point_2d->proc~set_tetragon - - + + program~nearest_point_2d_bench - -nearest_point_2d_bench + +nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon - - + + program~nearest_point_3d - -nearest_point_3d + +nearest_point_3d program~nearest_point_3d->proc~set_hexahedron - - + + program~shape_c_2d - -shape_C_2d + +shape_C_2d - + -program~shape_c_2d->proc~set_c~3 - - +program~shape_c_2d->proc~set_c~2 + + program~shape_c_3d - -shape_C_3d + +shape_C_3d program~shape_c_3d->proc~set_c - - + + program~shape_half_ring_2d - -shape_half_ring_2d + +shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 - - + + program~shape_half_ring_3d - -shape_half_ring_3d + +shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring - - + + program~shape_hexahedron - -shape_hexahedron + +shape_hexahedron program~shape_hexahedron->proc~set_hexahedron - - + + program~shape_ring_2d - -shape_ring_2d + +shape_ring_2d program~shape_ring_2d->proc~set_ring~2 - - + + program~shape_ring_3d - -shape_ring_3d + +shape_ring_3d program~shape_ring_3d->proc~set_ring - - + + program~shape_tetragon - -shape_tetragon + +shape_tetragon program~shape_tetragon->proc~set_tetragon - - + + program~nearest_point_1d - -nearest_point_1d + +nearest_point_1d program~nearest_point_1d->proc~set_circle - - + + @@ -1639,9 +1639,9 @@

Called by

 - + -program~shape_c_1d->proc~set_c~2 +program~shape_c_1d->proc~set_c~3 @@ -1649,31 +1649,31 @@

Called by

program~shape_circle - -shape_circle + +shape_circle program~shape_circle->proc~set_circle - - + + program~shape_half_circle - -shape_half_circle + +shape_half_circle program~shape_half_circle->proc~set_half_circle - - + + @@ -1790,7 +1790,7 @@

Arguments

- + real(kind=rk), intent(in), @@ -1839,7 +1839,7 @@

Arguments

- + real(kind=rk), intent(in), @@ -1854,7 +1854,7 @@

Arguments

- + real(kind=rk), intent(in) @@ -1896,7 +1896,7 @@

Documentation generated by FORD - on 2024-05-17T21:11:41.817259

+ on 2024-05-17T21:17:42.005035


diff --git a/interface/elemconn_c0.html b/interface/elemconn_c0.html index 7ebb1d6de..5b489710e 100644 --- a/interface/elemconn_c0.html +++ b/interface/elemconn_c0.html @@ -320,8 +320,8 @@

Called by

interface~elemconn_c0 - -elemConn_C0 + +elemConn_C0 @@ -335,38 +335,38 @@

Called by

proc~cmp_elem_xc_vis->interface~elemconn_c0 - - + + proc~cmp_elem_xc_vis~2 - - -nurbs_curve%cmp_elem_Xc_vis + + +nurbs_surface%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~2->interface~elemconn_c0 - - + + proc~cmp_elem_xc_vis~3 - - -nurbs_surface%cmp_elem_Xc_vis + + +nurbs_curve%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~3->interface~elemconn_c0 - - + + @@ -380,38 +380,38 @@

Called by

proc~cmp_elem_xg_vis->interface~elemconn_c0 - - + + proc~cmp_elem_xg_vis~2 - - -nurbs_curve%cmp_elem_Xg_vis + + +nurbs_surface%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~2->interface~elemconn_c0 - - + + proc~cmp_elem_xg_vis~3 - - -nurbs_surface%cmp_elem_Xg_vis + + +nurbs_curve%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~3->interface~elemconn_c0 - - + + @@ -431,32 +431,32 @@

Called by

proc~export_xc~2 - - -nurbs_curve%export_Xc + + +nurbs_surface%export_Xc proc~export_xc~2->proc~cmp_elem_xc_vis~2 - - + + proc~export_xc~3 - - -nurbs_surface%export_Xc + + +nurbs_curve%export_Xc proc~export_xc~3->proc~cmp_elem_xc_vis~3 - - + + @@ -476,74 +476,74 @@

Called by

proc~export_xg~2 - - -nurbs_curve%export_Xg + + +nurbs_surface%export_Xg proc~export_xg~2->proc~cmp_elem_xg_vis~2 - - + + proc~export_xg~3 - - -nurbs_surface%export_Xg + + +nurbs_curve%export_Xg proc~export_xg~3->proc~cmp_elem_xg_vis~3 - - + + program~example1_curve - -example1_curve + +example1_curve - - -program~example1_curve->proc~export_xc~2 - - + + +program~example1_curve->proc~export_xc~3 + + - - -program~example1_curve->proc~export_xg~2 - - + + +program~example1_curve->proc~export_xg~3 + + program~example3_surface - -example3_surface + +example3_surface - - -program~example3_surface->proc~export_xc~3 - - + + +program~example3_surface->proc~export_xc~2 + + - - -program~example3_surface->proc~export_xg~3 - - + + +program~example3_surface->proc~export_xg~2 + + @@ -570,43 +570,43 @@

Called by

program~example_nurbs_curve - -example_nurbs_curve + +example_nurbs_curve - - -program~example_nurbs_curve->proc~export_xc~2 - - + + +program~example_nurbs_curve->proc~export_xc~3 + + - - -program~example_nurbs_curve->proc~export_xg~2 - - + + +program~example_nurbs_curve->proc~export_xg~3 + + program~example_nurbs_surface - -example_nurbs_surface + +example_nurbs_surface - - -program~example_nurbs_surface->proc~export_xc~3 - - + + +program~example_nurbs_surface->proc~export_xc~2 + + - - -program~example_nurbs_surface->proc~export_xg~3 - - + + +program~example_nurbs_surface->proc~export_xg~2 + + @@ -654,43 +654,43 @@

Called by

program~shape_c_1d - -shape_C_1d + +shape_C_1d - - -program~shape_c_1d->proc~export_xc~2 - - + + +program~shape_c_1d->proc~export_xc~3 + + - - -program~shape_c_1d->proc~export_xg~2 - - + + +program~shape_c_1d->proc~export_xg~3 + + program~shape_c_2d - -shape_C_2d + +shape_C_2d - - -program~shape_c_2d->proc~export_xc~3 - - + + +program~shape_c_2d->proc~export_xc~2 + + - - -program~shape_c_2d->proc~export_xg~3 - - + + +program~shape_c_2d->proc~export_xg~2 + + @@ -717,64 +717,64 @@

Called by

program~shape_circle - -shape_circle + +shape_circle - - -program~shape_circle->proc~export_xc~2 - - + + +program~shape_circle->proc~export_xc~3 + + - - -program~shape_circle->proc~export_xg~2 - - + + +program~shape_circle->proc~export_xg~3 + + program~shape_half_circle - -shape_half_circle + +shape_half_circle - - -program~shape_half_circle->proc~export_xc~2 - - + + +program~shape_half_circle->proc~export_xc~3 + + - - -program~shape_half_circle->proc~export_xg~2 - - + + +program~shape_half_circle->proc~export_xg~3 + + program~shape_half_ring_2d - -shape_half_ring_2d + +shape_half_ring_2d - - -program~shape_half_ring_2d->proc~export_xc~3 - - + + +program~shape_half_ring_2d->proc~export_xc~2 + + - - -program~shape_half_ring_2d->proc~export_xg~3 - - + + +program~shape_half_ring_2d->proc~export_xg~2 + + @@ -822,22 +822,22 @@

Called by

program~shape_ring_2d - -shape_ring_2d + +shape_ring_2d - - -program~shape_ring_2d->proc~export_xc~3 - - + + +program~shape_ring_2d->proc~export_xc~2 + + - - -program~shape_ring_2d->proc~export_xg~3 - - + + +program~shape_ring_2d->proc~export_xg~2 + + @@ -864,22 +864,22 @@

Called by

program~shape_tetragon - -shape_tetragon + +shape_tetragon - - -program~shape_tetragon->proc~export_xc~3 - - + + +program~shape_tetragon->proc~export_xc~2 + + - - -program~shape_tetragon->proc~export_xg~3 - - + + +program~shape_tetragon->proc~export_xg~2 + + @@ -1011,7 +1011,7 @@

Arguments

- + integer, intent(in) @@ -1271,7 +1271,7 @@

Documentation generated by FORD - on 2024-05-17T21:11:41.817259

+ on 2024-05-17T21:17:42.005035


diff --git a/interface/elemconn_cn.html b/interface/elemconn_cn.html index 2369a7aaa..e7484a46a 100644 --- a/interface/elemconn_cn.html +++ b/interface/elemconn_cn.html @@ -341,24 +341,24 @@

Called by

proc~cmp_elem~2 - - -nurbs_curve%cmp_elem + + +nurbs_surface%cmp_elem proc~cmp_elem~2->interface~elemconn_cn - - + + proc~cmp_elem~3 - - -nurbs_surface%cmp_elem + + +nurbs_curve%cmp_elem @@ -494,7 +494,7 @@

Arguments

- + integer, intent(in) @@ -509,7 +509,7 @@

Arguments

- + real(kind=rk), intent(in), @@ -539,7 +539,7 @@

Arguments

- + integer, intent(out), @@ -703,7 +703,7 @@

Arguments

- + integer, intent(out), @@ -927,7 +927,7 @@

Arguments

- + integer, intent(out), @@ -964,7 +964,7 @@

Arguments

Documentation generated by FORD - on 2024-05-17T21:11:41.817259

+ on 2024-05-17T21:17:42.005035


diff --git a/interface/ndgrid.html b/interface/ndgrid.html index 000622560..c52c0b620 100644 --- a/interface/ndgrid.html +++ b/interface/ndgrid.html @@ -322,18 +322,18 @@

Called by

 - + -proc~basis~3 - +proc~basis~2 + nurbs_surface%basis - + -proc~basis~3->interface~ndgrid +proc~basis~2->interface~ndgrid @@ -352,18 +352,18 @@

Called by

 - + -proc~create~3 - +proc~create~2 + nurbs_surface%create - + -proc~create~3->interface~ndgrid +proc~create~2->interface~ndgrid @@ -382,18 +382,18 @@

Called by

 - + -proc~derivative~3 - +proc~derivative~2 + nurbs_surface%derivative - + -proc~derivative~3->interface~ndgrid +proc~derivative~2->interface~ndgrid @@ -406,9 +406,9 @@

Called by

 - + -program~example3_surface->proc~create~3 +program~example3_surface->proc~create~2 @@ -436,9 +436,9 @@

Called by

 - + -program~example_nurbs_surface->proc~create~3 +program~example_nurbs_surface->proc~create~2 @@ -466,9 +466,9 @@

Called by

 - + -program~example_ppm1->proc~create~3 +program~example_ppm1->proc~create~2 @@ -481,9 +481,9 @@

Called by

 - + -program~example_ppm2->proc~create~3 +program~example_ppm2->proc~create~2 @@ -496,9 +496,9 @@

Called by

 - + -program~example_ppm3->proc~create~3 +program~example_ppm3->proc~create~2 @@ -511,9 +511,9 @@

Called by

 - + -program~nearest_point_2d->proc~create~3 +program~nearest_point_2d->proc~create~2 @@ -526,9 +526,9 @@

Called by

 - + -program~nearest_point_2d_bench->proc~create~3 +program~nearest_point_2d_bench->proc~create~2 @@ -556,9 +556,9 @@

Called by

 - + -program~shape_c_2d->proc~create~3 +program~shape_c_2d->proc~create~2 @@ -586,9 +586,9 @@

Called by

 - + -program~shape_half_ring_2d->proc~create~3 +program~shape_half_ring_2d->proc~create~2 @@ -631,9 +631,9 @@

Called by

 - + -program~shape_ring_2d->proc~create~3 +program~shape_ring_2d->proc~create~2 @@ -661,9 +661,9 @@

Called by

 - + -program~shape_tetragon->proc~create~3 +program~shape_tetragon->proc~create~2 @@ -808,7 +808,7 @@

Arguments

- + real(kind=rk), intent(out), @@ -897,7 +897,7 @@

Arguments

- + real(kind=rk), intent(out), @@ -934,7 +934,7 @@

Arguments

Documentation generated by FORD - on 2024-05-17T21:11:41.817259

+ on 2024-05-17T21:17:42.005035


diff --git a/interface/unique.html b/interface/unique.html index 34feacd6b..4321a6343 100644 --- a/interface/unique.html +++ b/interface/unique.html @@ -325,24 +325,24 @@

Called by

proc~cmp_elem~2 - - -nurbs_curve%cmp_elem + + +nurbs_surface%cmp_elem proc~cmp_elem~2->interface~unique - - + + proc~cmp_elem~3 - - -nurbs_surface%cmp_elem + + +nurbs_curve%cmp_elem @@ -463,7 +463,7 @@

Arguments

- + integer, intent(in), @@ -512,7 +512,7 @@

Arguments

- + real(kind=rk), intent(in), @@ -554,7 +554,7 @@

Documentation generated by FORD - on 2024-05-17T21:11:41.817259

+ on 2024-05-17T21:17:42.005035


diff --git a/lists/files.html b/lists/files.html index fc3012a2e..793d3d4d4 100644 --- a/lists/files.html +++ b/lists/files.html @@ -738,7 +738,7 @@

Graph Key

Documentation generated by FORD - on 2024-05-17T21:11:41.817259

+ on 2024-05-17T21:17:42.005035


diff --git a/lists/modules.html b/lists/modules.html index aef9b5ee8..6907a70e0 100644 --- a/lists/modules.html +++ b/lists/modules.html @@ -1060,7 +1060,7 @@

Graph Key

Documentation generated by FORD - on 2024-05-17T21:11:41.817259

+ on 2024-05-17T21:17:42.005035


diff --git a/lists/procedures.html b/lists/procedures.html index 7cb612298..959797866 100644 --- a/lists/procedures.html +++ b/lists/procedures.html @@ -79,13 +79,13 @@

Procedures

basis - forcad_nurbs_curve + forcad_nurbs_surface Subroutine basis - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -121,13 +121,13 @@

Procedures

cmp_degree - forcad_nurbs_curve + forcad_nurbs_surface Subroutine cmp_degree - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -139,13 +139,13 @@

Procedures

cmp_elem - forcad_nurbs_curve + forcad_nurbs_surface Function cmp_elem - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -157,13 +157,13 @@

Procedures

cmp_elem_Xc_vis - forcad_nurbs_curve + forcad_nurbs_surface Function cmp_elem_Xc_vis - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -175,13 +175,13 @@

Procedures

cmp_elem_Xg_vis - forcad_nurbs_curve + forcad_nurbs_surface Function cmp_elem_Xg_vis - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -229,13 +229,13 @@

Procedures

cmp_nc - forcad_nurbs_curve + forcad_nurbs_surface Subroutine cmp_nc - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -379,13 +379,13 @@

Procedures

create - forcad_nurbs_curve + forcad_nurbs_surface Subroutine create - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -397,13 +397,13 @@

Procedures

derivative - forcad_nurbs_curve + forcad_nurbs_surface Subroutine derivative - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -427,13 +427,13 @@

Procedures

elevate_degree - forcad_nurbs_curve + forcad_nurbs_surface Subroutine elevate_degree - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -451,13 +451,13 @@

Procedures

export_Xc - forcad_nurbs_curve + forcad_nurbs_surface Subroutine export_Xc - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -469,13 +469,13 @@

Procedures

export_Xg - forcad_nurbs_curve + forcad_nurbs_surface Subroutine export_Xg - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -493,13 +493,13 @@

Procedures

finalize - forcad_nurbs_curve + forcad_nurbs_surface Subroutine finalize - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -511,31 +511,31 @@

Procedures

generate_Xc - example_nurbs_surface + example3_surface Function generate_Xc - example3_volume + example_nurbs_curve Function generate_Xc - example_nurbs_curve + example_nurbs_volume Function generate_Xc - example3_surface + example3_volume Function generate_Xc - example_nurbs_volume + example_nurbs_surface Function @@ -547,13 +547,13 @@

Procedures

get_continuity - forcad_nurbs_curve + forcad_nurbs_surface Function get_continuity - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -595,13 +595,13 @@

Procedures

get_elem - forcad_nurbs_curve + forcad_nurbs_surface Function get_elem - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -613,13 +613,13 @@

Procedures

get_elem_Xc_vis - forcad_nurbs_curve + forcad_nurbs_surface Function get_elem_Xc_vis - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -631,13 +631,13 @@

Procedures

get_elem_Xg_vis - forcad_nurbs_curve + forcad_nurbs_surface Function get_elem_Xg_vis - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -649,13 +649,13 @@

Procedures

get_knot_all - forcad_nurbs_curve + forcad_nurbs_surface Function get_knot_all - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -667,13 +667,13 @@

Procedures

get_knoti - forcad_nurbs_curve + forcad_nurbs_surface Function get_knoti - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -685,13 +685,13 @@

Procedures

get_multiplicity - forcad_nurbs_curve + forcad_nurbs_surface Function get_multiplicity - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -703,13 +703,13 @@

Procedures

get_nc - forcad_nurbs_curve + forcad_nurbs_surface Function get_nc - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -721,13 +721,13 @@

Procedures

get_ng - forcad_nurbs_curve + forcad_nurbs_surface Function get_ng - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -739,13 +739,13 @@

Procedures

get_Wc_all - forcad_nurbs_curve + forcad_nurbs_surface Function get_Wc_all - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -757,13 +757,13 @@

Procedures

get_Wci - forcad_nurbs_curve + forcad_nurbs_surface Function get_Wci - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -775,13 +775,13 @@

Procedures

get_Xc_all - forcad_nurbs_curve + forcad_nurbs_surface Function get_Xc_all - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -793,13 +793,13 @@

Procedures

get_Xci - forcad_nurbs_curve + forcad_nurbs_surface Function get_Xci - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -811,13 +811,13 @@

Procedures

get_Xcid - forcad_nurbs_curve + forcad_nurbs_surface Function get_Xcid - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -829,13 +829,13 @@

Procedures

get_Xg_all - forcad_nurbs_curve + forcad_nurbs_surface Function get_Xg_all - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -847,13 +847,13 @@

Procedures

get_Xgi - forcad_nurbs_curve + forcad_nurbs_surface Function get_Xgi - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -865,13 +865,13 @@

Procedures

get_Xgid - forcad_nurbs_curve + forcad_nurbs_surface Function get_Xgid - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -883,13 +883,13 @@

Procedures

get_Xt - forcad_nurbs_curve + forcad_nurbs_surface Function get_Xt - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -913,13 +913,13 @@

Procedures

insert_knots - forcad_nurbs_curve + forcad_nurbs_surface Subroutine insert_knots - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -931,13 +931,13 @@

Procedures

is_rational - forcad_nurbs_curve + forcad_nurbs_surface Function is_rational - forcad_nurbs_surface + forcad_nurbs_curve Function @@ -967,13 +967,13 @@

Procedures

modify_Wc - forcad_nurbs_curve + forcad_nurbs_surface Subroutine modify_Wc - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -985,13 +985,13 @@

Procedures

modify_Xc - forcad_nurbs_curve + forcad_nurbs_surface Subroutine modify_Xc - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -1021,13 +1021,13 @@

Procedures

nearest_point - forcad_nurbs_curve + forcad_nurbs_surface Subroutine nearest_point - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -1063,13 +1063,13 @@

Procedures

remove_knots - forcad_nurbs_curve + forcad_nurbs_surface Subroutine remove_knots - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -1093,13 +1093,13 @@

Procedures

rotate_Xc - forcad_nurbs_curve + forcad_nurbs_surface Subroutine rotate_Xc - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -1111,13 +1111,13 @@

Procedures

rotate_Xg - forcad_nurbs_curve + forcad_nurbs_surface Subroutine rotate_Xg - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -1135,15 +1135,15 @@

Procedures

set1 - forcad_nurbs_curve + forcad_nurbs_surface Subroutine -

Set knot vector, control points and weights for the NURBS curve object.

+

Set knot vectors, control points and weights for the NURBS surface object.

set1 - forcad_nurbs_surface + forcad_nurbs_curve Subroutine -

Set knot vectors, control points and weights for the NURBS surface object.

+

Set knot vector, control points and weights for the NURBS curve object.

set2 @@ -1153,15 +1153,15 @@

Procedures

set2 - forcad_nurbs_curve + forcad_nurbs_surface Subroutine -

Set NURBS curve using nodes of parameter space (Xth), degree, continuity, control points and weights.

+

Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights

set2 - forcad_nurbs_surface + forcad_nurbs_curve Subroutine -

Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights

+

Set NURBS curve using nodes of parameter space (Xth), degree, continuity, control points and weights.

set3 @@ -1171,15 +1171,15 @@

Procedures

set3 - forcad_nurbs_curve + forcad_nurbs_surface Subroutine -

Set Bezier or Rational Bezier curve using control points and weights.

+

Set Bezier or Rational Bezier surface using control points and weights.

set3 - forcad_nurbs_surface + forcad_nurbs_curve Subroutine -

Set Bezier or Rational Bezier surface using control points and weights.

+

Set Bezier or Rational Bezier curve using control points and weights.

set_C @@ -1189,13 +1189,13 @@

Procedures

set_C - forcad_nurbs_curve + forcad_nurbs_surface Subroutine set_C - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -1213,13 +1213,13 @@

Procedures

set_elem - forcad_nurbs_curve + forcad_nurbs_surface Subroutine set_elem - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -1231,13 +1231,13 @@

Procedures

set_elem_Xc_vis - forcad_nurbs_curve + forcad_nurbs_surface Subroutine set_elem_Xc_vis - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -1249,13 +1249,13 @@

Procedures

set_elem_Xg_vis - forcad_nurbs_curve + forcad_nurbs_surface Subroutine set_elem_Xg_vis - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -1309,13 +1309,13 @@

Procedures

show - forcad_nurbs_curve + forcad_nurbs_surface Subroutine show - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -1333,13 +1333,13 @@

Procedures

translate_Xc - forcad_nurbs_curve + forcad_nurbs_surface Subroutine translate_Xc - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -1351,13 +1351,13 @@

Procedures

translate_Xg - forcad_nurbs_curve + forcad_nurbs_surface Subroutine translate_Xg - forcad_nurbs_surface + forcad_nurbs_curve Subroutine @@ -1395,8 +1395,8 @@

Procedures

interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity @@ -1404,38 +1404,38 @@

Procedures

proc~compute_multiplicity1 - -compute_multiplicity1 + +compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 - - + + proc~compute_multiplicity2 - -compute_multiplicity2 + +compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 - - + + interface~elemconn_c0 - -elemConn_C0 + +elemConn_C0 @@ -1443,53 +1443,53 @@

Procedures

proc~cmp_elemconn_c0_l - -cmp_elemConn_C0_L + +cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l - - + + proc~cmp_elemconn_c0_s - -cmp_elemConn_C0_S + +cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s - - + + proc~cmp_elemconn_c0_v - -cmp_elemConn_C0_V + +cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v - - + + interface~elemconn_cn - -elemConn_Cn + +elemConn_Cn @@ -1497,53 +1497,53 @@

Procedures

proc~cmp_elemconn_cn_l - -cmp_elemConn_Cn_L + +cmp_elemConn_Cn_L interface~elemconn_cn->proc~cmp_elemconn_cn_l - - + + proc~cmp_elemconn_cn_s - -cmp_elemConn_Cn_S + +cmp_elemConn_Cn_S interface~elemconn_cn->proc~cmp_elemconn_cn_s - - + + proc~cmp_elemconn_cn_v - -cmp_elemConn_Cn_V + +cmp_elemConn_Cn_V interface~elemconn_cn->proc~cmp_elemconn_cn_v - - + + interface~ndgrid - -ndgrid + +ndgrid @@ -1551,38 +1551,38 @@

Procedures

proc~ndgrid2 - -ndgrid2 + +ndgrid2 interface~ndgrid->proc~ndgrid2 - - + + proc~ndgrid3 - -ndgrid3 + +ndgrid3 interface~ndgrid->proc~ndgrid3 - - + + interface~unique - -unique + +unique @@ -1590,38 +1590,38 @@

Procedures

proc~unique_integer - -unique_integer + +unique_integer interface~unique->proc~unique_integer - - + + proc~unique_real - -unique_real + +unique_real interface~unique->proc~unique_real - - + + none~get_degree - -nurbs_volume%get_degree + +nurbs_volume%get_degree @@ -1629,38 +1629,38 @@

Procedures

proc~get_degree_all - -nurbs_volume%get_degree_all + +nurbs_volume%get_degree_all none~get_degree->proc~get_degree_all - - + + proc~get_degree_dir - -nurbs_volume%get_degree_dir + +nurbs_volume%get_degree_dir none~get_degree->proc~get_degree_dir - - + + - + -none~get_degree~3 - - -nurbs_surface%get_degree +none~get_degree~2 + + +nurbs_surface%get_degree @@ -1668,38 +1668,38 @@

Procedures

proc~get_degree_all~2 - -nurbs_surface%get_degree_all + +nurbs_surface%get_degree_all - + -none~get_degree~3->proc~get_degree_all~2 - - +none~get_degree~2->proc~get_degree_all~2 + + proc~get_degree_dir~2 - -nurbs_surface%get_degree_dir + +nurbs_surface%get_degree_dir - + -none~get_degree~3->proc~get_degree_dir~2 - - +none~get_degree~2->proc~get_degree_dir~2 + + none~get_knot - -nurbs_volume%get_knot + +nurbs_volume%get_knot @@ -1707,116 +1707,116 @@

Procedures

proc~get_knot_all - -nurbs_volume%get_knot_all + +nurbs_volume%get_knot_all none~get_knot->proc~get_knot_all - - + + proc~get_knoti - -nurbs_volume%get_knoti + +nurbs_volume%get_knoti none~get_knot->proc~get_knoti - - + + none~get_knot~2 - - -nurbs_curve%get_knot + + +nurbs_surface%get_knot proc~get_knot_all~2 - - -nurbs_curve%get_knot_all + + +nurbs_surface%get_knot_all none~get_knot~2->proc~get_knot_all~2 - - + + proc~get_knoti~2 - - -nurbs_curve%get_knoti + + +nurbs_surface%get_knoti none~get_knot~2->proc~get_knoti~2 - - + + none~get_knot~3 - - -nurbs_surface%get_knot + + +nurbs_curve%get_knot proc~get_knot_all~3 - - -nurbs_surface%get_knot_all + + +nurbs_curve%get_knot_all none~get_knot~3->proc~get_knot_all~3 - - + + proc~get_knoti~3 - - -nurbs_surface%get_knoti + + +nurbs_curve%get_knoti none~get_knot~3->proc~get_knoti~3 - - + + none~get_wc - -nurbs_volume%get_Wc + +nurbs_volume%get_Wc @@ -1824,116 +1824,116 @@

Procedures

proc~get_wc_all - -nurbs_volume%get_Wc_all + +nurbs_volume%get_Wc_all none~get_wc->proc~get_wc_all - - + + proc~get_wci - -nurbs_volume%get_Wci + +nurbs_volume%get_Wci none~get_wc->proc~get_wci - - + + none~get_wc~2 - - -nurbs_curve%get_Wc + + +nurbs_surface%get_Wc proc~get_wc_all~2 - - -nurbs_curve%get_Wc_all + + +nurbs_surface%get_Wc_all none~get_wc~2->proc~get_wc_all~2 - - + + proc~get_wci~2 - - -nurbs_curve%get_Wci + + +nurbs_surface%get_Wci none~get_wc~2->proc~get_wci~2 - - + + none~get_wc~3 - - -nurbs_surface%get_Wc + + +nurbs_curve%get_Wc proc~get_wc_all~3 - - -nurbs_surface%get_Wc_all + + +nurbs_curve%get_Wc_all none~get_wc~3->proc~get_wc_all~3 - - + + proc~get_wci~3 - - -nurbs_surface%get_Wci + + +nurbs_curve%get_Wci none~get_wc~3->proc~get_wci~3 - - + + none~get_xc - -nurbs_volume%get_Xc + +nurbs_volume%get_Xc @@ -1941,154 +1941,154 @@

Procedures

proc~get_xc_all - -nurbs_volume%get_Xc_all + +nurbs_volume%get_Xc_all none~get_xc->proc~get_xc_all - - + + proc~get_xci - -nurbs_volume%get_Xci + +nurbs_volume%get_Xci none~get_xc->proc~get_xci - - + + proc~get_xcid - -nurbs_volume%get_Xcid + +nurbs_volume%get_Xcid none~get_xc->proc~get_xcid - - + + none~get_xc~2 - - -nurbs_curve%get_Xc + + +nurbs_surface%get_Xc proc~get_xc_all~2 - - -nurbs_curve%get_Xc_all + + +nurbs_surface%get_Xc_all none~get_xc~2->proc~get_xc_all~2 - - + + proc~get_xcid~2 - - -nurbs_curve%get_Xcid + + +nurbs_surface%get_Xcid none~get_xc~2->proc~get_xcid~2 - - + + proc~get_xci~2 - - -nurbs_curve%get_Xci + + +nurbs_surface%get_Xci none~get_xc~2->proc~get_xci~2 - - + + none~get_xc~3 - - -nurbs_surface%get_Xc + + +nurbs_curve%get_Xc proc~get_xc_all~3 - - -nurbs_surface%get_Xc_all + + +nurbs_curve%get_Xc_all none~get_xc~3->proc~get_xc_all~3 - - + + proc~get_xcid~3 - - -nurbs_surface%get_Xcid + + +nurbs_curve%get_Xcid none~get_xc~3->proc~get_xcid~3 - - + + proc~get_xci~3 - - -nurbs_surface%get_Xci + + +nurbs_curve%get_Xci none~get_xc~3->proc~get_xci~3 - - + + @@ -2147,117 +2147,117 @@

Procedures

none~get_xg~2 - - -nurbs_curve%get_Xg + + +nurbs_surface%get_Xg proc~get_xg_all~2 - - -nurbs_curve%get_Xg_all + + +nurbs_surface%get_Xg_all none~get_xg~2->proc~get_xg_all~2 - - + + proc~get_xgid~2 - - -nurbs_curve%get_Xgid + + +nurbs_surface%get_Xgid none~get_xg~2->proc~get_xgid~2 - - + + proc~get_xgi~2 - - -nurbs_curve%get_Xgi + + +nurbs_surface%get_Xgi none~get_xg~2->proc~get_xgi~2 - - + + none~get_xg~3 - - -nurbs_surface%get_Xg + + +nurbs_curve%get_Xg proc~get_xg_all~3 - - -nurbs_surface%get_Xg_all + + +nurbs_curve%get_Xg_all none~get_xg~3->proc~get_xg_all~3 - - + + proc~get_xgid~3 - - -nurbs_surface%get_Xgid + + +nurbs_curve%get_Xgid none~get_xg~3->proc~get_xgid~3 - - + + proc~get_xgi~3 - - -nurbs_surface%get_Xgi + + +nurbs_curve%get_Xgi none~get_xg~3->proc~get_xgi~3 - - + + none~set - -nurbs_volume%set + +nurbs_volume%set @@ -2265,169 +2265,169 @@

Procedures

proc~set1 - -nurbs_volume%set1 + +nurbs_volume%set1 none~set->proc~set1 - - + + proc~set2 - -nurbs_volume%set2 + +nurbs_volume%set2 none~set->proc~set2 - - + + proc~set3 - -nurbs_volume%set3 + +nurbs_volume%set3 none~set->proc~set3 - - + + none~set~2 - - -nurbs_curve%set + + +nurbs_surface%set proc~set1~2 - - -nurbs_curve%set1 + + +nurbs_surface%set1 none~set~2->proc~set1~2 - - + + proc~set2~2 - - -nurbs_curve%set2 + + +nurbs_surface%set2 none~set~2->proc~set2~2 - - + + proc~set3~2 - - -nurbs_curve%set3 + + +nurbs_surface%set3 none~set~2->proc~set3~2 - - + + none~set~3 - - -nurbs_surface%set + + +nurbs_curve%set proc~set1~3 - - -nurbs_surface%set1 + + +nurbs_curve%set1 none~set~3->proc~set1~3 - - + + proc~set2~3 - - -nurbs_surface%set2 + + +nurbs_curve%set2 none~set~3->proc~set2~3 - - + + proc~set3~3 - - -nurbs_surface%set3 + + +nurbs_curve%set3 none~set~3->proc~set3~3 - - + + proc~basis - -nurbs_volume%basis + +nurbs_volume%basis proc~basis->interface~ndgrid - - + + @@ -2442,8 +2442,8 @@

Procedures

proc~basis_bspline - -basis_bspline + +basis_bspline @@ -2474,63 +2474,63 @@

Procedures

proc~basis~2 - - -nurbs_curve%basis + + +nurbs_surface%basis + + +proc~basis~2->interface~ndgrid + + + proc~is_rational~2 - - -nurbs_curve%is_rational + + +nurbs_surface%is_rational - + proc~basis~2->proc~is_rational~2 - - + + proc~basis~3 - - -nurbs_surface%basis + + +nurbs_curve%basis - - -proc~basis~3->interface~ndgrid - - - proc~is_rational~3 - - -nurbs_surface%is_rational + + +nurbs_curve%is_rational proc~basis~3->proc~is_rational~3 - - + + proc~bincoeff - -bincoeff + +bincoeff @@ -2538,23 +2538,23 @@

Procedures

proc~factln - -factln + +factln proc~bincoeff->proc~factln - - + + proc~cmp_degree - -nurbs_volume%cmp_degree + +nurbs_volume%cmp_degree @@ -2570,287 +2570,287 @@

Procedures

proc~cmp_degree->proc~get_multiplicity - - + + proc~cmp_degree~2 - - -nurbs_curve%cmp_degree + + +nurbs_surface%cmp_degree proc~get_multiplicity~2 - - -nurbs_curve%get_multiplicity + + +nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 - - + + proc~cmp_degree~3 - - -nurbs_surface%cmp_degree + + +nurbs_curve%cmp_degree proc~get_multiplicity~3 - - -nurbs_surface%get_multiplicity + + +nurbs_curve%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 - - + + proc~cmp_elem - -nurbs_volume%cmp_elem + +nurbs_volume%cmp_elem proc~cmp_elem->interface~elemconn_cn - - + + proc~cmp_elem->interface~unique - - + + proc~cmp_elem->proc~get_multiplicity - - + + proc~cmp_elem_xc_vis - -nurbs_volume%cmp_elem_Xc_vis + +nurbs_volume%cmp_elem_Xc_vis proc~cmp_elem_xc_vis->interface~elemconn_c0 - - + + proc~cmp_elem_xc_vis~2 - - -nurbs_curve%cmp_elem_Xc_vis + + +nurbs_surface%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~2->interface~elemconn_c0 - - + + proc~cmp_elem_xc_vis~3 - - -nurbs_surface%cmp_elem_Xc_vis + + +nurbs_curve%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~3->interface~elemconn_c0 - - + + proc~cmp_elem_xg_vis - -nurbs_volume%cmp_elem_Xg_vis + +nurbs_volume%cmp_elem_Xg_vis proc~cmp_elem_xg_vis->interface~elemconn_c0 - - + + proc~cmp_elem_xg_vis~2 - - -nurbs_curve%cmp_elem_Xg_vis + + +nurbs_surface%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~2->interface~elemconn_c0 - - + + proc~cmp_elem_xg_vis~3 - - -nurbs_surface%cmp_elem_Xg_vis + + +nurbs_curve%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~3->interface~elemconn_c0 - - + + proc~cmp_elem~2 - - -nurbs_curve%cmp_elem + + +nurbs_surface%cmp_elem proc~cmp_elem~2->interface~elemconn_cn - - + + proc~cmp_elem~2->interface~unique - - + + proc~cmp_elem~2->proc~get_multiplicity~2 - - + + proc~cmp_elem~3 - - -nurbs_surface%cmp_elem + + +nurbs_curve%cmp_elem proc~cmp_elem~3->interface~elemconn_cn - - + + proc~cmp_elem~3->interface~unique - - + + proc~cmp_elem~3->proc~get_multiplicity~3 - - + + proc~cmp_nc - -nurbs_volume%cmp_nc + +nurbs_volume%cmp_nc proc~cmp_nc->interface~compute_multiplicity - - + + proc~cmp_nc~2 - - -nurbs_curve%cmp_nc + + +nurbs_surface%cmp_nc proc~cmp_nc~2->interface~compute_multiplicity - - + + proc~cmp_nc~3 - - -nurbs_surface%cmp_nc + + +nurbs_curve%cmp_nc proc~cmp_nc~3->interface~compute_multiplicity - - + + proc~compute_dtgc_bspline_1d - -compute_dTgc_bspline_1d + +compute_dTgc_bspline_1d proc~compute_dtgc_bspline_1d->proc~basis_bspline_der - - + + @@ -2871,52 +2871,52 @@

Procedures

proc~kron - -kron + +kron proc~compute_dtgc_bspline_2d->proc~kron - - + + proc~compute_dtgc_bspline_3d - -compute_dTgc_bspline_3d + +compute_dTgc_bspline_3d proc~compute_dtgc_bspline_3d->proc~basis_bspline_der - - + + proc~compute_dtgc_bspline_3d->proc~kron - - + + proc~compute_dtgc_nurbs_1d - -compute_dTgc_nurbs_1d + +compute_dTgc_nurbs_1d proc~compute_dtgc_nurbs_1d->proc~basis_bspline_der - - + + @@ -2936,36 +2936,36 @@

Procedures

proc~compute_dtgc_nurbs_2d->proc~kron - - + + proc~compute_dtgc_nurbs_3d - -compute_dTgc_nurbs_3d + +compute_dTgc_nurbs_3d proc~compute_dtgc_nurbs_3d->proc~basis_bspline_der - - + + proc~compute_dtgc_nurbs_3d->proc~kron - - + + proc~compute_knot_vector - -compute_knot_vector + +compute_knot_vector @@ -2973,244 +2973,244 @@

Procedures

proc~repelem - -repelem + +repelem proc~compute_knot_vector->proc~repelem - - + + proc~compute_tgc_bspline_1d - -compute_Tgc_bspline_1d + +compute_Tgc_bspline_1d proc~compute_tgc_bspline_1d->proc~basis_bspline - - + + proc~compute_tgc_bspline_2d - -compute_Tgc_bspline_2d + +compute_Tgc_bspline_2d proc~compute_tgc_bspline_2d->proc~basis_bspline - - + + proc~compute_tgc_bspline_2d->proc~kron - - + + proc~compute_tgc_bspline_3d - -compute_Tgc_bspline_3d + +compute_Tgc_bspline_3d proc~compute_tgc_bspline_3d->proc~basis_bspline - - + + proc~compute_tgc_bspline_3d->proc~kron - - + + proc~compute_tgc_nurbs_1d - -compute_Tgc_nurbs_1d + +compute_Tgc_nurbs_1d proc~compute_tgc_nurbs_1d->proc~basis_bspline - - + + proc~compute_tgc_nurbs_2d - -compute_Tgc_nurbs_2d + +compute_Tgc_nurbs_2d proc~compute_tgc_nurbs_2d->proc~basis_bspline - - + + proc~compute_tgc_nurbs_2d->proc~kron - - + + proc~compute_tgc_nurbs_3d - -compute_Tgc_nurbs_3d + +compute_Tgc_nurbs_3d proc~compute_tgc_nurbs_3d->proc~basis_bspline - - + + proc~compute_tgc_nurbs_3d->proc~kron - - + + proc~compute_xg_bspline_1d - -compute_Xg_bspline_1d + +compute_Xg_bspline_1d proc~compute_xg_bspline_1d->proc~basis_bspline - - + + proc~compute_xg_bspline_2d - -compute_Xg_bspline_2d + +compute_Xg_bspline_2d proc~compute_xg_bspline_2d->proc~basis_bspline - - + + proc~compute_xg_bspline_2d->proc~kron - - + + proc~compute_xg_bspline_3d - -compute_Xg_bspline_3d + +compute_Xg_bspline_3d proc~compute_xg_bspline_3d->proc~basis_bspline - - + + proc~compute_xg_bspline_3d->proc~kron - - + + proc~compute_xg_nurbs_1d - -compute_Xg_nurbs_1d + +compute_Xg_nurbs_1d proc~compute_xg_nurbs_1d->proc~basis_bspline - - + + proc~compute_xg_nurbs_2d - -compute_Xg_nurbs_2d + +compute_Xg_nurbs_2d proc~compute_xg_nurbs_2d->proc~basis_bspline - - + + proc~compute_xg_nurbs_2d->proc~kron - - + + proc~compute_xg_nurbs_3d - -compute_Xg_nurbs_3d + +compute_Xg_nurbs_3d proc~compute_xg_nurbs_3d->proc~basis_bspline - - + + proc~compute_xg_nurbs_3d->proc~kron - - + + @@ -3224,218 +3224,218 @@

Procedures

proc~create->interface~ndgrid - - + + proc~create~2 - - -nurbs_curve%create + + +nurbs_surface%create - + +proc~create~2->interface~ndgrid + + + + + proc~create~2->proc~is_rational~2 - - + + proc~create~3 - - -nurbs_surface%create + + +nurbs_curve%create - - -proc~create~3->interface~ndgrid - - - proc~create~3->proc~is_rational~3 - - + + proc~derivative - -nurbs_volume%derivative + +nurbs_volume%derivative proc~derivative->interface~ndgrid - - + + proc~is_rational - -nurbs_volume%is_rational + +nurbs_volume%is_rational proc~derivative->proc~is_rational - - + + proc~derivative~2 - - -nurbs_curve%derivative + + +nurbs_surface%derivative - + +proc~derivative~2->interface~ndgrid + + + + + proc~derivative~2->proc~is_rational~2 - - + + proc~derivative~3 - - -nurbs_surface%derivative + + +nurbs_curve%derivative - - -proc~derivative~3->interface~ndgrid - - - proc~derivative~3->proc~is_rational~3 - - + + proc~elevate_degree - -nurbs_volume%elevate_degree + +nurbs_volume%elevate_degree proc~elevate_degree->none~get_knot - - + + proc~elevate_degree->none~set - - + + proc~elevate_degree_a_5_9 - -elevate_degree_A_5_9 + +elevate_degree_A_5_9 proc~elevate_degree->proc~elevate_degree_a_5_9 - - + + proc~elevate_degree_a_5_9->interface~compute_multiplicity - - + + proc~elevate_degree_a_5_9->proc~bincoeff - - + + proc~elevate_degree~2 - - -nurbs_curve%elevate_degree + + +nurbs_surface%elevate_degree - + +proc~elevate_degree~2->none~get_knot~2 + + + + + proc~elevate_degree~2->none~set~2 - - + + - + proc~elevate_degree~2->proc~elevate_degree_a_5_9 - - + + - + proc~elevate_degree~2->proc~is_rational~2 - - + + proc~elevate_degree~3 - - -nurbs_surface%elevate_degree + + +nurbs_curve%elevate_degree - - -proc~elevate_degree~3->none~get_knot~3 - - - proc~elevate_degree~3->none~set~3 - - + + proc~elevate_degree~3->proc~elevate_degree_a_5_9 - - + + proc~elevate_degree~3->proc~is_rational~3 - - + + @@ -3449,83 +3449,83 @@

Procedures

proc~export_xc->proc~cmp_elem_xc_vis - - + + proc~export_xc~2 - - -nurbs_curve%export_Xc + + +nurbs_surface%export_Xc proc~export_xc~2->proc~cmp_elem_xc_vis~2 - - + + proc~export_xc~3 - - -nurbs_surface%export_Xc + + +nurbs_curve%export_Xc proc~export_xc~3->proc~cmp_elem_xc_vis~3 - - + + proc~export_xg - -nurbs_volume%export_Xg + +nurbs_volume%export_Xg proc~export_xg->proc~cmp_elem_xg_vis - - + + proc~export_xg~2 - - -nurbs_curve%export_Xg + + +nurbs_surface%export_Xg proc~export_xg~2->proc~cmp_elem_xg_vis~2 - - + + proc~export_xg~3 - - -nurbs_surface%export_Xg + + +nurbs_curve%export_Xg proc~export_xg~3->proc~cmp_elem_xg_vis~3 - - + + @@ -3539,18 +3539,18 @@

Procedures

proc~finalize~2 - - -nurbs_curve%finalize + + +nurbs_surface%finalize proc~finalize~3 - - -nurbs_surface%finalize + + +nurbs_curve%finalize @@ -3558,8 +3558,8 @@

Procedures

proc~findspan - -findspan + +findspan @@ -3567,8 +3567,8 @@

Procedures

proc~generate_xc - -generate_Xc + +generate_Xc @@ -3576,8 +3576,8 @@

Procedures

proc~generate_xc~2 - -generate_Xc + +generate_Xc @@ -3585,8 +3585,8 @@

Procedures

proc~generate_xc~3 - -generate_Xc + +generate_Xc @@ -3594,8 +3594,8 @@

Procedures

proc~generate_xc~4 - -generate_Xc + +generate_Xc @@ -3603,8 +3603,8 @@

Procedures

proc~generate_xc~5 - -generate_Xc + +generate_Xc @@ -3612,46 +3612,46 @@

Procedures

proc~get_continuity - -nurbs_volume%get_continuity + +nurbs_volume%get_continuity proc~get_continuity->interface~compute_multiplicity - - + + proc~get_continuity~2 - - -nurbs_curve%get_continuity + + +nurbs_surface%get_continuity proc~get_continuity~2->interface~compute_multiplicity - - + + proc~get_continuity~3 - - -nurbs_surface%get_continuity + + +nurbs_curve%get_continuity proc~get_continuity~3->interface~compute_multiplicity - - + + @@ -3683,18 +3683,18 @@

Procedures

proc~get_elem_xc_vis~2 - - -nurbs_curve%get_elem_Xc_vis + + +nurbs_surface%get_elem_Xc_vis proc~get_elem_xc_vis~3 - - -nurbs_surface%get_elem_Xc_vis + + +nurbs_curve%get_elem_Xc_vis @@ -3710,96 +3710,96 @@

Procedures

proc~get_elem_xg_vis~2 - - -nurbs_curve%get_elem_Xg_vis + + +nurbs_surface%get_elem_Xg_vis proc~get_elem_xg_vis~3 - - -nurbs_surface%get_elem_Xg_vis + + +nurbs_curve%get_elem_Xg_vis proc~get_elem~2 - - -nurbs_curve%get_elem + + +nurbs_surface%get_elem proc~get_elem~3 - - -nurbs_surface%get_elem + + +nurbs_curve%get_elem proc~get_multiplicity->interface~compute_multiplicity - - + + proc~get_multiplicity~2->interface~compute_multiplicity - - + + proc~get_multiplicity~3->interface~compute_multiplicity - - + + proc~get_nc - -get_nc + +get_nc proc~get_nc->interface~compute_multiplicity - - + + proc~get_nc~2 - - -nurbs_curve%get_nc + + +nurbs_surface%get_nc + + +proc~get_nc~2->interface~compute_multiplicity + + + proc~get_nc~3 - - -nurbs_surface%get_nc + + +nurbs_curve%get_nc - - -proc~get_nc~3->interface~compute_multiplicity - - - proc~get_ng @@ -3812,18 +3812,18 @@

Procedures

proc~get_ng~2 - - -nurbs_curve%get_ng + + +nurbs_surface%get_ng proc~get_ng~3 - - -nurbs_surface%get_ng + + +nurbs_curve%get_ng @@ -3839,18 +3839,18 @@

Procedures

proc~get_xt~2 - - -nurbs_curve%get_Xt + + +nurbs_surface%get_Xt proc~get_xt~3 - - -nurbs_surface%get_Xt + + +nurbs_curve%get_Xt @@ -3858,8 +3858,8 @@

Procedures

proc~hexahedron_xc - -hexahedron_Xc + +hexahedron_Xc @@ -3867,8 +3867,8 @@

Procedures

proc~insert_knot_a_5_1 - -insert_knot_A_5_1 + +insert_knot_A_5_1 @@ -3876,124 +3876,124 @@

Procedures

proc~insert_knots - -nurbs_volume%insert_knots + +nurbs_volume%insert_knots proc~insert_knots->interface~compute_multiplicity - - + + proc~insert_knots->none~get_knot - - + + proc~insert_knots->none~set - - + + proc~insert_knots->proc~findspan - - + + proc~insert_knots->proc~insert_knot_a_5_1 - - + + proc~insert_knots~2 - - -nurbs_curve%insert_knots + + +nurbs_surface%insert_knots proc~insert_knots~2->interface~compute_multiplicity - - + + - + +proc~insert_knots~2->none~get_knot~2 + + + + + proc~insert_knots~2->none~set~2 - - + + - + proc~insert_knots~2->proc~findspan - - + + - + proc~insert_knots~2->proc~insert_knot_a_5_1 - - + + - + proc~insert_knots~2->proc~is_rational~2 - - + + proc~insert_knots~3 - - -nurbs_surface%insert_knots + + +nurbs_curve%insert_knots - -proc~insert_knots~3->interface~compute_multiplicity - - - - -proc~insert_knots~3->none~get_knot~3 - - +proc~insert_knots~3->interface~compute_multiplicity + + proc~insert_knots~3->none~set~3 - - + + proc~insert_knots~3->proc~findspan - - + + proc~insert_knots~3->proc~insert_knot_a_5_1 - - + + proc~insert_knots~3->proc~is_rational~3 - - + + @@ -4008,206 +4008,206 @@

Procedures

proc~modify_wc - -nurbs_volume%modify_Wc + +nurbs_volume%modify_Wc proc~modify_wc->none~get_knot - - + + proc~modify_wc->none~get_wc - - + + proc~modify_wc->none~get_xc - - + + proc~modify_wc->none~set - - + + proc~modify_wc~2 - - -nurbs_curve%modify_Wc + + +nurbs_surface%modify_Wc proc~modify_wc~2->none~get_knot~2 - - + + proc~modify_wc~2->none~get_wc~2 - - + + proc~modify_wc~2->none~get_xc~2 - - + + proc~modify_wc~2->none~set~2 - - + + proc~modify_wc~3 - - -nurbs_surface%modify_Wc + + +nurbs_curve%modify_Wc proc~modify_wc~3->none~get_knot~3 - - + + proc~modify_wc~3->none~get_wc~3 - - + + proc~modify_wc~3->none~get_xc~3 - - + + proc~modify_wc~3->none~set~3 - - + + proc~modify_xc - -nurbs_volume%modify_Xc + +nurbs_volume%modify_Xc proc~modify_xc->none~get_knot - - + + proc~modify_xc->none~get_wc - - + + proc~modify_xc->none~get_xc - - + + proc~modify_xc->none~set - - + + proc~modify_xc~2 - - -nurbs_curve%modify_Xc + + +nurbs_surface%modify_Xc proc~modify_xc~2->none~get_knot~2 - - + + proc~modify_xc~2->none~get_wc~2 - - + + proc~modify_xc~2->none~get_xc~2 - - + + proc~modify_xc~2->none~set~2 - - + + proc~modify_xc~3 - - -nurbs_surface%modify_Xc + + +nurbs_curve%modify_Xc proc~modify_xc~3->none~get_knot~3 - - + + proc~modify_xc~3->none~get_wc~3 - - + + proc~modify_xc~3->none~get_xc~3 - - + + proc~modify_xc~3->none~set~3 - - + + proc~nearest_point - -nurbs_volume%nearest_point + +nurbs_volume%nearest_point @@ -4241,18 +4241,18 @@

Procedures

proc~nearest_point~2 - - -nurbs_curve%nearest_point + + +nurbs_surface%nearest_point proc~nearest_point~3 - - -nurbs_surface%nearest_point + + +nurbs_curve%nearest_point @@ -4260,176 +4260,176 @@

Procedures

proc~put_to_nurbs - -nurbs_volume%put_to_nurbs + +nurbs_volume%put_to_nurbs proc~put_to_nurbs->proc~basis_bspline - - + + proc~put_to_nurbs->proc~kron - - + + proc~set_elem_xg_vis - -nurbs_volume%set_elem_Xg_vis + +nurbs_volume%set_elem_Xg_vis proc~put_to_nurbs->proc~set_elem_xg_vis - - + + proc~remove_knots - -nurbs_volume%remove_knots + +nurbs_volume%remove_knots proc~remove_knots->interface~compute_multiplicity - - + + proc~remove_knots->none~get_knot - - + + proc~remove_knots->none~set - - + + proc~remove_knots->proc~findspan - - + + proc~remove_knots_a_5_8 - -remove_knots_A_5_8 + +remove_knots_A_5_8 proc~remove_knots->proc~remove_knots_a_5_8 - - + + proc~remove_knots~2 - - -nurbs_curve%remove_knots + + +nurbs_surface%remove_knots proc~remove_knots~2->interface~compute_multiplicity - - + + - + +proc~remove_knots~2->none~get_knot~2 + + + + + proc~remove_knots~2->none~set~2 - - + + - + proc~remove_knots~2->proc~findspan - - + + - + proc~remove_knots~2->proc~is_rational~2 - - + + - + proc~remove_knots~2->proc~remove_knots_a_5_8 - - + + proc~remove_knots~3 - - -nurbs_surface%remove_knots + + +nurbs_curve%remove_knots - -proc~remove_knots~3->interface~compute_multiplicity - - - - -proc~remove_knots~3->none~get_knot~3 - - +proc~remove_knots~3->interface~compute_multiplicity + + proc~remove_knots~3->none~set~3 - - + + proc~remove_knots~3->proc~findspan - - + + proc~remove_knots~3->proc~is_rational~3 - - + + proc~remove_knots~3->proc~remove_knots_a_5_8 - - + + proc~rotate_xc - -nurbs_volume%rotate_Xc + +nurbs_volume%rotate_Xc @@ -4437,253 +4437,253 @@

Procedures

proc~rotation - -rotation + +rotation proc~rotate_xc->proc~rotation - - + + proc~rotate_xc~2 - - -nurbs_curve%rotate_Xc + + +nurbs_surface%rotate_Xc proc~rotate_xc~2->proc~rotation - - + + proc~rotate_xc~3 - - -nurbs_surface%rotate_Xc + + +nurbs_curve%rotate_Xc proc~rotate_xc~3->proc~rotation - - + + proc~rotate_xg - -nurbs_volume%rotate_Xg + +nurbs_volume%rotate_Xg proc~rotate_xg->proc~rotation - - + + proc~rotate_xg~2 - - -nurbs_curve%rotate_Xg + + +nurbs_surface%rotate_Xg proc~rotate_xg~2->proc~rotation - - + + proc~rotate_xg~3 - - -nurbs_surface%rotate_Xg + + +nurbs_curve%rotate_Xg proc~rotate_xg~3->proc~rotation - - + + cosd - -cosd + +cosd proc~rotation->cosd - - + + sind - -sind + +sind proc~rotation->sind - - + + proc~set1->proc~cmp_degree - - + + proc~set1->proc~cmp_nc - - + + proc~set1~2->proc~cmp_degree~2 - - + + - + -proc~set1~3->proc~cmp_degree~3 - - +proc~set1~2->proc~cmp_nc~2 + + - + -proc~set1~3->proc~cmp_nc~3 - - +proc~set1~3->proc~cmp_degree~3 + + proc~set2->proc~cmp_nc - - + + proc~set2->proc~compute_knot_vector - - + + - + -proc~set2~2->proc~compute_knot_vector - - +proc~set2~2->proc~cmp_nc~2 + + - + -proc~set2~3->proc~cmp_nc~3 - - +proc~set2~2->proc~compute_knot_vector + + proc~set2~3->proc~compute_knot_vector - - + + proc~set3->proc~cmp_degree - - + + proc~set3~2->proc~cmp_degree~2 - - + + proc~set3~3->proc~cmp_degree~3 - - + + proc~set_c - -nurbs_volume%set_C + +nurbs_volume%set_C proc~set_c->none~set - - + + proc~set_circle - -nurbs_curve%set_circle + +nurbs_curve%set_circle - + -proc~set_circle->none~set~2 - - +proc~set_circle->none~set~3 + + proc~set_c~2 - - -nurbs_curve%set_C + + +nurbs_surface%set_C proc~set_c~2->none~set~2 - - + + proc~set_c~3 - - -nurbs_surface%set_C + + +nurbs_curve%set_C proc~set_c~3->none~set~3 - - + + @@ -4706,54 +4706,54 @@

Procedures

proc~set_elem_xc_vis~2 - - -nurbs_curve%set_elem_Xc_vis + + +nurbs_surface%set_elem_Xc_vis proc~set_elem_xc_vis~3 - - -nurbs_surface%set_elem_Xc_vis + + +nurbs_curve%set_elem_Xc_vis proc~set_elem_xg_vis~2 - - -nurbs_curve%set_elem_Xg_vis + + +nurbs_surface%set_elem_Xg_vis proc~set_elem_xg_vis~3 - - -nurbs_surface%set_elem_Xg_vis + + +nurbs_curve%set_elem_Xg_vis proc~set_elem~2 - - -nurbs_curve%set_elem + + +nurbs_surface%set_elem proc~set_elem~3 - - -nurbs_surface%set_elem + + +nurbs_curve%set_elem @@ -4761,46 +4761,46 @@

Procedures

proc~set_half_circle - -nurbs_curve%set_half_circle + +nurbs_curve%set_half_circle - + -proc~set_half_circle->none~set~2 - - +proc~set_half_circle->none~set~3 + + proc~set_half_ring - -nurbs_volume%set_half_ring + +nurbs_volume%set_half_ring proc~set_half_ring->none~set - - + + proc~set_half_ring~2 - -nurbs_surface%set_half_ring + +nurbs_surface%set_half_ring - + -proc~set_half_ring~2->none~set~3 - - +proc~set_half_ring~2->none~set~2 + + @@ -4814,44 +4814,44 @@

Procedures

proc~set_hexahedron->none~set - - + + proc~set_hexahedron->proc~hexahedron_xc - - + + proc~set_ring - -nurbs_volume%set_ring + +nurbs_volume%set_ring proc~set_ring->none~set - - + + proc~set_ring~2 - -nurbs_surface%set_ring + +nurbs_surface%set_ring - + -proc~set_ring~2->none~set~3 - - +proc~set_ring~2->none~set~2 + + @@ -4862,11 +4862,11 @@

Procedures

 - + -proc~set_tetragon->none~set~3 - - +proc~set_tetragon->none~set~2 + + @@ -4887,26 +4887,26 @@

Procedures

proc~show - -nurbs_volume%show + +nurbs_volume%show proc~show~2 - - -nurbs_curve%show + + +nurbs_surface%show proc~show~3 - - -nurbs_surface%show + + +nurbs_curve%show @@ -4914,26 +4914,26 @@

Procedures

proc~translate_xc - -nurbs_volume%translate_Xc + +nurbs_volume%translate_Xc proc~translate_xc~2 - - -nurbs_curve%translate_Xc + + +nurbs_surface%translate_Xc proc~translate_xc~3 - - -nurbs_surface%translate_Xc + + +nurbs_curve%translate_Xc @@ -4941,26 +4941,26 @@

Procedures

proc~translate_xg - -nurbs_volume%translate_Xg + +nurbs_volume%translate_Xg proc~translate_xg~2 - - -nurbs_curve%translate_Xg + + +nurbs_surface%translate_Xg proc~translate_xg~3 - - -nurbs_surface%translate_Xg + + +nurbs_curve%translate_Xg @@ -4968,100 +4968,100 @@

Procedures

program~example1_curve - -example1_curve + +example1_curve - + -program~example1_curve->none~get_knot~2 - - +program~example1_curve->none~get_knot~3 + + - + -program~example1_curve->none~set~2 - - +program~example1_curve->none~set~3 + + - + -program~example1_curve->proc~create~2 - - +program~example1_curve->proc~create~3 + + - + -program~example1_curve->proc~elevate_degree~2 - - +program~example1_curve->proc~elevate_degree~3 + + - + -program~example1_curve->proc~export_xc~2 - - +program~example1_curve->proc~export_xc~3 + + - + -program~example1_curve->proc~export_xg~2 - - +program~example1_curve->proc~export_xg~3 + + - + -program~example1_curve->proc~finalize~2 - - +program~example1_curve->proc~finalize~3 + + program~example1_curve->proc~get_degree - - + + - + -program~example1_curve->proc~insert_knots~2 - - +program~example1_curve->proc~insert_knots~3 + + - + -program~example1_curve->proc~remove_knots~2 - - +program~example1_curve->proc~remove_knots~3 + + - + -program~example1_curve->proc~rotate_xc~2 - - +program~example1_curve->proc~rotate_xc~3 + + - + -program~example1_curve->proc~rotate_xg~2 - - +program~example1_curve->proc~rotate_xg~3 + + - + -program~example1_curve->proc~show~2 - - +program~example1_curve->proc~show~3 + + - + -program~example1_curve->proc~translate_xc~2 - - +program~example1_curve->proc~translate_xc~3 + + - + -program~example1_curve->proc~translate_xg~2 - - +program~example1_curve->proc~translate_xg~3 + + @@ -5072,257 +5072,257 @@

Procedures

 - + -program~example3_surface->none~get_degree~3 - - +program~example3_surface->none~get_degree~2 + + - + -program~example3_surface->none~get_knot~3 - - +program~example3_surface->none~get_knot~2 + + - + -program~example3_surface->none~set~3 - - +program~example3_surface->none~set~2 + + - + -program~example3_surface->proc~create~3 - - +program~example3_surface->proc~create~2 + + - + -program~example3_surface->proc~elevate_degree~3 +program~example3_surface->proc~elevate_degree~2 - + -program~example3_surface->proc~export_xc~3 - - +program~example3_surface->proc~export_xc~2 + + - + -program~example3_surface->proc~export_xg~3 - - +program~example3_surface->proc~export_xg~2 + + - + -program~example3_surface->proc~finalize~3 - - +program~example3_surface->proc~finalize~2 + + - + -program~example3_surface->proc~generate_xc~4 - - +program~example3_surface->proc~generate_xc + + - + -program~example3_surface->proc~insert_knots~3 - - +program~example3_surface->proc~insert_knots~2 + + - + -program~example3_surface->proc~remove_knots~3 +program~example3_surface->proc~remove_knots~2 - + -program~example3_surface->proc~rotate_xc~3 - - +program~example3_surface->proc~rotate_xc~2 + + - + -program~example3_surface->proc~rotate_xg~3 - - +program~example3_surface->proc~rotate_xg~2 + + - + -program~example3_surface->proc~show~3 - - +program~example3_surface->proc~show~2 + + - + -program~example3_surface->proc~translate_xc~3 - - +program~example3_surface->proc~translate_xc~2 + + - + -program~example3_surface->proc~translate_xg~3 - - +program~example3_surface->proc~translate_xg~2 + + program~example3_volume - -example3_volume + +example3_volume program~example3_volume->none~get_degree - - + + program~example3_volume->none~get_knot - - + + program~example3_volume->none~set - - + + program~example3_volume->proc~create - + program~example3_volume->proc~elevate_degree - - + + program~example3_volume->proc~export_xc - - + + program~example3_volume->proc~export_xg - - + + program~example3_volume->proc~finalize - + - + -program~example3_volume->proc~generate_xc~2 - - +program~example3_volume->proc~generate_xc~4 + + program~example3_volume->proc~insert_knots - - + + program~example3_volume->proc~remove_knots - - + + program~example3_volume->proc~rotate_xc - - + + program~example3_volume->proc~rotate_xg - - + + program~example3_volume->proc~show - - + + program~example3_volume->proc~translate_xc - - + + program~example3_volume->proc~translate_xg - - + + program~example_nurbs_curve - -example_nurbs_curve + +example_nurbs_curve - + -program~example_nurbs_curve->none~set~2 - - +program~example_nurbs_curve->none~set~3 + + - + -program~example_nurbs_curve->proc~create~2 - - +program~example_nurbs_curve->proc~create~3 + + - + -program~example_nurbs_curve->proc~export_xc~2 - - +program~example_nurbs_curve->proc~export_xc~3 + + - + -program~example_nurbs_curve->proc~export_xg~2 - - +program~example_nurbs_curve->proc~export_xg~3 + + - + -program~example_nurbs_curve->proc~finalize~2 - - +program~example_nurbs_curve->proc~finalize~3 + + - + -program~example_nurbs_curve->proc~generate_xc~3 - - +program~example_nurbs_curve->proc~generate_xc~2 + + - + -program~example_nurbs_curve->proc~show~2 - - +program~example_nurbs_curve->proc~show~3 + + @@ -5333,47 +5333,47 @@

Procedures

 - + -program~example_nurbs_surface->none~set~3 - - +program~example_nurbs_surface->none~set~2 + + - + -program~example_nurbs_surface->proc~create~3 - - +program~example_nurbs_surface->proc~create~2 + + - + -program~example_nurbs_surface->proc~export_xc~3 - - +program~example_nurbs_surface->proc~export_xc~2 + + - + -program~example_nurbs_surface->proc~export_xg~3 - - +program~example_nurbs_surface->proc~export_xg~2 + + - + -program~example_nurbs_surface->proc~finalize~3 - - +program~example_nurbs_surface->proc~finalize~2 + + - + -program~example_nurbs_surface->proc~generate_xc +program~example_nurbs_surface->proc~generate_xc~5 - + -program~example_nurbs_surface->proc~show~3 - - +program~example_nurbs_surface->proc~show~2 + + @@ -5387,8 +5387,8 @@

Procedures

program~example_nurbs_volume->none~set - - + + @@ -5405,8 +5405,8 @@

Procedures

program~example_nurbs_volume->proc~export_xg - - + + @@ -5414,158 +5414,158 @@

Procedures

 - + -program~example_nurbs_volume->proc~generate_xc~5 - - +program~example_nurbs_volume->proc~generate_xc~3 + + program~example_nurbs_volume->proc~show - - + + program~example_ppm1 - -example_ppm1 + +example_ppm1 - + -program~example_ppm1->none~get_xg~3 - - +program~example_ppm1->none~get_xg~2 + + - + -program~example_ppm1->proc~create~3 - - +program~example_ppm1->proc~create~2 + + - + -program~example_ppm1->proc~finalize~3 - - +program~example_ppm1->proc~finalize~2 + + - + -program~example_ppm1->proc~get_ng~3 - - +program~example_ppm1->proc~get_ng~2 + + program~example_ppm1->proc~set_ring~2 - - + + program~example_ppm1->proc~set_tetragon - - + + compute_rgb - -compute_rgb + +compute_rgb program~example_ppm1->compute_rgb - - + + export_pnm - -export_pnm + +export_pnm program~example_ppm1->export_pnm - - + + get_b - -get_b + +get_b program~example_ppm1->get_b - - + + get_g - -get_g + +get_g program~example_ppm1->get_g - - + + get_r - -get_r + +get_r program~example_ppm1->get_r - - + + set - -set + +set program~example_ppm1->set - - + + set_pnm - -set_pnm + +set_pnm program~example_ppm1->set_pnm - - + + timer_start - -timer_start + +timer_start program~example_ppm1->timer_start - - + + @@ -5576,224 +5576,224 @@

Procedures

program~example_ppm1->timer_stop - - + + program~example_ppm2 - -example_ppm2 + +example_ppm2 - + -program~example_ppm2->none~get_xg~3 - - +program~example_ppm2->none~get_xg~2 + + - + -program~example_ppm2->proc~create~3 - - +program~example_ppm2->proc~create~2 + + - + -program~example_ppm2->proc~finalize~3 - - +program~example_ppm2->proc~finalize~2 + + - + -program~example_ppm2->proc~get_ng~3 - - +program~example_ppm2->proc~get_ng~2 + + - + -program~example_ppm2->proc~rotate_xc~3 - - +program~example_ppm2->proc~rotate_xc~2 + + program~example_ppm2->proc~set_half_ring~2 - - + + program~example_ppm2->proc~set_tetragon - - + + - + -program~example_ppm2->proc~translate_xc~3 - - +program~example_ppm2->proc~translate_xc~2 + + program~example_ppm2->compute_rgb - - + + program~example_ppm2->export_pnm - - + + program~example_ppm2->get_b - - + + program~example_ppm2->get_g - - + + program~example_ppm2->get_r - - + + program~example_ppm2->set - - + + program~example_ppm2->set_pnm - - + + program~example_ppm2->timer_start - - + + program~example_ppm2->timer_stop - - + + program~example_ppm3 - -example_ppm3 + +example_ppm3 - + -program~example_ppm3->none~get_xg~3 - - +program~example_ppm3->none~get_xg~2 + + - + -program~example_ppm3->proc~create~3 - - +program~example_ppm3->proc~create~2 + + - + -program~example_ppm3->proc~finalize~3 - - +program~example_ppm3->proc~finalize~2 + + - + -program~example_ppm3->proc~get_ng~3 - - +program~example_ppm3->proc~get_ng~2 + + - + -program~example_ppm3->proc~modify_xc~3 - - +program~example_ppm3->proc~modify_xc~2 + + program~example_ppm3->proc~set_tetragon - - + + - + -program~example_ppm3->proc~translate_xc~3 - - +program~example_ppm3->proc~translate_xc~2 + + program~example_ppm3->compute_rgb - - + + program~example_ppm3->export_pnm - - + + program~example_ppm3->get_b - - + + program~example_ppm3->get_g - - + + program~example_ppm3->get_r - - + + program~example_ppm3->set - - + + program~example_ppm3->set_pnm - - + + program~example_ppm3->timer_start - - + + program~example_ppm3->timer_stop - - + + @@ -5807,8 +5807,8 @@

Procedures

program~example_put_to_nurbs->none~set - - + + @@ -5819,8 +5819,8 @@

Procedures

program~example_put_to_nurbs->proc~export_xg - - + + @@ -5831,53 +5831,53 @@

Procedures

program~example_put_to_nurbs->proc~hexahedron_xc - - + + program~example_put_to_nurbs->proc~put_to_nurbs - - + + program~example_put_to_nurbs->proc~show - - + + program~nearest_point_1d - -nearest_point_1d + +nearest_point_1d - + -program~nearest_point_1d->proc~create~2 - - +program~nearest_point_1d->proc~create~3 + + - + -program~nearest_point_1d->proc~finalize~2 - - +program~nearest_point_1d->proc~finalize~3 + + - + -program~nearest_point_1d->proc~nearest_point~2 - - +program~nearest_point_1d->proc~nearest_point~3 + + program~nearest_point_1d->proc~set_circle - - + + @@ -5888,21 +5888,21 @@

Procedures

 - + -program~nearest_point_2d->proc~create~3 - - +program~nearest_point_2d->proc~create~2 + + - + -program~nearest_point_2d->proc~finalize~3 - - +program~nearest_point_2d->proc~finalize~2 + + - + -program~nearest_point_2d->proc~nearest_point~3 +program~nearest_point_2d->proc~nearest_point~2 @@ -5921,21 +5921,21 @@

Procedures

 - + -program~nearest_point_2d_bench->proc~create~3 - - +program~nearest_point_2d_bench->proc~create~2 + + - + -program~nearest_point_2d_bench->proc~finalize~3 - - +program~nearest_point_2d_bench->proc~finalize~2 + + - + -program~nearest_point_2d_bench->proc~nearest_point~3 +program~nearest_point_2d_bench->proc~nearest_point~2 @@ -5948,8 +5948,8 @@

Procedures

program~nearest_point_2d_bench->timer_start - - + + @@ -5981,8 +5981,8 @@

Procedures

program~nearest_point_3d->proc~nearest_point - - + + @@ -5994,46 +5994,46 @@

Procedures

program~shape_c_1d - -shape_C_1d + +shape_C_1d - + -program~shape_c_1d->proc~create~2 - - +program~shape_c_1d->proc~create~3 + + - + -program~shape_c_1d->proc~export_xc~2 - - +program~shape_c_1d->proc~export_xc~3 + + - + -program~shape_c_1d->proc~export_xg~2 - - +program~shape_c_1d->proc~export_xg~3 + + - + -program~shape_c_1d->proc~finalize~2 - - +program~shape_c_1d->proc~finalize~3 + + - + -program~shape_c_1d->proc~set_c~2 - - +program~shape_c_1d->proc~set_c~3 + + - + -program~shape_c_1d->proc~show~2 - - +program~shape_c_1d->proc~show~3 + + @@ -6044,41 +6044,41 @@

Procedures

 - + -program~shape_c_2d->proc~create~3 - - +program~shape_c_2d->proc~create~2 + + - + -program~shape_c_2d->proc~export_xc~3 - - +program~shape_c_2d->proc~export_xc~2 + + - + -program~shape_c_2d->proc~export_xg~3 - - +program~shape_c_2d->proc~export_xg~2 + + - + -program~shape_c_2d->proc~finalize~3 - - +program~shape_c_2d->proc~finalize~2 + + - + -program~shape_c_2d->proc~set_c~3 +program~shape_c_2d->proc~set_c~2 - + -program~shape_c_2d->proc~show~3 - - +program~shape_c_2d->proc~show~2 + + @@ -6104,8 +6104,8 @@

Procedures

program~shape_c_3d->proc~export_xg - - + + @@ -6116,104 +6116,104 @@

Procedures

program~shape_c_3d->proc~set_c - - + + program~shape_c_3d->proc~show - - + + program~shape_circle - -shape_circle + +shape_circle - + -program~shape_circle->proc~create~2 - - +program~shape_circle->proc~create~3 + + - + -program~shape_circle->proc~export_xc~2 - - +program~shape_circle->proc~export_xc~3 + + - + -program~shape_circle->proc~export_xg~2 - - +program~shape_circle->proc~export_xg~3 + + - + -program~shape_circle->proc~finalize~2 - - +program~shape_circle->proc~finalize~3 + + program~shape_circle->proc~set_circle - - + + - + -program~shape_circle->proc~show~2 - - +program~shape_circle->proc~show~3 + + program~shape_half_circle - -shape_half_circle + +shape_half_circle - + -program~shape_half_circle->proc~create~2 - - +program~shape_half_circle->proc~create~3 + + - + -program~shape_half_circle->proc~export_xc~2 - - +program~shape_half_circle->proc~export_xc~3 + + - + -program~shape_half_circle->proc~export_xg~2 - - +program~shape_half_circle->proc~export_xg~3 + + - + -program~shape_half_circle->proc~finalize~2 - - +program~shape_half_circle->proc~finalize~3 + + program~shape_half_circle->proc~set_half_circle - - + + - + -program~shape_half_circle->proc~show~2 - - +program~shape_half_circle->proc~show~3 + + @@ -6224,41 +6224,41 @@

Procedures

 - + -program~shape_half_ring_2d->proc~create~3 - - +program~shape_half_ring_2d->proc~create~2 + + - + -program~shape_half_ring_2d->proc~export_xc~3 - - +program~shape_half_ring_2d->proc~export_xc~2 + + - + -program~shape_half_ring_2d->proc~export_xg~3 - - +program~shape_half_ring_2d->proc~export_xg~2 + + - + -program~shape_half_ring_2d->proc~finalize~3 - - +program~shape_half_ring_2d->proc~finalize~2 + + program~shape_half_ring_2d->proc~set_half_ring~2 - - + + - + -program~shape_half_ring_2d->proc~show~3 - - +program~shape_half_ring_2d->proc~show~2 + + @@ -6284,8 +6284,8 @@

Procedures

program~shape_half_ring_3d->proc~export_xg - - + + @@ -6296,14 +6296,14 @@

Procedures

program~shape_half_ring_3d->proc~set_half_ring - - + + program~shape_half_ring_3d->proc~show - - + + @@ -6329,8 +6329,8 @@

Procedures

program~shape_hexahedron->proc~export_xg - - + + @@ -6347,8 +6347,8 @@

Procedures

program~shape_hexahedron->proc~show - - + + @@ -6359,41 +6359,41 @@

Procedures

 - + -program~shape_ring_2d->proc~create~3 - - +program~shape_ring_2d->proc~create~2 + + - + -program~shape_ring_2d->proc~export_xc~3 - - +program~shape_ring_2d->proc~export_xc~2 + + - + -program~shape_ring_2d->proc~export_xg~3 - - +program~shape_ring_2d->proc~export_xg~2 + + - + -program~shape_ring_2d->proc~finalize~3 - - +program~shape_ring_2d->proc~finalize~2 + + program~shape_ring_2d->proc~set_ring~2 - - + + - + -program~shape_ring_2d->proc~show~3 - - +program~shape_ring_2d->proc~show~2 + + @@ -6419,8 +6419,8 @@

Procedures

program~shape_ring_3d->proc~export_xg - - + + @@ -6431,14 +6431,14 @@

Procedures

program~shape_ring_3d->proc~set_ring - - + + program~shape_ring_3d->proc~show - - + + @@ -6449,29 +6449,29 @@

Procedures

 - + -program~shape_tetragon->proc~create~3 - - +program~shape_tetragon->proc~create~2 + + - + -program~shape_tetragon->proc~export_xc~3 - - +program~shape_tetragon->proc~export_xc~2 + + - + -program~shape_tetragon->proc~export_xg~3 - - +program~shape_tetragon->proc~export_xg~2 + + - + -program~shape_tetragon->proc~finalize~3 - - +program~shape_tetragon->proc~finalize~2 + + @@ -6479,11 +6479,11 @@

Procedures

 - + -program~shape_tetragon->proc~show~3 - - +program~shape_tetragon->proc~show~2 + + @@ -6587,7 +6587,7 @@

Graph Key

Documentation generated by FORD - on 2024-05-17T21:11:41.817259

+ on 2024-05-17T21:17:42.005035


diff --git a/lists/programs.html b/lists/programs.html index e1597201a..e844f033c 100644 --- a/lists/programs.html +++ b/lists/programs.html @@ -236,7 +236,7 @@

Programs

Documentation generated by FORD - on 2024-05-17T21:11:41.817259

+ on 2024-05-17T21:17:42.005035


diff --git a/lists/types.html b/lists/types.html index 3eb3f0726..bd4ae89d5 100644 --- a/lists/types.html +++ b/lists/types.html @@ -197,7 +197,7 @@

Graph Key

Documentation generated by FORD - on 2024-05-17T21:11:41.817259

+ on 2024-05-17T21:17:42.005035


diff --git a/module/forcad.html b/module/forcad.html index d14ec81a4..1395ab5ab 100644 --- a/module/forcad.html +++ b/module/forcad.html @@ -144,10 +144,10 @@

Uses

  • @@ -831,7 +831,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/module/forcad_nurbs_curve.html b/module/forcad_nurbs_curve.html index 2438217c2..06cc60ae1 100644 --- a/module/forcad_nurbs_curve.html +++ b/module/forcad_nurbs_curve.html @@ -138,29 +138,29 @@

    Functions

    @@ -172,34 +172,34 @@

    Subroutines

    @@ -865,7 +865,7 @@

    Components

    - + real(kind=rk), private, @@ -882,7 +882,7 @@

    Components

    - + real(kind=rk), private, @@ -899,7 +899,7 @@

    Components

    - + real(kind=rk), private, @@ -916,7 +916,7 @@

    Components

    - + real(kind=rk), private, @@ -933,7 +933,7 @@

    Components

    - + integer, private @@ -950,7 +950,7 @@

    Components

    - + integer, private, @@ -967,7 +967,7 @@

    Components

    - + integer, private, @@ -984,7 +984,7 @@

    Components

    - + integer, private, @@ -1001,7 +1001,7 @@

    Components

    - + real(kind=rk), private, @@ -1018,7 +1018,7 @@

    Components

    - + integer, private @@ -1035,7 +1035,7 @@

    Components

    - + integer, private @@ -1061,193 +1061,193 @@

    Type-Bound Procedures

    procedure, public :: - basis -

    Compute the basis functions of the NURBS curve

    Read more… + basis +

    Compute the basis functions of the NURBS curve

    Read more… procedure, public :: - cmp_degree -

    Compute degree of the NURBS curve

    Read more… + cmp_degree +

    Compute degree of the NURBS curve

    Read more… procedure, public :: - cmp_elem -

    Generate IGA element connectivity

    Read more… + cmp_elem +

    Generate IGA element connectivity

    Read more… procedure, public :: - cmp_elem_Xc_vis -

    Generate connectivity for control points

    Read more… + cmp_elem_Xc_vis +

    Generate connectivity for control points

    Read more… procedure, public :: - cmp_elem_Xg_vis -

    Generate connectivity for geometry points

    Read more… + cmp_elem_Xg_vis +

    Generate connectivity for geometry points

    Read more… procedure, public :: - cmp_nc -

    Compute number of required control points

    Read more… + cmp_nc +

    Compute number of required control points

    Read more… procedure, public :: - create -

    Generate geometry points

    Read more… + create +

    Generate geometry points

    Read more… procedure, public :: - derivative -

    Compute the derivative of the NURBS curve

    Read more… + derivative +

    Compute the derivative of the NURBS curve

    Read more… procedure, public :: - elevate_degree -

    Elevate the degree of the curve

    Read more… + elevate_degree +

    Elevate the degree of the curve

    Read more… procedure, public :: - export_Xc -

    Export control points to VTK file

    Read more… + export_Xc +

    Export control points to VTK file

    Read more… procedure, public :: - export_Xg -

    Export geometry points to VTK file

    Read more… + export_Xg +

    Export geometry points to VTK file

    Read more… procedure, public :: - finalize -

    Finalize the NURBS curve object

    Read more… + finalize +

    Finalize the NURBS curve object

    Read more… generic, public :: - get_Wc => get_Wc_all, get_Wci -

    Get weights

    Read more… + get_Wc => get_Wc_all, get_Wci +

    Get weights

    Read more… generic, public :: - get_Xc => get_Xc_all, get_Xci, get_Xcid -

    Get control points

    Read more… + get_Xc => get_Xc_all, get_Xci, get_Xcid +

    Get control points

    Read more… generic, public :: - get_Xg => get_Xg_all, get_Xgi, get_Xgid -

    Get geometry points

    Read more… + get_Xg => get_Xg_all, get_Xgi, get_Xgid +

    Get geometry points

    Read more… procedure, public :: - get_Xt -

    Get parameter values

    Read more… + get_Xt +

    Get parameter values

    Read more… procedure, public :: - get_continuity -

    Compute and return the continuity of the curve

    Read more… + get_continuity +

    Compute and return the continuity of the curve

    Read more… procedure, public :: - get_degree -

    Get degree of the NURBS curve

    Read more… + get_degree +

    Get degree of the NURBS curve

    Read more… procedure, public :: - get_elem -

    Get IGA element connectivity

    Read more… + get_elem +

    Get IGA element connectivity

    Read more… procedure, public :: - get_elem_Xc_vis -

    Get connectivity for control points

    Read more… + get_elem_Xc_vis +

    Get connectivity for control points

    Read more… procedure, public :: - get_elem_Xg_vis -

    Get connectivity for geometry points

    Read more… + get_elem_Xg_vis +

    Get connectivity for geometry points

    Read more… generic, public :: - get_knot => get_knoti, get_knot_all -

    Get knot vector

    Read more… + get_knot => get_knoti, get_knot_all +

    Get knot vector

    Read more… procedure, public :: - get_multiplicity -

    Compute and return the multiplicity of the knots

    Read more… + get_multiplicity +

    Compute and return the multiplicity of the knots

    Read more… procedure, public :: - get_nc -

    Get number of control points

    Read more… + get_nc +

    Get number of control points

    Read more… procedure, public :: - get_ng -

    Get number of geometry points

    Read more… + get_ng +

    Get number of geometry points

    Read more… procedure, public :: - insert_knots -

    Insert knots into the knot vector

    Read more… + insert_knots +

    Insert knots into the knot vector

    Read more… procedure, public :: - is_rational -

    Check if the NURBS curve is rational

    Read more… + is_rational +

    Check if the NURBS curve is rational

    Read more… procedure, public :: - modify_Wc -

    Modify weights

    Read more… + modify_Wc +

    Modify weights

    Read more… procedure, public :: - modify_Xc -

    Modify control points

    Read more… + modify_Xc +

    Modify control points

    Read more… procedure, public :: - nearest_point -

    Find the nearest point on the NURBS curve

    Read more… + nearest_point +

    Find the nearest point on the NURBS curve

    Read more… procedure, public :: - remove_knots -

    Remove knots from the knot vector

    Read more… + remove_knots +

    Remove knots from the knot vector

    Read more… procedure, public :: - rotate_Xc -

    Rotate control points

    Read more… + rotate_Xc +

    Rotate control points

    Read more… procedure, public :: - rotate_Xg -

    Rotate geometry points

    Read more… + rotate_Xg +

    Rotate geometry points

    Read more… generic, public :: - set => set1, set2, set3 -

    Set NURBS curve

    Read more… + set => set1, set2, set3 +

    Set NURBS curve

    Read more… procedure, public :: - set1 -

    Set knot vector, control points and weights for the NURBS curve object

    Read more… + set1 +

    Set knot vector, control points and weights for the NURBS curve object

    Read more… procedure, public :: - set2 -

    Set NURBS curve using nodes of parameter space, degree, continuity, control points and weights

    Read more… + set2 +

    Set NURBS curve using nodes of parameter space, degree, continuity, control points and weights

    Read more… procedure, public :: - set3 -

    Set Bezier or Rational Bezier curve using control points and weights

    Read more… + set3 +

    Set Bezier or Rational Bezier curve using control points and weights

    Read more… procedure, public :: - set_C -

    Set a C-shape

    Read more… + set_C +

    Set a C-shape

    Read more… procedure, public :: @@ -1256,18 +1256,18 @@

    Type-Bound Procedures

    procedure, public :: - set_elem -

    Set IGA element connectivity

    Read more… + set_elem +

    Set IGA element connectivity

    Read more… procedure, public :: - set_elem_Xc_vis -

    Set connectivity for control points

    Read more… + set_elem_Xc_vis +

    Set connectivity for control points

    Read more… procedure, public :: - set_elem_Xg_vis -

    Set connectivity for geometry points

    Read more… + set_elem_Xg_vis +

    Set connectivity for geometry points

    Read more… procedure, public :: @@ -1276,68 +1276,68 @@

    Type-Bound Procedures

    procedure, public :: - show -

    Show the NURBS object using PyVista

    Read more… + show +

    Show the NURBS object using PyVista

    Read more… procedure, public :: - translate_Xc -

    Translate control points

    Read more… + translate_Xc +

    Translate control points

    Read more… procedure, public :: - translate_Xg -

    Translate geometry points

    Read more… + translate_Xg +

    Translate geometry points

    Read more… procedure, private :: - get_Wc_all -

    Get all weights

    Read more… + get_Wc_all +

    Get all weights

    Read more… procedure, private :: - get_Wci -

    Get i-th weight

    Read more… + get_Wci +

    Get i-th weight

    Read more… procedure, private :: - get_Xc_all -

    Get all control points

    Read more… + get_Xc_all +

    Get all control points

    Read more… procedure, private :: - get_Xci -

    Get i-th control point

    Read more… + get_Xci +

    Get i-th control point

    Read more… procedure, private :: - get_Xcid -

    Get i-th control point in a specific direction

    Read more… + get_Xcid +

    Get i-th control point in a specific direction

    Read more… procedure, private :: - get_Xg_all -

    Get all geometry points

    Read more… + get_Xg_all +

    Get all geometry points

    Read more… procedure, private :: - get_Xgi -

    Get i-th geometry point

    Read more… + get_Xgi +

    Get i-th geometry point

    Read more… procedure, private :: - get_Xgid -

    Get i-th geometry point in a specific direction

    Read more… + get_Xgid +

    Get i-th geometry point in a specific direction

    Read more… procedure, private :: - get_knot_all -

    Get all knot vectors

    Read more… + get_knot_all +

    Get all knot vectors

    Read more… procedure, private :: - get_knoti -

    Get i-th knot value

    Read more… + get_knoti +

    Get i-th knot value

    Read more… @@ -1350,7 +1350,7 @@

    Type-Bound Procedures

    Functions

    -

    private pure function cmp_elem(this) result(elemConn) +

    private pure function cmp_elem(this) result(elemConn)

    @@ -1373,7 +1373,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -1399,7 +1399,7 @@

    -

    private pure function cmp_elem_Xc_vis(this, p) result(elemConn) +

    private pure function cmp_elem_Xc_vis(this, p) result(elemConn)

    @@ -1422,7 +1422,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -1437,7 +1437,7 @@

    Arguments

    - + integer, intent(in), @@ -1463,7 +1463,7 @@

    -

    private pure function cmp_elem_Xg_vis(this, p) result(elemConn) +

    private pure function cmp_elem_Xg_vis(this, p) result(elemConn)

    @@ -1486,7 +1486,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -1501,7 +1501,7 @@

    Arguments

    - + integer, intent(in), @@ -1527,7 +1527,7 @@

    -

    private pure function get_Wc_all(this) result(Wc) +

    private pure function get_Wc_all(this) result(Wc)

    @@ -1550,7 +1550,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -1576,7 +1576,7 @@

    -

    private pure function get_Wci(this, n) result(Wc) +

    private pure function get_Wci(this, n) result(Wc)

    @@ -1599,7 +1599,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -1614,7 +1614,7 @@

    Arguments

    - + integer, intent(in) @@ -1640,7 +1640,7 @@

    -

    private pure function get_Xc_all(this) result(Xc) +

    private pure function get_Xc_all(this) result(Xc)

    @@ -1663,7 +1663,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -1689,7 +1689,7 @@

    -

    private pure function get_Xci(this, n) result(Xc) +

    private pure function get_Xci(this, n) result(Xc)

    @@ -1712,7 +1712,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -1727,7 +1727,7 @@

    Arguments

    - + integer, intent(in) @@ -1753,7 +1753,7 @@

    -

    private pure function get_Xcid(this, n, dir) result(Xc) +

    private pure function get_Xcid(this, n, dir) result(Xc)

    @@ -1776,7 +1776,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -1791,7 +1791,7 @@

    Arguments

    - + integer, intent(in) @@ -1806,7 +1806,7 @@

    Arguments

    - + integer, intent(in) @@ -1832,7 +1832,7 @@

    -

    private pure function get_Xg_all(this) result(Xg) +

    private pure function get_Xg_all(this) result(Xg)

    @@ -1855,7 +1855,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -1881,7 +1881,7 @@

    -

    private pure function get_Xgi(this, n) result(Xg) +

    private pure function get_Xgi(this, n) result(Xg)

    @@ -1904,7 +1904,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -1919,7 +1919,7 @@

    Arguments

    - + integer, intent(in) @@ -1945,7 +1945,7 @@

    -

    private pure function get_Xgid(this, n, dir) result(Xg) +

    private pure function get_Xgid(this, n, dir) result(Xg)

    @@ -1968,7 +1968,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -1983,7 +1983,7 @@

    Arguments

    - + integer, intent(in) @@ -1998,7 +1998,7 @@

    Arguments

    - + integer, intent(in) @@ -2024,7 +2024,7 @@

    -

    private pure function get_Xt(this) result(Xt) +

    private pure function get_Xt(this) result(Xt)

    @@ -2047,7 +2047,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -2073,7 +2073,7 @@

    -

    private pure function get_continuity(this) result(c) +

    private pure function get_continuity(this) result(c)

    @@ -2096,7 +2096,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -2145,7 +2145,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -2171,7 +2171,7 @@

    -

    private pure function get_elem(this) result(elemConn) +

    private pure function get_elem(this) result(elemConn)

    @@ -2194,7 +2194,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -2220,7 +2220,7 @@

    -

    private pure function get_elem_Xc_vis(this) result(elemConn) +

    private pure function get_elem_Xc_vis(this) result(elemConn)

    @@ -2243,7 +2243,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -2269,7 +2269,7 @@

    -

    private pure function get_elem_Xg_vis(this) result(elemConn) +

    private pure function get_elem_Xg_vis(this) result(elemConn)

    @@ -2292,7 +2292,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -2318,7 +2318,7 @@

    -

    private pure function get_knot_all(this) result(knot) +

    private pure function get_knot_all(this) result(knot)

    @@ -2341,7 +2341,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -2367,7 +2367,7 @@

    -

    private pure function get_knoti(this, i) result(knot) +

    private pure function get_knoti(this, i) result(knot)

    @@ -2390,7 +2390,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -2405,7 +2405,7 @@

    Arguments

    - + integer, intent(in) @@ -2431,7 +2431,7 @@

    -

    private pure function get_multiplicity(this) result(m) +

    private pure function get_multiplicity(this) result(m)

    @@ -2454,7 +2454,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -2480,7 +2480,7 @@

    -

    private pure function get_nc(this) result(nc) +

    private pure function get_nc(this) result(nc)

    @@ -2503,7 +2503,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -2529,7 +2529,7 @@

    -

    private pure function get_ng(this) result(ng) +

    private pure function get_ng(this) result(ng)

    @@ -2552,7 +2552,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -2578,7 +2578,7 @@

    -

    private pure function is_rational(this) result(r) +

    private pure function is_rational(this) result(r)

    @@ -2601,7 +2601,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -2632,7 +2632,7 @@

    Subroutines

    -

    private pure subroutine basis(this, res, Xt, Tgc) +

    private pure subroutine basis(this, res, Xt, Tgc)

    @@ -2655,7 +2655,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -2685,7 +2685,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -2700,7 +2700,7 @@

    Arguments

    - + real(kind=rk), intent(out), @@ -2721,7 +2721,7 @@

    Arguments

    -

    private pure subroutine cmp_degree(this) +

    private pure subroutine cmp_degree(this)

    @@ -2744,7 +2744,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -2765,7 +2765,7 @@

    Arguments

    -

    private pure subroutine cmp_nc(this) +

    private pure subroutine cmp_nc(this)

    @@ -2788,7 +2788,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -2809,7 +2809,7 @@

    Arguments

    -

    private pure subroutine create(this, res, Xt) +

    private pure subroutine create(this, res, Xt)

    @@ -2832,7 +2832,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -2862,7 +2862,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -2883,7 +2883,7 @@

    Arguments

    -

    private pure subroutine derivative(this, res, Xt, dTgc) +

    private pure subroutine derivative(this, res, Xt, dTgc)

    @@ -2906,7 +2906,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -2936,7 +2936,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -2951,7 +2951,7 @@

    Arguments

    - + real(kind=rk), intent(out), @@ -2972,7 +2972,7 @@

    Arguments

    -

    private pure subroutine elevate_degree(this, t) +

    private pure subroutine elevate_degree(this, t)

    @@ -2995,7 +2995,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -3010,7 +3010,7 @@

    Arguments

    - + integer, intent(in) @@ -3031,7 +3031,7 @@

    Arguments

    -

    private impure subroutine export_Xc(this, filename) +

    private impure subroutine export_Xc(this, filename)

    @@ -3054,7 +3054,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -3069,7 +3069,7 @@

    Arguments

    - + character(len=*), intent(in) @@ -3090,7 +3090,7 @@

    Arguments

    -

    private impure subroutine export_Xg(this, filename) +

    private impure subroutine export_Xg(this, filename)

    @@ -3113,7 +3113,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -3128,7 +3128,7 @@

    Arguments

    - + character(len=*), intent(in) @@ -3149,7 +3149,7 @@

    Arguments

    -

    private pure subroutine finalize(this) +

    private pure subroutine finalize(this)

    @@ -3172,7 +3172,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -3193,7 +3193,7 @@

    Arguments

    -

    private pure subroutine insert_knots(this, Xth, r) +

    private pure subroutine insert_knots(this, Xth, r)

    @@ -3216,7 +3216,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -3231,7 +3231,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -3246,7 +3246,7 @@

    Arguments

    - + integer, intent(in), @@ -3267,7 +3267,7 @@

    Arguments

    -

    private pure subroutine modify_Wc(this, W, num) +

    private pure subroutine modify_Wc(this, W, num)

    @@ -3290,7 +3290,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -3305,7 +3305,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -3320,7 +3320,7 @@

    Arguments

    - + integer, intent(in) @@ -3341,7 +3341,7 @@

    Arguments

    -

    private pure subroutine modify_Xc(this, X, num, dir) +

    private pure subroutine modify_Xc(this, X, num, dir)

    @@ -3364,7 +3364,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -3379,7 +3379,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -3394,7 +3394,7 @@

    Arguments

    - + integer, intent(in) @@ -3409,7 +3409,7 @@

    Arguments

    - + integer, intent(in) @@ -3430,7 +3430,7 @@

    Arguments

    -

    private pure subroutine nearest_point(this, point_Xg, nearest_Xg, nearest_Xt, id) +

    private pure subroutine nearest_point(this, point_Xg, nearest_Xg, nearest_Xt, id)

    @@ -3453,7 +3453,7 @@

    Arguments

    - + class(nurbs_curve), intent(in) @@ -3468,7 +3468,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -3483,7 +3483,7 @@

    Arguments

    - + real(kind=rk), intent(out), @@ -3498,7 +3498,7 @@

    Arguments

    - + real(kind=rk), intent(out), @@ -3513,7 +3513,7 @@

    Arguments

    - + integer, intent(out), @@ -3534,7 +3534,7 @@

    Arguments

    -

    private pure subroutine remove_knots(this, Xth, r) +

    private pure subroutine remove_knots(this, Xth, r)

    @@ -3557,7 +3557,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -3572,7 +3572,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -3587,7 +3587,7 @@

    Arguments

    - + integer, intent(in), @@ -3608,7 +3608,7 @@

    Arguments

    -

    private pure subroutine rotate_Xc(this, alpha, beta, theta) +

    private pure subroutine rotate_Xc(this, alpha, beta, theta)

    @@ -3631,7 +3631,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -3646,7 +3646,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -3661,7 +3661,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -3676,7 +3676,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -3697,7 +3697,7 @@

    Arguments

    -

    private pure subroutine rotate_Xg(this, alpha, beta, theta) +

    private pure subroutine rotate_Xg(this, alpha, beta, theta)

    @@ -3720,7 +3720,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -3735,7 +3735,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -3750,7 +3750,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -3765,7 +3765,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -3786,7 +3786,7 @@

    Arguments

    -

    private pure subroutine set1(this, knot, Xc, Wc) +

    private pure subroutine set1(this, knot, Xc, Wc)

    @@ -3809,7 +3809,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -3824,7 +3824,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -3839,7 +3839,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -3854,7 +3854,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -3875,7 +3875,7 @@

    Arguments

    -

    private pure subroutine set2(this, Xth_dir, degree, continuity, Xc, Wc) +

    private pure subroutine set2(this, Xth_dir, degree, continuity, Xc, Wc)

    @@ -3898,7 +3898,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -3928,7 +3928,7 @@

    Arguments

    - + integer, intent(in) @@ -3958,7 +3958,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -3973,7 +3973,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -3994,7 +3994,7 @@

    Arguments

    -

    private pure subroutine set3(this, Xc, Wc) +

    private pure subroutine set3(this, Xc, Wc)

    @@ -4017,7 +4017,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -4032,7 +4032,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -4047,7 +4047,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -4068,7 +4068,7 @@

    Arguments

    -

    private pure subroutine set_C(this, center, radius) +

    private pure subroutine set_C(this, center, radius)

    @@ -4091,7 +4091,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -4106,7 +4106,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -4165,7 +4165,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -4180,7 +4180,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -4216,7 +4216,7 @@

    Arguments

    -

    private pure subroutine set_elem(this, elemConn) +

    private pure subroutine set_elem(this, elemConn)

    @@ -4239,7 +4239,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -4254,7 +4254,7 @@

    Arguments

    - + integer, intent(in), @@ -4275,7 +4275,7 @@

    Arguments

    -

    private pure subroutine set_elem_Xc_vis(this, elemConn) +

    private pure subroutine set_elem_Xc_vis(this, elemConn)

    @@ -4298,7 +4298,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -4313,7 +4313,7 @@

    Arguments

    - + integer, intent(in), @@ -4334,7 +4334,7 @@

    Arguments

    -

    private pure subroutine set_elem_Xg_vis(this, elemConn) +

    private pure subroutine set_elem_Xg_vis(this, elemConn)

    @@ -4357,7 +4357,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -4372,7 +4372,7 @@

    Arguments

    - + integer, intent(in), @@ -4416,7 +4416,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -4431,7 +4431,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -4467,7 +4467,7 @@

    Arguments

    -

    private impure subroutine show(this, vtkfile_Xc, vtkfile_Xg) +

    private impure subroutine show(this, vtkfile_Xc, vtkfile_Xg)

    @@ -4490,7 +4490,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -4505,7 +4505,7 @@

    Arguments

    - + character(len=*), intent(in) @@ -4520,7 +4520,7 @@

    Arguments

    - + character(len=*), intent(in) @@ -4541,7 +4541,7 @@

    Arguments

    -

    private pure subroutine translate_Xc(this, vec) +

    private pure subroutine translate_Xc(this, vec)

    @@ -4564,7 +4564,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -4579,7 +4579,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -4600,7 +4600,7 @@

    Arguments

    -

    private pure subroutine translate_Xg(this, vec) +

    private pure subroutine translate_Xg(this, vec)

    @@ -4623,7 +4623,7 @@

    Arguments

    - + class(nurbs_curve), intent(inout) @@ -4638,7 +4638,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -4681,7 +4681,7 @@

    Arguments

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/module/forcad_nurbs_surface.html b/module/forcad_nurbs_surface.html index 5a56ad4d3..6eb42924f 100644 --- a/module/forcad_nurbs_surface.html +++ b/module/forcad_nurbs_surface.html @@ -138,30 +138,30 @@

    Functions

    @@ -173,35 +173,35 @@

    Subroutines

    @@ -867,7 +867,7 @@

    Components

    - + real(kind=rk), private, @@ -884,7 +884,7 @@

    Components

    - + real(kind=rk), private, @@ -901,7 +901,7 @@

    Components

    - + real(kind=rk), private, @@ -918,7 +918,7 @@

    Components

    - + real(kind=rk), private, @@ -969,7 +969,7 @@

    Components

    - + integer, private @@ -986,7 +986,7 @@

    Components

    - + integer, private, @@ -1003,7 +1003,7 @@

    Components

    - + integer, private, @@ -1020,7 +1020,7 @@

    Components

    - + integer, private, @@ -1071,7 +1071,7 @@

    Components

    - + integer, private @@ -1088,7 +1088,7 @@

    Components

    - + integer, private @@ -1114,208 +1114,208 @@

    Type-Bound Procedures

    procedure, public :: - basis -

    Compute the basis functions of the NURBS surface

    Read more… + basis +

    Compute the basis functions of the NURBS surface

    Read more… procedure, public :: - cmp_degree -

    Compute degree of the NURBS surface

    Read more… + cmp_degree +

    Compute degree of the NURBS surface

    Read more… procedure, public :: - cmp_elem -

    Generate IGA element connectivity

    Read more… + cmp_elem +

    Generate IGA element connectivity

    Read more… procedure, public :: - cmp_elem_Xc_vis -

    Generate connectivity for control points

    Read more… + cmp_elem_Xc_vis +

    Generate connectivity for control points

    Read more… procedure, public :: - cmp_elem_Xg_vis -

    Generate connectivity for geometry points

    Read more… + cmp_elem_Xg_vis +

    Generate connectivity for geometry points

    Read more… procedure, public :: - cmp_nc -

    Compute number of required control points

    Read more… + cmp_nc +

    Compute number of required control points

    Read more… procedure, public :: - create -

    Generate geometry points

    Read more… + create +

    Generate geometry points

    Read more… procedure, public :: - derivative -

    Compute the derivative of the NURBS surface

    Read more… + derivative +

    Compute the derivative of the NURBS surface

    Read more… procedure, public :: - elevate_degree -

    Elevate degree

    Read more… + elevate_degree +

    Elevate degree

    Read more… procedure, public :: - export_Xc -

    Export control points to VTK file

    Read more… + export_Xc +

    Export control points to VTK file

    Read more… procedure, public :: - export_Xg -

    Export geometry points to VTK file

    Read more… + export_Xg +

    Export geometry points to VTK file

    Read more… procedure, public :: - finalize -

    Finalize the NURBS surface object

    Read more… + finalize +

    Finalize the NURBS surface object

    Read more… generic, public :: - get_Wc => get_Wc_all, get_Wci -

    Get weights

    Read more… + get_Wc => get_Wc_all, get_Wci +

    Get weights

    Read more… generic, public :: - get_Xc => get_Xc_all, get_Xci, get_Xcid -

    Get control points

    Read more… + get_Xc => get_Xc_all, get_Xci, get_Xcid +

    Get control points

    Read more… generic, public :: - get_Xg => get_Xg_all, get_Xgi, get_Xgid -

    Get geometry points

    Read more… + get_Xg => get_Xg_all, get_Xgi, get_Xgid +

    Get geometry points

    Read more… procedure, public :: - get_Xt -

    Get parameter values

    Read more… + get_Xt +

    Get parameter values

    Read more… procedure, public :: - get_continuity -

    Compute and return the continuity of the NURBS surface

    Read more… + get_continuity +

    Compute and return the continuity of the NURBS surface

    Read more… generic, public :: - get_degree => get_degree_all, get_degree_dir -

    Get degree of the NURBS surface

    Read more… + get_degree => get_degree_all, get_degree_dir +

    Get degree of the NURBS surface

    Read more… procedure, public :: - get_elem -

    Get IGA element connectivity

    Read more… + get_elem +

    Get IGA element connectivity

    Read more… procedure, public :: - get_elem_Xc_vis -

    Get connectivity for control points

    Read more… + get_elem_Xc_vis +

    Get connectivity for control points

    Read more… procedure, public :: - get_elem_Xg_vis -

    Get connectivity for geometry points

    Read more… + get_elem_Xg_vis +

    Get connectivity for geometry points

    Read more… generic, public :: - get_knot => get_knoti, get_knot_all -

    Get knot vector

    Read more… + get_knot => get_knoti, get_knot_all +

    Get knot vector

    Read more… procedure, public :: - get_multiplicity -

    Compute and return the multiplicity of the knot vector

    Read more… + get_multiplicity +

    Compute and return the multiplicity of the knot vector

    Read more… procedure, public :: - get_nc -

    Get number of control points

    Read more… + get_nc +

    Get number of control points

    Read more… procedure, public :: - get_ng -

    Get number of geometry points

    Read more… + get_ng +

    Get number of geometry points

    Read more… procedure, public :: - insert_knots -

    Insert knots into the knot vector

    Read more… + insert_knots +

    Insert knots into the knot vector

    Read more… procedure, public :: - is_rational -

    Check if the NURBS surface is rational

    Read more… + is_rational +

    Check if the NURBS surface is rational

    Read more… procedure, public :: - modify_Wc -

    Modify weights

    Read more… + modify_Wc +

    Modify weights

    Read more… procedure, public :: - modify_Xc -

    Modify control points

    Read more… + modify_Xc +

    Modify control points

    Read more… procedure, public :: - nearest_point -

    Find the nearest point on the NURBS surface

    Read more… + nearest_point +

    Find the nearest point on the NURBS surface

    Read more… procedure, public :: - remove_knots -

    Remove knots from the knot vector

    Read more… + remove_knots +

    Remove knots from the knot vector

    Read more… procedure, public :: - rotate_Xc -

    Rotate control points

    Read more… + rotate_Xc +

    Rotate control points

    Read more… procedure, public :: - rotate_Xg -

    Rotate geometry points

    Read more… + rotate_Xg +

    Rotate geometry points

    Read more… generic, public :: - set => set1, set2, set3 -

    Set NURBS surface

    Read more… + set => set1, set2, set3 +

    Set NURBS surface

    Read more… procedure, public :: - set1 -

    Set knot vectors, control points and weights for the NURBS surface object

    Read more… + set1 +

    Set knot vectors, control points and weights for the NURBS surface object

    Read more… procedure, public :: - set2 -

    Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights

    Read more… + set2 +

    Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights

    Read more… procedure, public :: - set3 -

    Set Bezier or Rational Bezier surface using control points and weights

    Read more… + set3 +

    Set Bezier or Rational Bezier surface using control points and weights

    Read more… procedure, public :: - set_C -

    Set a C-shape

    Read more… + set_C +

    Set a C-shape

    Read more… procedure, public :: - set_elem -

    Set IGA element connectivity

    Read more… + set_elem +

    Set IGA element connectivity

    Read more… procedure, public :: - set_elem_Xc_vis -

    Set connectivity for control points

    Read more… + set_elem_Xc_vis +

    Set connectivity for control points

    Read more… procedure, public :: - set_elem_Xg_vis -

    Set connectivity for geometry points

    Read more… + set_elem_Xg_vis +

    Set connectivity for geometry points

    Read more… procedure, public :: @@ -1334,58 +1334,58 @@

    Type-Bound Procedures

    procedure, public :: - show -

    Show the NURBS object using PyVista

    Read more… + show +

    Show the NURBS object using PyVista

    Read more… procedure, public :: - translate_Xc -

    Translate control points

    Read more… + translate_Xc +

    Translate control points

    Read more… procedure, public :: - translate_Xg -

    Translate geometry points

    Read more… + translate_Xg +

    Translate geometry points

    Read more… procedure, private :: - get_Wc_all -

    Get all weights

    Read more… + get_Wc_all +

    Get all weights

    Read more… procedure, private :: - get_Wci -

    Get i-th weight

    Read more… + get_Wci +

    Get i-th weight

    Read more… procedure, private :: - get_Xc_all -

    Get all control points

    Read more… + get_Xc_all +

    Get all control points

    Read more… procedure, private :: - get_Xci -

    Get i-th control point

    Read more… + get_Xci +

    Get i-th control point

    Read more… procedure, private :: - get_Xcid -

    Get i-th control point in a specific direction

    Read more… + get_Xcid +

    Get i-th control point in a specific direction

    Read more… procedure, private :: - get_Xg_all -

    Get all geometry points

    Read more… + get_Xg_all +

    Get all geometry points

    Read more… procedure, private :: - get_Xgi -

    Get i-th geometry point

    Read more… + get_Xgi +

    Get i-th geometry point

    Read more… procedure, private :: - get_Xgid -

    Get i-th geometry point in a specific direction

    Read more… + get_Xgid +

    Get i-th geometry point in a specific direction

    Read more… procedure, private :: @@ -1399,13 +1399,13 @@

    Type-Bound Procedures

    procedure, private :: - get_knot_all -

    Get all knot vectors

    Read more… + get_knot_all +

    Get all knot vectors

    Read more… procedure, private :: - get_knoti -

    Get i-th knot value

    Read more… + get_knoti +

    Get i-th knot value

    Read more… @@ -1418,7 +1418,7 @@

    Type-Bound Procedures

    Functions

    -

    private pure function cmp_elem(this) result(elemConn) +

    private pure function cmp_elem(this) result(elemConn)

    @@ -1441,7 +1441,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -1467,7 +1467,7 @@

    -

    private pure function cmp_elem_Xc_vis(this, p) result(elemConn) +

    private pure function cmp_elem_Xc_vis(this, p) result(elemConn)

    @@ -1490,7 +1490,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -1505,7 +1505,7 @@

    Arguments

    - + integer, intent(in), @@ -1531,7 +1531,7 @@

    -

    private pure function cmp_elem_Xg_vis(this, p) result(elemConn) +

    private pure function cmp_elem_Xg_vis(this, p) result(elemConn)

    @@ -1554,7 +1554,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -1569,7 +1569,7 @@

    Arguments

    - + integer, intent(in), @@ -1595,7 +1595,7 @@

    -

    private pure function get_Wc_all(this) result(Wc) +

    private pure function get_Wc_all(this) result(Wc)

    @@ -1618,7 +1618,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -1644,7 +1644,7 @@

    -

    private pure function get_Wci(this, n) result(Wc) +

    private pure function get_Wci(this, n) result(Wc)

    @@ -1667,7 +1667,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -1682,7 +1682,7 @@

    Arguments

    - + integer, intent(in) @@ -1708,7 +1708,7 @@

    -

    private pure function get_Xc_all(this) result(Xc) +

    private pure function get_Xc_all(this) result(Xc)

    @@ -1731,7 +1731,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -1757,7 +1757,7 @@

    -

    private pure function get_Xci(this, n) result(Xc) +

    private pure function get_Xci(this, n) result(Xc)

    @@ -1780,7 +1780,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -1795,7 +1795,7 @@

    Arguments

    - + integer, intent(in) @@ -1821,7 +1821,7 @@

    -

    private pure function get_Xcid(this, n, dir) result(Xc) +

    private pure function get_Xcid(this, n, dir) result(Xc)

    @@ -1844,7 +1844,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -1859,7 +1859,7 @@

    Arguments

    - + integer, intent(in) @@ -1874,7 +1874,7 @@

    Arguments

    - + integer, intent(in) @@ -1900,7 +1900,7 @@

    -

    private pure function get_Xg_all(this) result(Xg) +

    private pure function get_Xg_all(this) result(Xg)

    @@ -1923,7 +1923,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -1949,7 +1949,7 @@

    -

    private pure function get_Xgi(this, n) result(Xg) +

    private pure function get_Xgi(this, n) result(Xg)

    @@ -1972,7 +1972,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -1987,7 +1987,7 @@

    Arguments

    - + integer, intent(in) @@ -2013,7 +2013,7 @@

    -

    private pure function get_Xgid(this, n, dir) result(Xg) +

    private pure function get_Xgid(this, n, dir) result(Xg)

    @@ -2036,7 +2036,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -2051,7 +2051,7 @@

    Arguments

    - + integer, intent(in) @@ -2066,7 +2066,7 @@

    Arguments

    - + integer, intent(in) @@ -2092,7 +2092,7 @@

    -

    private pure function get_Xt(this, dir) result(Xt) +

    private pure function get_Xt(this, dir) result(Xt)

    @@ -2115,7 +2115,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -2130,7 +2130,7 @@

    Arguments

    - + integer, intent(in) @@ -2156,7 +2156,7 @@

    -

    private pure function get_continuity(this, dir) result(c) +

    private pure function get_continuity(this, dir) result(c)

    @@ -2179,7 +2179,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -2194,7 +2194,7 @@

    Arguments

    - + integer, intent(in) @@ -2243,7 +2243,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -2292,7 +2292,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -2307,7 +2307,7 @@

    Arguments

    - + integer, intent(in) @@ -2333,7 +2333,7 @@

    -

    private pure function get_elem(this) result(elemConn) +

    private pure function get_elem(this) result(elemConn)

    @@ -2356,7 +2356,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -2382,7 +2382,7 @@

    -

    private pure function get_elem_Xc_vis(this) result(elemConn) +

    private pure function get_elem_Xc_vis(this) result(elemConn)

    @@ -2405,7 +2405,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -2431,7 +2431,7 @@

    -

    private pure function get_elem_Xg_vis(this) result(elemConn) +

    private pure function get_elem_Xg_vis(this) result(elemConn)

    @@ -2454,7 +2454,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -2480,7 +2480,7 @@

    -

    private pure function get_knot_all(this, dir) result(knot) +

    private pure function get_knot_all(this, dir) result(knot)

    @@ -2503,7 +2503,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -2518,7 +2518,7 @@

    Arguments

    - + integer, intent(in) @@ -2544,7 +2544,7 @@

    -

    private pure function get_knoti(this, dir, i) result(knot) +

    private pure function get_knoti(this, dir, i) result(knot)

    @@ -2567,7 +2567,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -2582,7 +2582,7 @@

    Arguments

    - + integer, intent(in) @@ -2597,7 +2597,7 @@

    Arguments

    - + integer, intent(in) @@ -2623,7 +2623,7 @@

    -

    private pure function get_multiplicity(this, dir) result(m) +

    private pure function get_multiplicity(this, dir) result(m)

    @@ -2646,7 +2646,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -2661,7 +2661,7 @@

    Arguments

    - + integer, intent(in) @@ -2687,7 +2687,7 @@

    -

    private pure function get_nc(this, dir) result(nc) +

    private pure function get_nc(this, dir) result(nc)

    @@ -2710,7 +2710,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -2725,7 +2725,7 @@

    Arguments

    - + integer, intent(in) @@ -2751,7 +2751,7 @@

    -

    private pure function get_ng(this) result(ng) +

    private pure function get_ng(this) result(ng)

    @@ -2774,7 +2774,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -2800,7 +2800,7 @@

    -

    private pure function is_rational(this) result(r) +

    private pure function is_rational(this) result(r)

    @@ -2823,7 +2823,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -2854,7 +2854,7 @@

    Subroutines

    -

    private pure subroutine basis(this, res1, res2, Xt1, Xt2, Tgc) +

    private pure subroutine basis(this, res1, res2, Xt1, Xt2, Tgc)

    @@ -2877,7 +2877,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -2892,7 +2892,7 @@

    Arguments

    - + integer, intent(in), @@ -2907,7 +2907,7 @@

    Arguments

    - + integer, intent(in), @@ -2952,7 +2952,7 @@

    Arguments

    - + real(kind=rk), intent(out), @@ -2973,7 +2973,7 @@

    Arguments

    -

    private pure subroutine cmp_degree(this, dir) +

    private pure subroutine cmp_degree(this, dir)

    @@ -2996,7 +2996,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -3011,7 +3011,7 @@

    Arguments

    - + integer, intent(in), @@ -3032,7 +3032,7 @@

    Arguments

    -

    private pure subroutine cmp_nc(this, dir) +

    private pure subroutine cmp_nc(this, dir)

    @@ -3055,7 +3055,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -3070,7 +3070,7 @@

    Arguments

    - + integer, intent(in), @@ -3091,7 +3091,7 @@

    Arguments

    -

    private pure subroutine create(this, res1, res2, Xt1, Xt2, Xt) +

    private pure subroutine create(this, res1, res2, Xt1, Xt2, Xt)

    @@ -3114,7 +3114,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -3129,7 +3129,7 @@

    Arguments

    - + integer, intent(in), @@ -3144,7 +3144,7 @@

    Arguments

    - + integer, intent(in), @@ -3189,7 +3189,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -3210,7 +3210,7 @@

    Arguments

    -

    private pure subroutine derivative(this, res1, res2, Xt1, Xt2, dTgc) +

    private pure subroutine derivative(this, res1, res2, Xt1, Xt2, dTgc)

    @@ -3233,7 +3233,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -3248,7 +3248,7 @@

    Arguments

    - + integer, intent(in), @@ -3263,7 +3263,7 @@

    Arguments

    - + integer, intent(in), @@ -3308,7 +3308,7 @@

    Arguments

    - + real(kind=rk), intent(out), @@ -3329,7 +3329,7 @@

    Arguments

    -

    private pure subroutine elevate_degree(this, dir, t) +

    private pure subroutine elevate_degree(this, dir, t)

    @@ -3352,7 +3352,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -3367,7 +3367,7 @@

    Arguments

    - + integer, intent(in) @@ -3382,7 +3382,7 @@

    Arguments

    - + integer, intent(in) @@ -3403,7 +3403,7 @@

    Arguments

    -

    private impure subroutine export_Xc(this, filename) +

    private impure subroutine export_Xc(this, filename)

    @@ -3426,7 +3426,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -3441,7 +3441,7 @@

    Arguments

    - + character(len=*), intent(in) @@ -3462,7 +3462,7 @@

    Arguments

    -

    private impure subroutine export_Xg(this, filename) +

    private impure subroutine export_Xg(this, filename)

    @@ -3485,7 +3485,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -3500,7 +3500,7 @@

    Arguments

    - + character(len=*), intent(in) @@ -3521,7 +3521,7 @@

    Arguments

    -

    private pure subroutine finalize(this) +

    private pure subroutine finalize(this)

    @@ -3544,7 +3544,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -3565,7 +3565,7 @@

    Arguments

    -

    private pure subroutine insert_knots(this, dir, Xth, r) +

    private pure subroutine insert_knots(this, dir, Xth, r)

    @@ -3588,7 +3588,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -3603,7 +3603,7 @@

    Arguments

    - + integer, intent(in) @@ -3618,7 +3618,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -3633,7 +3633,7 @@

    Arguments

    - + integer, intent(in), @@ -3654,7 +3654,7 @@

    Arguments

    -

    private pure subroutine modify_Wc(this, W, num) +

    private pure subroutine modify_Wc(this, W, num)

    @@ -3677,7 +3677,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -3692,7 +3692,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -3707,7 +3707,7 @@

    Arguments

    - + integer, intent(in) @@ -3728,7 +3728,7 @@

    Arguments

    -

    private pure subroutine modify_Xc(this, X, num, dir) +

    private pure subroutine modify_Xc(this, X, num, dir)

    @@ -3751,7 +3751,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -3766,7 +3766,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -3781,7 +3781,7 @@

    Arguments

    - + integer, intent(in) @@ -3796,7 +3796,7 @@

    Arguments

    - + integer, intent(in) @@ -3817,7 +3817,7 @@

    Arguments

    -

    private pure subroutine nearest_point(this, point_Xg, nearest_Xg, nearest_Xt, id) +

    private pure subroutine nearest_point(this, point_Xg, nearest_Xg, nearest_Xt, id)

    @@ -3840,7 +3840,7 @@

    Arguments

    - + class(nurbs_surface), intent(in) @@ -3855,7 +3855,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -3870,7 +3870,7 @@

    Arguments

    - + real(kind=rk), intent(out), @@ -3885,7 +3885,7 @@

    Arguments

    - + real(kind=rk), intent(out), @@ -3900,7 +3900,7 @@

    Arguments

    - + integer, intent(out), @@ -3921,7 +3921,7 @@

    Arguments

    -

    private pure subroutine remove_knots(this, dir, Xth, r) +

    private pure subroutine remove_knots(this, dir, Xth, r)

    @@ -3944,7 +3944,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -3959,7 +3959,7 @@

    Arguments

    - + integer, intent(in) @@ -3974,7 +3974,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -3989,7 +3989,7 @@

    Arguments

    - + integer, intent(in), @@ -4010,7 +4010,7 @@

    Arguments

    -

    private pure subroutine rotate_Xc(this, alpha, beta, theta) +

    private pure subroutine rotate_Xc(this, alpha, beta, theta)

    @@ -4033,7 +4033,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -4048,7 +4048,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -4063,7 +4063,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -4078,7 +4078,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -4099,7 +4099,7 @@

    Arguments

    -

    private pure subroutine rotate_Xg(this, alpha, beta, theta) +

    private pure subroutine rotate_Xg(this, alpha, beta, theta)

    @@ -4122,7 +4122,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -4137,7 +4137,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -4152,7 +4152,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -4167,7 +4167,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -4188,7 +4188,7 @@

    Arguments

    -

    private pure subroutine set1(this, knot1, knot2, Xc, Wc) +

    private pure subroutine set1(this, knot1, knot2, Xc, Wc)

    @@ -4211,7 +4211,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -4256,7 +4256,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -4271,7 +4271,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -4292,7 +4292,7 @@

    Arguments

    -

    private pure subroutine set2(this, Xth_dir1, Xth_dir2, degree, continuity1, continuity2, Xc, Wc) +

    private pure subroutine set2(this, Xth_dir1, Xth_dir2, degree, continuity1, continuity2, Xc, Wc)

    @@ -4315,7 +4315,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -4360,7 +4360,7 @@

    Arguments

    - + integer, intent(in), @@ -4405,7 +4405,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -4420,7 +4420,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -4441,7 +4441,7 @@

    Arguments

    -

    private pure subroutine set3(this, nc, Xc, Wc) +

    private pure subroutine set3(this, nc, Xc, Wc)

    @@ -4464,7 +4464,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -4479,7 +4479,7 @@

    Arguments

    - + integer, intent(in), @@ -4494,7 +4494,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -4509,7 +4509,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -4530,7 +4530,7 @@

    Arguments

    -

    private pure subroutine set_C(this, center, radius1, radius2) +

    private pure subroutine set_C(this, center, radius1, radius2)

    @@ -4553,7 +4553,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -4568,7 +4568,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -4619,7 +4619,7 @@

    Arguments

    -

    private pure subroutine set_elem(this, elemConn) +

    private pure subroutine set_elem(this, elemConn)

    @@ -4642,7 +4642,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -4657,7 +4657,7 @@

    Arguments

    - + integer, intent(in), @@ -4678,7 +4678,7 @@

    Arguments

    -

    private pure subroutine set_elem_Xc_vis(this, elemConn) +

    private pure subroutine set_elem_Xc_vis(this, elemConn)

    @@ -4701,7 +4701,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -4716,7 +4716,7 @@

    Arguments

    - + integer, intent(in), @@ -4737,7 +4737,7 @@

    Arguments

    -

    private pure subroutine set_elem_Xg_vis(this, elemConn) +

    private pure subroutine set_elem_Xg_vis(this, elemConn)

    @@ -4760,7 +4760,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -4775,7 +4775,7 @@

    Arguments

    - + integer, intent(in), @@ -4819,7 +4819,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -4834,7 +4834,7 @@

    Arguments

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    Arguments

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    Arguments

    - + real(kind=rk), intent(in), @@ -4997,7 +4997,7 @@

    Arguments

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    Arguments

    - + real(kind=rk), intent(in) @@ -5027,7 +5027,7 @@

    Arguments

    - + integer, intent(in) @@ -5042,7 +5042,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -5063,7 +5063,7 @@

    Arguments

    -

    private impure subroutine show(this, vtkfile_Xc, vtkfile_Xg) +

    private impure subroutine show(this, vtkfile_Xc, vtkfile_Xg)

    @@ -5086,7 +5086,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -5101,7 +5101,7 @@

    Arguments

    - + character(len=*), intent(in) @@ -5116,7 +5116,7 @@

    Arguments

    - + character(len=*), intent(in) @@ -5137,7 +5137,7 @@

    Arguments

    -

    private pure subroutine translate_Xc(this, vec) +

    private pure subroutine translate_Xc(this, vec)

    @@ -5160,7 +5160,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -5175,7 +5175,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -5196,7 +5196,7 @@

    Arguments

    -

    private pure subroutine translate_Xg(this, vec) +

    private pure subroutine translate_Xg(this, vec)

    @@ -5219,7 +5219,7 @@

    Arguments

    - + class(nurbs_surface), intent(inout) @@ -5234,7 +5234,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -5277,7 +5277,7 @@

    Arguments

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/module/forcad_nurbs_volume.html b/module/forcad_nurbs_volume.html index 28fdf4e36..90df9e7dc 100644 --- a/module/forcad_nurbs_volume.html +++ b/module/forcad_nurbs_volume.html @@ -868,7 +868,7 @@

    Components

    - + real(kind=rk), private, @@ -885,7 +885,7 @@

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    - + real(kind=rk), private, @@ -902,7 +902,7 @@

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    - + real(kind=rk), private, @@ -919,7 +919,7 @@

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

    - + real(kind=rk), intent(in) @@ -5566,7 +5566,7 @@

    Arguments

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/module/forcad_utils.html b/module/forcad_utils.html index b573af213..d0f8590b7 100644 --- a/module/forcad_utils.html +++ b/module/forcad_utils.html @@ -1161,7 +1161,7 @@

    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

    - + integer, intent(in) @@ -2692,7 +2692,7 @@

    Arguments

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    Arguments

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    Arguments

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    Arguments

    - + real(kind=rk), intent(in) @@ -2786,7 +2786,7 @@

    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

    - + real(kind=rk), intent(in) @@ -2993,7 +2993,7 @@

    Arguments

    - + integer, intent(in) @@ -3042,7 +3042,7 @@

    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

    - + integer, intent(in), @@ -3761,7 +3761,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -3815,7 +3815,7 @@

    Arguments

    - + integer, intent(in) @@ -3830,7 +3830,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -3845,7 +3845,7 @@

    Arguments

    - + integer, intent(in) @@ -3860,7 +3860,7 @@

    Arguments

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    Arguments

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    Arguments

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    Arguments

    - + real(kind=rk), intent(out), @@ -3949,7 +3949,7 @@

    Arguments

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    Arguments

    - + integer, intent(in) @@ -4024,7 +4024,7 @@

    Arguments

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    Arguments

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    Arguments

    - + integer, intent(in) @@ -4143,7 +4143,7 @@

    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

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    Arguments

    - + real(kind=rk), intent(out), @@ -4961,7 +4961,7 @@

    Arguments

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/basis.html b/proc/basis.html index 4bf9dddac..da916cd94 100644 --- a/proc/basis.html +++ b/proc/basis.html @@ -173,7 +173,7 @@

    Arguments

    - + integer, intent(in), @@ -188,7 +188,7 @@

    Arguments

    - + integer, intent(in), @@ -461,7 +461,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/basis_bernstein.html b/proc/basis_bernstein.html index 3079af001..e0153d2d3 100644 --- a/proc/basis_bernstein.html +++ b/proc/basis_bernstein.html @@ -156,7 +156,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -171,7 +171,7 @@

    Arguments

    - + integer, intent(in) @@ -225,7 +225,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/basis_bspline.html b/proc/basis_bspline.html index 4ff10988e..0dc8fae70 100644 --- a/proc/basis_bspline.html +++ b/proc/basis_bspline.html @@ -156,7 +156,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -171,7 +171,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -186,7 +186,7 @@

    Arguments

    - + integer, intent(in) @@ -201,7 +201,7 @@

    Arguments

    - + integer, intent(in) @@ -571,7 +571,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/basis_bspline_der.html b/proc/basis_bspline_der.html index cf1f9824a..3c77ed5a4 100644 --- a/proc/basis_bspline_der.html +++ b/proc/basis_bspline_der.html @@ -156,7 +156,7 @@

    Arguments

    - + real(kind=rk), intent(in) @@ -171,7 +171,7 @@

    Arguments

    - + real(kind=rk), intent(in), @@ -186,7 +186,7 @@

    Arguments

    - + integer, intent(in) @@ -201,7 +201,7 @@

    Arguments

    - + integer, intent(in) @@ -571,7 +571,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/basis~2.html b/proc/basis~2.html index 4c16d60b6..8f96eae4f 100644 --- a/proc/basis~2.html +++ b/proc/basis~2.html @@ -78,20 +78,20 @@

    basis
  • 44 statements + title=" 1.2% of total for procedures.">55 statements
  • - Source File + Source File

@@ -137,13 +137,13 @@

Contents

-

private pure subroutine basis(this, res, Xt, Tgc) +

private pure subroutine basis(this, res1, res2, Xt1, Xt2, Tgc)

Type Bound

-

nurbs_curve

+

nurbs_surface

Arguments

@@ -158,8 +158,8 @@

Arguments

@@ -181,14 +181,44 @@

Arguments

- + + + + + + + + + + + + + + + + + @@ -196,7 +226,7 @@

Arguments

contiguous - + @@ -231,31 +261,76 @@

Calls

- - + + proc~~basis~2~~CallsGraph - + proc~basis~2 - -nurbs_curve%basis + +nurbs_surface%basis - + +interface~ndgrid + + +ndgrid + + + + + +proc~basis~2->interface~ndgrid + + + + + proc~is_rational~2 - - -nurbs_curve%is_rational + + +nurbs_surface%is_rational - + proc~basis~2->proc~is_rational~2 - - + + + + + +proc~ndgrid2 + + +ndgrid2 + + + + + +interface~ndgrid->proc~ndgrid2 + + + + + +proc~ndgrid3 + + +ndgrid3 + + + + + +interface~ndgrid->proc~ndgrid3 + + @@ -371,7 +446,7 @@

Graph Key

Documentation generated by FORD - on 2024-05-17T21:11:41.817259

+ on 2024-05-17T21:17:42.005035


diff --git a/proc/basis~3.html b/proc/basis~3.html index 275eb50bc..fb3e57cd2 100644 --- a/proc/basis~3.html +++ b/proc/basis~3.html @@ -78,20 +78,20 @@

basis
  • 55 statements + title=" 0.9% of total for procedures.">44 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure subroutine basis(this, res1, res2, Xt1, Xt2, Tgc) +

    private pure subroutine basis(this, res, Xt, Tgc)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(inout) @@ -173,7 +173,7 @@

    Arguments

    - + integer, intent(in), ::resres1
    - + + integer, + intent(in),optional + + ::res2 + +
    + + real(kind=rk), + intent(in),optional, + contiguous + ::Xt1(:) + +
    + real(kind=rk), intent(in), ::Xt(:)Xt2(:)
    @@ -158,8 +158,8 @@

    Arguments

    @@ -181,44 +181,14 @@

    Arguments

    - + - - - - - - - - - - - - - - - - @@ -226,7 +196,7 @@

    Arguments

    contiguous - + @@ -261,76 +231,31 @@

    Calls

    - - + + proc~~basis~3~~CallsGraph - + proc~basis~3 - -nurbs_surface%basis - - - -interface~ndgrid - - -ndgrid - - - - - -proc~basis~3->interface~ndgrid - - + +nurbs_curve%basis - + proc~is_rational~3 - - -nurbs_surface%is_rational + + +nurbs_curve%is_rational - + proc~basis~3->proc~is_rational~3 - - - - - -proc~ndgrid2 - - -ndgrid2 - - - - - -interface~ndgrid->proc~ndgrid2 - - - - - -proc~ndgrid3 - - -ndgrid3 - - - - - -interface~ndgrid->proc~ndgrid3 - - + + @@ -446,7 +371,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/bincoeff.html b/proc/bincoeff.html index 559b3c831..dd28302ae 100644 --- a/proc/bincoeff.html +++ b/proc/bincoeff.html @@ -156,7 +156,7 @@

    Arguments

    @@ -171,7 +171,7 @@

    Arguments

    @@ -370,24 +370,24 @@

    Called by

    proc~elevate_degree~2 - - -nurbs_curve%elevate_degree + + +nurbs_surface%elevate_degree proc~elevate_degree~2->proc~elevate_degree_a_5_9 - - + + proc~elevate_degree~3 - - -nurbs_surface%elevate_degree + + +nurbs_curve%elevate_degree @@ -401,31 +401,31 @@

    Called by

    program~example1_curve - -example1_curve + +example1_curve - - -program~example1_curve->proc~elevate_degree~2 - - + + +program~example1_curve->proc~elevate_degree~3 + + program~example3_surface - -example3_surface + +example3_surface - - -program~example3_surface->proc~elevate_degree~3 - - + + +program~example3_surface->proc~elevate_degree~2 + + @@ -556,7 +556,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/cmp_degree.html b/proc/cmp_degree.html index ef807bf39..9fa0c2153 100644 --- a/proc/cmp_degree.html +++ b/proc/cmp_degree.html @@ -823,7 +823,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/cmp_degree~2.html b/proc/cmp_degree~2.html index 9f6af6b20..74f45a8be 100644 --- a/proc/cmp_degree~2.html +++ b/proc/cmp_degree~2.html @@ -78,20 +78,20 @@

    cmp_degree
  • 6 statements + title=" 0.4% of total for procedures.">21 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure subroutine cmp_degree(this) +

    private pure subroutine cmp_degree(this, dir)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -173,7 +173,7 @@

    Arguments

    - + integer, intent(in), ::res1res
    - - integer, - intent(in),optional - - ::res2 - -
    - - real(kind=rk), - intent(in),optional, - contiguous - ::Xt1(:) - -
    - + real(kind=rk), intent(in), ::Xt2(:)Xt(:)
    - + integer, intent(in)
    - + integer, intent(in)
    @@ -159,7 +159,7 @@

    Arguments

    + + + + + + + + @@ -186,76 +201,76 @@

    Calls

    - - + + proc~~cmp_degree~2~~CallsGraph - + proc~cmp_degree~2 - -nurbs_curve%cmp_degree + +nurbs_surface%cmp_degree proc~get_multiplicity~2 - - -nurbs_curve%get_multiplicity + + +nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 - - + + interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity - - + + proc~compute_multiplicity1 - -compute_multiplicity1 + +compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 - - + + proc~compute_multiplicity2 - -compute_multiplicity2 + +compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 - - + + @@ -355,295 +370,403 @@

    Called by

    - - + + proc~~cmp_degree~2~~CalledByGraph - + proc~cmp_degree~2 - -nurbs_curve%cmp_degree + +nurbs_surface%cmp_degree proc~set1~2 - - -nurbs_curve%set1 + + +nurbs_surface%set1 proc~set1~2->proc~cmp_degree~2 - - + + proc~set3~2 - - -nurbs_curve%set3 + + +nurbs_surface%set3 proc~set3~2->proc~cmp_degree~2 - - + + none~set~2 - - -nurbs_curve%set + + +nurbs_surface%set none~set~2->proc~set1~2 - - + + none~set~2->proc~set3~2 - - + + proc~elevate_degree~2 - - -nurbs_curve%elevate_degree + + +nurbs_surface%elevate_degree proc~elevate_degree~2->none~set~2 - - + + proc~insert_knots~2 - - -nurbs_curve%insert_knots + + +nurbs_surface%insert_knots proc~insert_knots~2->none~set~2 - - + + proc~modify_wc~2 - - -nurbs_curve%modify_Wc + + +nurbs_surface%modify_Wc proc~modify_wc~2->none~set~2 - - + + proc~modify_xc~2 - - -nurbs_curve%modify_Xc + + +nurbs_surface%modify_Xc proc~modify_xc~2->none~set~2 - - + + proc~remove_knots~2 - - -nurbs_curve%remove_knots + + +nurbs_surface%remove_knots proc~remove_knots~2->none~set~2 - - + + - + -proc~set_circle - - -nurbs_curve%set_circle +proc~set_c~2 + + +nurbs_surface%set_C - + -proc~set_circle->none~set~2 - - +proc~set_c~2->none~set~2 + + - + -proc~set_c~2 - - -nurbs_curve%set_C +proc~set_half_ring~2 + + +nurbs_surface%set_half_ring - + -proc~set_c~2->none~set~2 - - +proc~set_half_ring~2->none~set~2 + + - + -proc~set_half_circle - - -nurbs_curve%set_half_circle +proc~set_ring~2 + + +nurbs_surface%set_ring - + -proc~set_half_circle->none~set~2 - - +proc~set_ring~2->none~set~2 + + - + -program~example1_curve - - -example1_curve +proc~set_tetragon + + +nurbs_surface%set_tetragon - + -program~example1_curve->none~set~2 - - +proc~set_tetragon->none~set~2 + + - - -program~example1_curve->proc~elevate_degree~2 - - + + +program~example3_surface + + +example3_surface + - + + + +program~example3_surface->none~set~2 + + + + -program~example1_curve->proc~insert_knots~2 - - +program~example3_surface->proc~elevate_degree~2 + + - + -program~example1_curve->proc~remove_knots~2 - - +program~example3_surface->proc~insert_knots~2 + + - - -program~example_nurbs_curve - - -example_nurbs_curve + + +program~example3_surface->proc~remove_knots~2 + + + + + +program~example_nurbs_surface + + +example_nurbs_surface - - -program~example_nurbs_curve->none~set~2 - - + + +program~example_nurbs_surface->none~set~2 + + - - -program~nearest_point_1d - - -nearest_point_1d + + +program~example_ppm1 + + +example_ppm1 + + + + + +program~example_ppm1->proc~set_ring~2 + + + + + +program~example_ppm1->proc~set_tetragon + + + + + +program~example_ppm2 + + +example_ppm2 + + + + + +program~example_ppm2->proc~set_half_ring~2 + + + + + +program~example_ppm2->proc~set_tetragon + + + + + +program~example_ppm3 + + +example_ppm3 - + -program~nearest_point_1d->proc~set_circle - - +program~example_ppm3->proc~modify_xc~2 + + + + + +program~example_ppm3->proc~set_tetragon + + + + + +program~nearest_point_2d + + +nearest_point_2d + - - -program~shape_c_1d - - -shape_C_1d + + + +program~nearest_point_2d->proc~set_tetragon + + + + + +program~nearest_point_2d_bench + + +nearest_point_2d_bench + + + + + +program~nearest_point_2d_bench->proc~set_tetragon + + + + + +program~shape_c_2d + + +shape_C_2d - + -program~shape_c_1d->proc~set_c~2 - - +program~shape_c_2d->proc~set_c~2 + + + + + +program~shape_half_ring_2d + + +shape_half_ring_2d + - - -program~shape_circle - - -shape_circle + + + +program~shape_half_ring_2d->proc~set_half_ring~2 + + + + + +program~shape_ring_2d + + +shape_ring_2d - - -program~shape_circle->proc~set_circle - - + + +program~shape_ring_2d->proc~set_ring~2 + + - - -program~shape_half_circle - - -shape_half_circle + + +program~shape_tetragon + + +shape_tetragon - - -program~shape_half_circle->proc~set_half_circle - - + + +program~shape_tetragon->proc~set_tetragon + + @@ -763,7 +886,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/cmp_degree~3.html b/proc/cmp_degree~3.html index 8c5cfdb00..fd88948f2 100644 --- a/proc/cmp_degree~3.html +++ b/proc/cmp_degree~3.html @@ -78,20 +78,20 @@

    cmp_degree
  • 21 statements + title=" 0.1% of total for procedures.">6 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure subroutine cmp_degree(this, dir) +

    private pure subroutine cmp_degree(this)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    - class(nurbs_curve), + class(nurbs_surface), intent(inout) @@ -169,6 +169,21 @@

    Arguments

    		this +
    + + integer, + intent(in),optional + + ::dir +
    @@ -158,8 +158,8 @@

    Arguments

    - - - - - - - - @@ -201,76 +186,76 @@

    Calls

    - - + + proc~~cmp_degree~3~~CallsGraph - + proc~cmp_degree~3 - -nurbs_surface%cmp_degree + +nurbs_curve%cmp_degree proc~get_multiplicity~3 - - -nurbs_surface%get_multiplicity + + +nurbs_curve%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 - - + + interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity - - + + proc~compute_multiplicity1 - -compute_multiplicity1 + +compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 - - + + proc~compute_multiplicity2 - -compute_multiplicity2 + +compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 - - + + @@ -370,403 +355,295 @@

    Called by

    - - + + proc~~cmp_degree~3~~CalledByGraph - + proc~cmp_degree~3 - -nurbs_surface%cmp_degree + +nurbs_curve%cmp_degree proc~set1~3 - - -nurbs_surface%set1 + + +nurbs_curve%set1 proc~set1~3->proc~cmp_degree~3 - - + + proc~set3~3 - - -nurbs_surface%set3 + + +nurbs_curve%set3 proc~set3~3->proc~cmp_degree~3 - - + + none~set~3 - - -nurbs_surface%set + + +nurbs_curve%set none~set~3->proc~set1~3 - - + + none~set~3->proc~set3~3 - - + + proc~elevate_degree~3 - - -nurbs_surface%elevate_degree + + +nurbs_curve%elevate_degree proc~elevate_degree~3->none~set~3 - - + + proc~insert_knots~3 - - -nurbs_surface%insert_knots + + +nurbs_curve%insert_knots proc~insert_knots~3->none~set~3 - - + + proc~modify_wc~3 - - -nurbs_surface%modify_Wc + + +nurbs_curve%modify_Wc proc~modify_wc~3->none~set~3 - - + + proc~modify_xc~3 - - -nurbs_surface%modify_Xc + + +nurbs_curve%modify_Xc proc~modify_xc~3->none~set~3 - - + + proc~remove_knots~3 - - -nurbs_surface%remove_knots + + +nurbs_curve%remove_knots proc~remove_knots~3->none~set~3 - - + + - + -proc~set_c~3 - - -nurbs_surface%set_C +proc~set_circle + + +nurbs_curve%set_circle - + -proc~set_c~3->none~set~3 - - +proc~set_circle->none~set~3 + + - + -proc~set_half_ring~2 - - -nurbs_surface%set_half_ring +proc~set_c~3 + + +nurbs_curve%set_C - + -proc~set_half_ring~2->none~set~3 - - +proc~set_c~3->none~set~3 + + - + -proc~set_ring~2 - - -nurbs_surface%set_ring +proc~set_half_circle + + +nurbs_curve%set_half_circle - + -proc~set_ring~2->none~set~3 - - +proc~set_half_circle->none~set~3 + + - + -proc~set_tetragon - - -nurbs_surface%set_tetragon +program~example1_curve + + +example1_curve - + -proc~set_tetragon->none~set~3 - - - - - -program~example3_surface - - -example3_surface - +program~example1_curve->none~set~3 + + + + +program~example1_curve->proc~elevate_degree~3 + + - - -program~example3_surface->none~set~3 - - - - + -program~example3_surface->proc~elevate_degree~3 - - +program~example1_curve->proc~insert_knots~3 + + - + -program~example3_surface->proc~insert_knots~3 - - - - - -program~example3_surface->proc~remove_knots~3 - - - - - -program~example_nurbs_surface - - -example_nurbs_surface - - +program~example1_curve->proc~remove_knots~3 + + - - -program~example_nurbs_surface->none~set~3 - - - - - -program~example_ppm1 - - -example_ppm1 - - - - - -program~example_ppm1->proc~set_ring~2 - - - - - -program~example_ppm1->proc~set_tetragon - - - - - -program~example_ppm2 - - -example_ppm2 + + +program~example_nurbs_curve + + +example_nurbs_curve - - -program~example_ppm2->proc~set_half_ring~2 - - - - - -program~example_ppm2->proc~set_tetragon - - + + +program~example_nurbs_curve->none~set~3 + + - - -program~example_ppm3 - - -example_ppm3 + + +program~nearest_point_1d + + +nearest_point_1d - + -program~example_ppm3->proc~modify_xc~3 - - - - - -program~example_ppm3->proc~set_tetragon - - - - - -program~nearest_point_2d - - -nearest_point_2d - - - - - -program~nearest_point_2d->proc~set_tetragon - - - - - -program~nearest_point_2d_bench - - -nearest_point_2d_bench - - +program~nearest_point_1d->proc~set_circle + + - - -program~nearest_point_2d_bench->proc~set_tetragon - - - - - -program~shape_c_2d - - -shape_C_2d + + +program~shape_c_1d + + +shape_C_1d - + -program~shape_c_2d->proc~set_c~3 - - - - - -program~shape_half_ring_2d - - -shape_half_ring_2d - - +program~shape_c_1d->proc~set_c~3 + + - - -program~shape_half_ring_2d->proc~set_half_ring~2 - - - - - -program~shape_ring_2d - - -shape_ring_2d + + +program~shape_circle + + +shape_circle - - -program~shape_ring_2d->proc~set_ring~2 - - + + +program~shape_circle->proc~set_circle + + - - -program~shape_tetragon - - -shape_tetragon + + +program~shape_half_circle + + +shape_half_circle - - -program~shape_tetragon->proc~set_tetragon - - + + +program~shape_half_circle->proc~set_half_circle + + @@ -886,7 +763,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/cmp_elem.html b/proc/cmp_elem.html index 98af74ffd..abd46a4f2 100644 --- a/proc/cmp_elem.html +++ b/proc/cmp_elem.html @@ -176,7 +176,7 @@

    Arguments

    Return Value - + integer, allocatable, (:,:)

    @@ -487,7 +487,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/cmp_elem_xc_vis.html b/proc/cmp_elem_xc_vis.html index 1c01fe8e0..d53a176af 100644 --- a/proc/cmp_elem_xc_vis.html +++ b/proc/cmp_elem_xc_vis.html @@ -173,7 +173,7 @@

    Arguments

    @@ -191,7 +191,7 @@

    Arguments

    Return Value - + integer, allocatable, (:,:)

    @@ -618,7 +618,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/cmp_elem_xc_vis~2.html b/proc/cmp_elem_xc_vis~2.html index ab743fbf5..0b86fda42 100644 --- a/proc/cmp_elem_xc_vis~2.html +++ b/proc/cmp_elem_xc_vis~2.html @@ -83,15 +83,15 @@

    cmp_elem_Xc_vis
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function cmp_elem_Xc_vis(this, p) result(elemConn)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -169,21 +169,6 @@

    Arguments

    		this -
    - - integer, - intent(in),optional - - ::dir -
    - + integer, intent(in),
    @@ -158,8 +158,8 @@

    Arguments

    - - + @@ -208,76 +208,76 @@

    Calls

    - + proc~~cmp_elem_xc_vis~2~~CallsGraph - + proc~cmp_elem_xc_vis~2 - -nurbs_curve%cmp_elem_Xc_vis + +nurbs_surface%cmp_elem_Xc_vis interface~elemconn_c0 - -elemConn_C0 + +elemConn_C0 proc~cmp_elem_xc_vis~2->interface~elemconn_c0 - - + + proc~cmp_elemconn_c0_l - -cmp_elemConn_C0_L + +cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l - - + + proc~cmp_elemconn_c0_s - -cmp_elemConn_C0_S + +cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s - - + + proc~cmp_elemconn_c0_v - -cmp_elemConn_C0_V + +cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v - - + + @@ -373,106 +373,121 @@

    Called by

    - - + + proc~~cmp_elem_xc_vis~2~~CalledByGraph - + proc~cmp_elem_xc_vis~2 - -nurbs_curve%cmp_elem_Xc_vis + +nurbs_surface%cmp_elem_Xc_vis proc~export_xc~2 - - -nurbs_curve%export_Xc + + +nurbs_surface%export_Xc proc~export_xc~2->proc~cmp_elem_xc_vis~2 - - + + - + -program~example1_curve - - -example1_curve +program~example3_surface + + +example3_surface - + -program~example1_curve->proc~export_xc~2 - - +program~example3_surface->proc~export_xc~2 + + - + -program~example_nurbs_curve - - -example_nurbs_curve +program~example_nurbs_surface + + +example_nurbs_surface - + -program~example_nurbs_curve->proc~export_xc~2 - - +program~example_nurbs_surface->proc~export_xc~2 + + - + -program~shape_c_1d - - -shape_C_1d +program~shape_c_2d + + +shape_C_2d - + -program~shape_c_1d->proc~export_xc~2 - - +program~shape_c_2d->proc~export_xc~2 + + - + -program~shape_circle - - -shape_circle +program~shape_half_ring_2d + + +shape_half_ring_2d - + -program~shape_circle->proc~export_xc~2 - - +program~shape_half_ring_2d->proc~export_xc~2 + + - + -program~shape_half_circle - - -shape_half_circle +program~shape_ring_2d + + +shape_ring_2d - + -program~shape_half_circle->proc~export_xc~2 - - +program~shape_ring_2d->proc~export_xc~2 + + + + + +program~shape_tetragon + + +shape_tetragon + + + + + +program~shape_tetragon->proc~export_xc~2 + + @@ -588,7 +603,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/cmp_elem_xc_vis~3.html b/proc/cmp_elem_xc_vis~3.html index e7ff2a28e..d2d562957 100644 --- a/proc/cmp_elem_xc_vis~3.html +++ b/proc/cmp_elem_xc_vis~3.html @@ -83,15 +83,15 @@

    cmp_elem_Xc_vis
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function cmp_elem_Xc_vis(this, p) result(elemConn)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(in) @@ -177,11 +177,11 @@

    Arguments

    integer,     		intent(in),optional - + optional, + contiguous ::pp(:)
    @@ -158,8 +158,8 @@

    Arguments

    - - + @@ -208,76 +208,76 @@

    Calls

    - + proc~~cmp_elem_xc_vis~3~~CallsGraph - + proc~cmp_elem_xc_vis~3 - -nurbs_surface%cmp_elem_Xc_vis + +nurbs_curve%cmp_elem_Xc_vis interface~elemconn_c0 - -elemConn_C0 + +elemConn_C0 proc~cmp_elem_xc_vis~3->interface~elemconn_c0 - - + + proc~cmp_elemconn_c0_l - -cmp_elemConn_C0_L + +cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l - - + + proc~cmp_elemconn_c0_s - -cmp_elemConn_C0_S + +cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s - - + + proc~cmp_elemconn_c0_v - -cmp_elemConn_C0_V + +cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v - - + + @@ -373,121 +373,106 @@

    Called by

    - - + + proc~~cmp_elem_xc_vis~3~~CalledByGraph - + proc~cmp_elem_xc_vis~3 - -nurbs_surface%cmp_elem_Xc_vis + +nurbs_curve%cmp_elem_Xc_vis proc~export_xc~3 - - -nurbs_surface%export_Xc + + +nurbs_curve%export_Xc proc~export_xc~3->proc~cmp_elem_xc_vis~3 - - + + - + -program~example3_surface - - -example3_surface +program~example1_curve + + +example1_curve - + -program~example3_surface->proc~export_xc~3 - - +program~example1_curve->proc~export_xc~3 + + - + -program~example_nurbs_surface - - -example_nurbs_surface +program~example_nurbs_curve + + +example_nurbs_curve - + -program~example_nurbs_surface->proc~export_xc~3 - - +program~example_nurbs_curve->proc~export_xc~3 + + - + -program~shape_c_2d - - -shape_C_2d +program~shape_c_1d + + +shape_C_1d - + -program~shape_c_2d->proc~export_xc~3 - - +program~shape_c_1d->proc~export_xc~3 + + - + -program~shape_half_ring_2d - - -shape_half_ring_2d +program~shape_circle + + +shape_circle - + -program~shape_half_ring_2d->proc~export_xc~3 - - +program~shape_circle->proc~export_xc~3 + + - + -program~shape_ring_2d - - -shape_ring_2d +program~shape_half_circle + + +shape_half_circle - + -program~shape_ring_2d->proc~export_xc~3 - - - - - -program~shape_tetragon - - -shape_tetragon - - - - - -program~shape_tetragon->proc~export_xc~3 - - +program~shape_half_circle->proc~export_xc~3 + + @@ -603,7 +588,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/cmp_elem_xg_vis.html b/proc/cmp_elem_xg_vis.html index cb0baf534..b900db494 100644 --- a/proc/cmp_elem_xg_vis.html +++ b/proc/cmp_elem_xg_vis.html @@ -173,7 +173,7 @@

    Arguments

    @@ -191,7 +191,7 @@

    Arguments

    Return Value - + integer, allocatable, (:,:)

    @@ -618,7 +618,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/cmp_elem_xg_vis~2.html b/proc/cmp_elem_xg_vis~2.html index b1b67ad2e..0a5dcd371 100644 --- a/proc/cmp_elem_xg_vis~2.html +++ b/proc/cmp_elem_xg_vis~2.html @@ -83,15 +83,15 @@

    cmp_elem_Xg_vis
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function cmp_elem_Xg_vis(this, p) result(elemConn)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -177,11 +177,11 @@

    Arguments

    integer,     		intent(in),optional, - contiguous + optional + ::p(:)p
    - + integer, intent(in),
    @@ -158,8 +158,8 @@

    Arguments

    - - + @@ -208,76 +208,76 @@

    Calls

    - + proc~~cmp_elem_xg_vis~2~~CallsGraph - + proc~cmp_elem_xg_vis~2 - -nurbs_curve%cmp_elem_Xg_vis + +nurbs_surface%cmp_elem_Xg_vis interface~elemconn_c0 - -elemConn_C0 + +elemConn_C0 proc~cmp_elem_xg_vis~2->interface~elemconn_c0 - - + + proc~cmp_elemconn_c0_l - -cmp_elemConn_C0_L + +cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l - - + + proc~cmp_elemconn_c0_s - -cmp_elemConn_C0_S + +cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s - - + + proc~cmp_elemconn_c0_v - -cmp_elemConn_C0_V + +cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v - - + + @@ -373,106 +373,121 @@

    Called by

    - - + + proc~~cmp_elem_xg_vis~2~~CalledByGraph - + proc~cmp_elem_xg_vis~2 - -nurbs_curve%cmp_elem_Xg_vis + +nurbs_surface%cmp_elem_Xg_vis proc~export_xg~2 - - -nurbs_curve%export_Xg + + +nurbs_surface%export_Xg proc~export_xg~2->proc~cmp_elem_xg_vis~2 - - + + - + -program~example1_curve - - -example1_curve +program~example3_surface + + +example3_surface - + -program~example1_curve->proc~export_xg~2 - - +program~example3_surface->proc~export_xg~2 + + - + -program~example_nurbs_curve - - -example_nurbs_curve +program~example_nurbs_surface + + +example_nurbs_surface - + -program~example_nurbs_curve->proc~export_xg~2 - - +program~example_nurbs_surface->proc~export_xg~2 + + - + -program~shape_c_1d - - -shape_C_1d +program~shape_c_2d + + +shape_C_2d - + -program~shape_c_1d->proc~export_xg~2 - - +program~shape_c_2d->proc~export_xg~2 + + - + -program~shape_circle - - -shape_circle +program~shape_half_ring_2d + + +shape_half_ring_2d - + -program~shape_circle->proc~export_xg~2 - - +program~shape_half_ring_2d->proc~export_xg~2 + + - + -program~shape_half_circle - - -shape_half_circle +program~shape_ring_2d + + +shape_ring_2d - + -program~shape_half_circle->proc~export_xg~2 - - +program~shape_ring_2d->proc~export_xg~2 + + + + + +program~shape_tetragon + + +shape_tetragon + + + + + +program~shape_tetragon->proc~export_xg~2 + + @@ -588,7 +603,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/cmp_elem_xg_vis~3.html b/proc/cmp_elem_xg_vis~3.html index 17fec9f42..b5db554cf 100644 --- a/proc/cmp_elem_xg_vis~3.html +++ b/proc/cmp_elem_xg_vis~3.html @@ -83,15 +83,15 @@

    cmp_elem_Xg_vis
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function cmp_elem_Xg_vis(this, p) result(elemConn)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(in) @@ -177,11 +177,11 @@

    Arguments

    integer,     		intent(in),optional - + optional, + contiguous ::pp(:)
    @@ -158,8 +158,8 @@

    Arguments

    - - + @@ -208,76 +208,76 @@

    Calls

    - + proc~~cmp_elem_xg_vis~3~~CallsGraph - + proc~cmp_elem_xg_vis~3 - -nurbs_surface%cmp_elem_Xg_vis + +nurbs_curve%cmp_elem_Xg_vis interface~elemconn_c0 - -elemConn_C0 + +elemConn_C0 proc~cmp_elem_xg_vis~3->interface~elemconn_c0 - - + + proc~cmp_elemconn_c0_l - -cmp_elemConn_C0_L + +cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l - - + + proc~cmp_elemconn_c0_s - -cmp_elemConn_C0_S + +cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s - - + + proc~cmp_elemconn_c0_v - -cmp_elemConn_C0_V + +cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v - - + + @@ -373,121 +373,106 @@

    Called by

    - - + + proc~~cmp_elem_xg_vis~3~~CalledByGraph - + proc~cmp_elem_xg_vis~3 - -nurbs_surface%cmp_elem_Xg_vis + +nurbs_curve%cmp_elem_Xg_vis proc~export_xg~3 - - -nurbs_surface%export_Xg + + +nurbs_curve%export_Xg proc~export_xg~3->proc~cmp_elem_xg_vis~3 - - + + - + -program~example3_surface - - -example3_surface +program~example1_curve + + +example1_curve - + -program~example3_surface->proc~export_xg~3 - - +program~example1_curve->proc~export_xg~3 + + - + -program~example_nurbs_surface - - -example_nurbs_surface +program~example_nurbs_curve + + +example_nurbs_curve - + -program~example_nurbs_surface->proc~export_xg~3 - - +program~example_nurbs_curve->proc~export_xg~3 + + - + -program~shape_c_2d - - -shape_C_2d +program~shape_c_1d + + +shape_C_1d - + -program~shape_c_2d->proc~export_xg~3 - - +program~shape_c_1d->proc~export_xg~3 + + - + -program~shape_half_ring_2d - - -shape_half_ring_2d +program~shape_circle + + +shape_circle - + -program~shape_half_ring_2d->proc~export_xg~3 - - +program~shape_circle->proc~export_xg~3 + + - + -program~shape_ring_2d - - -shape_ring_2d +program~shape_half_circle + + +shape_half_circle - + -program~shape_ring_2d->proc~export_xg~3 - - - - - -program~shape_tetragon - - -shape_tetragon - - - - - -program~shape_tetragon->proc~export_xg~3 - - +program~shape_half_circle->proc~export_xg~3 + + @@ -603,7 +588,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/cmp_elemconn_c0_l.html b/proc/cmp_elemconn_c0_l.html index c8ef21a29..2d32f7446 100644 --- a/proc/cmp_elemconn_c0_l.html +++ b/proc/cmp_elemconn_c0_l.html @@ -171,7 +171,7 @@

    Arguments

    @@ -189,7 +189,7 @@

    Arguments

    Return Value - + integer, allocatable, (:,:)

    @@ -214,23 +214,23 @@

    Called by

    proc~cmp_elemconn_c0_l - -cmp_elemConn_C0_L + +cmp_elemConn_C0_L interface~elemconn_c0 - -elemConn_C0 + +elemConn_C0 interface~elemconn_c0->proc~cmp_elemconn_c0_l - - + + @@ -244,38 +244,38 @@

    Called by

    proc~cmp_elem_xc_vis->interface~elemconn_c0 - - + + proc~cmp_elem_xc_vis~2 - - -nurbs_curve%cmp_elem_Xc_vis + + +nurbs_surface%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~2->interface~elemconn_c0 - - + + proc~cmp_elem_xc_vis~3 - - -nurbs_surface%cmp_elem_Xc_vis + + +nurbs_curve%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~3->interface~elemconn_c0 - - + + @@ -289,38 +289,38 @@

    Called by

    proc~cmp_elem_xg_vis->interface~elemconn_c0 - - + + proc~cmp_elem_xg_vis~2 - - -nurbs_curve%cmp_elem_Xg_vis + + +nurbs_surface%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~2->interface~elemconn_c0 - - + + proc~cmp_elem_xg_vis~3 - - -nurbs_surface%cmp_elem_Xg_vis + + +nurbs_curve%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~3->interface~elemconn_c0 - - + + @@ -340,32 +340,32 @@

    Called by

    proc~export_xc~2 - - -nurbs_curve%export_Xc + + +nurbs_surface%export_Xc proc~export_xc~2->proc~cmp_elem_xc_vis~2 - - + + proc~export_xc~3 - - -nurbs_surface%export_Xc + + +nurbs_curve%export_Xc proc~export_xc~3->proc~cmp_elem_xc_vis~3 - - + + @@ -385,74 +385,74 @@

    Called by

    proc~export_xg~2 - - -nurbs_curve%export_Xg + + +nurbs_surface%export_Xg proc~export_xg~2->proc~cmp_elem_xg_vis~2 - - + + proc~export_xg~3 - - -nurbs_surface%export_Xg + + +nurbs_curve%export_Xg proc~export_xg~3->proc~cmp_elem_xg_vis~3 - - + + program~example1_curve - -example1_curve + +example1_curve - - -program~example1_curve->proc~export_xc~2 - - + + +program~example1_curve->proc~export_xc~3 + + - - -program~example1_curve->proc~export_xg~2 - - + + +program~example1_curve->proc~export_xg~3 + + program~example3_surface - -example3_surface + +example3_surface - - -program~example3_surface->proc~export_xc~3 - - + + +program~example3_surface->proc~export_xc~2 + + - - -program~example3_surface->proc~export_xg~3 - - + + +program~example3_surface->proc~export_xg~2 + + @@ -479,43 +479,43 @@

    Called by

    program~example_nurbs_curve - -example_nurbs_curve + +example_nurbs_curve - - -program~example_nurbs_curve->proc~export_xc~2 - - + + +program~example_nurbs_curve->proc~export_xc~3 + + - - -program~example_nurbs_curve->proc~export_xg~2 - - + + +program~example_nurbs_curve->proc~export_xg~3 + + program~example_nurbs_surface - -example_nurbs_surface + +example_nurbs_surface - - -program~example_nurbs_surface->proc~export_xc~3 - - + + +program~example_nurbs_surface->proc~export_xc~2 + + - - -program~example_nurbs_surface->proc~export_xg~3 - - + + +program~example_nurbs_surface->proc~export_xg~2 + + @@ -563,43 +563,43 @@

    Called by

    program~shape_c_1d - -shape_C_1d + +shape_C_1d - - -program~shape_c_1d->proc~export_xc~2 - - + + +program~shape_c_1d->proc~export_xc~3 + + - - -program~shape_c_1d->proc~export_xg~2 - - + + +program~shape_c_1d->proc~export_xg~3 + + program~shape_c_2d - -shape_C_2d + +shape_C_2d - - -program~shape_c_2d->proc~export_xc~3 - - + + +program~shape_c_2d->proc~export_xc~2 + + - - -program~shape_c_2d->proc~export_xg~3 - - + + +program~shape_c_2d->proc~export_xg~2 + + @@ -626,64 +626,64 @@

    Called by

    program~shape_circle - -shape_circle + +shape_circle - - -program~shape_circle->proc~export_xc~2 - - + + +program~shape_circle->proc~export_xc~3 + + - - -program~shape_circle->proc~export_xg~2 - - + + +program~shape_circle->proc~export_xg~3 + + program~shape_half_circle - -shape_half_circle + +shape_half_circle - - -program~shape_half_circle->proc~export_xc~2 - - + + +program~shape_half_circle->proc~export_xc~3 + + - - -program~shape_half_circle->proc~export_xg~2 - - + + +program~shape_half_circle->proc~export_xg~3 + + program~shape_half_ring_2d - -shape_half_ring_2d + +shape_half_ring_2d - - -program~shape_half_ring_2d->proc~export_xc~3 - - + + +program~shape_half_ring_2d->proc~export_xc~2 + + - - -program~shape_half_ring_2d->proc~export_xg~3 - - + + +program~shape_half_ring_2d->proc~export_xg~2 + + @@ -731,22 +731,22 @@

    Called by

    program~shape_ring_2d - -shape_ring_2d + +shape_ring_2d - - -program~shape_ring_2d->proc~export_xc~3 - - + + +program~shape_ring_2d->proc~export_xc~2 + + - - -program~shape_ring_2d->proc~export_xg~3 - - + + +program~shape_ring_2d->proc~export_xg~2 + + @@ -773,22 +773,22 @@

    Called by

    program~shape_tetragon - -shape_tetragon + +shape_tetragon - - -program~shape_tetragon->proc~export_xc~3 - - + + +program~shape_tetragon->proc~export_xc~2 + + - - -program~shape_tetragon->proc~export_xg~3 - - + + +program~shape_tetragon->proc~export_xg~2 + + @@ -908,7 +908,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/cmp_elemconn_c0_s.html b/proc/cmp_elemconn_c0_s.html index 22ef0b64e..ea1ef48ef 100644 --- a/proc/cmp_elemconn_c0_s.html +++ b/proc/cmp_elemconn_c0_s.html @@ -219,7 +219,7 @@

    Arguments

    Return Value - + integer, allocatable, (:,:)

    @@ -244,23 +244,23 @@

    Called by

    proc~cmp_elemconn_c0_s - -cmp_elemConn_C0_S + +cmp_elemConn_C0_S interface~elemconn_c0 - -elemConn_C0 + +elemConn_C0 interface~elemconn_c0->proc~cmp_elemconn_c0_s - - + + @@ -274,38 +274,38 @@

    Called by

    proc~cmp_elem_xc_vis->interface~elemconn_c0 - - + + proc~cmp_elem_xc_vis~2 - - -nurbs_curve%cmp_elem_Xc_vis + + +nurbs_surface%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~2->interface~elemconn_c0 - - + + proc~cmp_elem_xc_vis~3 - - -nurbs_surface%cmp_elem_Xc_vis + + +nurbs_curve%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~3->interface~elemconn_c0 - - + + @@ -319,38 +319,38 @@

    Called by

    proc~cmp_elem_xg_vis->interface~elemconn_c0 - - + + proc~cmp_elem_xg_vis~2 - - -nurbs_curve%cmp_elem_Xg_vis + + +nurbs_surface%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~2->interface~elemconn_c0 - - + + proc~cmp_elem_xg_vis~3 - - -nurbs_surface%cmp_elem_Xg_vis + + +nurbs_curve%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~3->interface~elemconn_c0 - - + + @@ -370,32 +370,32 @@

    Called by

    proc~export_xc~2 - - -nurbs_curve%export_Xc + + +nurbs_surface%export_Xc proc~export_xc~2->proc~cmp_elem_xc_vis~2 - - + + proc~export_xc~3 - - -nurbs_surface%export_Xc + + +nurbs_curve%export_Xc proc~export_xc~3->proc~cmp_elem_xc_vis~3 - - + + @@ -415,74 +415,74 @@

    Called by

    proc~export_xg~2 - - -nurbs_curve%export_Xg + + +nurbs_surface%export_Xg proc~export_xg~2->proc~cmp_elem_xg_vis~2 - - + + proc~export_xg~3 - - -nurbs_surface%export_Xg + + +nurbs_curve%export_Xg proc~export_xg~3->proc~cmp_elem_xg_vis~3 - - + + program~example1_curve - -example1_curve + +example1_curve - - -program~example1_curve->proc~export_xc~2 - - + + +program~example1_curve->proc~export_xc~3 + + - - -program~example1_curve->proc~export_xg~2 - - + + +program~example1_curve->proc~export_xg~3 + + program~example3_surface - -example3_surface + +example3_surface - - -program~example3_surface->proc~export_xc~3 - - + + +program~example3_surface->proc~export_xc~2 + + - - -program~example3_surface->proc~export_xg~3 - - + + +program~example3_surface->proc~export_xg~2 + + @@ -509,43 +509,43 @@

    Called by

    program~example_nurbs_curve - -example_nurbs_curve + +example_nurbs_curve - - -program~example_nurbs_curve->proc~export_xc~2 - - + + +program~example_nurbs_curve->proc~export_xc~3 + + - - -program~example_nurbs_curve->proc~export_xg~2 - - + + +program~example_nurbs_curve->proc~export_xg~3 + + program~example_nurbs_surface - -example_nurbs_surface + +example_nurbs_surface - - -program~example_nurbs_surface->proc~export_xc~3 - - + + +program~example_nurbs_surface->proc~export_xc~2 + + - - -program~example_nurbs_surface->proc~export_xg~3 - - + + +program~example_nurbs_surface->proc~export_xg~2 + + @@ -593,43 +593,43 @@

    Called by

    program~shape_c_1d - -shape_C_1d + +shape_C_1d - - -program~shape_c_1d->proc~export_xc~2 - - + + +program~shape_c_1d->proc~export_xc~3 + + - - -program~shape_c_1d->proc~export_xg~2 - - + + +program~shape_c_1d->proc~export_xg~3 + + program~shape_c_2d - -shape_C_2d + +shape_C_2d - - -program~shape_c_2d->proc~export_xc~3 - - + + +program~shape_c_2d->proc~export_xc~2 + + - - -program~shape_c_2d->proc~export_xg~3 - - + + +program~shape_c_2d->proc~export_xg~2 + + @@ -656,64 +656,64 @@

    Called by

    program~shape_circle - -shape_circle + +shape_circle - - -program~shape_circle->proc~export_xc~2 - - + + +program~shape_circle->proc~export_xc~3 + + - - -program~shape_circle->proc~export_xg~2 - - + + +program~shape_circle->proc~export_xg~3 + + program~shape_half_circle - -shape_half_circle + +shape_half_circle - - -program~shape_half_circle->proc~export_xc~2 - - + + +program~shape_half_circle->proc~export_xc~3 + + - - -program~shape_half_circle->proc~export_xg~2 - - + + +program~shape_half_circle->proc~export_xg~3 + + program~shape_half_ring_2d - -shape_half_ring_2d + +shape_half_ring_2d - - -program~shape_half_ring_2d->proc~export_xc~3 - - + + +program~shape_half_ring_2d->proc~export_xc~2 + + - - -program~shape_half_ring_2d->proc~export_xg~3 - - + + +program~shape_half_ring_2d->proc~export_xg~2 + + @@ -761,22 +761,22 @@

    Called by

    program~shape_ring_2d - -shape_ring_2d + +shape_ring_2d - - -program~shape_ring_2d->proc~export_xc~3 - - + + +program~shape_ring_2d->proc~export_xc~2 + + - - -program~shape_ring_2d->proc~export_xg~3 - - + + +program~shape_ring_2d->proc~export_xg~2 + + @@ -803,22 +803,22 @@

    Called by

    program~shape_tetragon - -shape_tetragon + +shape_tetragon - - -program~shape_tetragon->proc~export_xc~3 - - + + +program~shape_tetragon->proc~export_xc~2 + + - - -program~shape_tetragon->proc~export_xg~3 - - + + +program~shape_tetragon->proc~export_xg~2 + + @@ -938,7 +938,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/cmp_elemconn_c0_v.html b/proc/cmp_elemconn_c0_v.html index 4b454770a..73c296af1 100644 --- a/proc/cmp_elemconn_c0_v.html +++ b/proc/cmp_elemconn_c0_v.html @@ -249,7 +249,7 @@

    Arguments

    Return Value - + integer, allocatable, (:,:)

    @@ -274,23 +274,23 @@

    Called by

    proc~cmp_elemconn_c0_v - -cmp_elemConn_C0_V + +cmp_elemConn_C0_V interface~elemconn_c0 - -elemConn_C0 + +elemConn_C0 interface~elemconn_c0->proc~cmp_elemconn_c0_v - - + + @@ -304,38 +304,38 @@

    Called by

    proc~cmp_elem_xc_vis->interface~elemconn_c0 - - + + proc~cmp_elem_xc_vis~2 - - -nurbs_curve%cmp_elem_Xc_vis + + +nurbs_surface%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~2->interface~elemconn_c0 - - + + proc~cmp_elem_xc_vis~3 - - -nurbs_surface%cmp_elem_Xc_vis + + +nurbs_curve%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~3->interface~elemconn_c0 - - + + @@ -349,38 +349,38 @@

    Called by

    proc~cmp_elem_xg_vis->interface~elemconn_c0 - - + + proc~cmp_elem_xg_vis~2 - - -nurbs_curve%cmp_elem_Xg_vis + + +nurbs_surface%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~2->interface~elemconn_c0 - - + + proc~cmp_elem_xg_vis~3 - - -nurbs_surface%cmp_elem_Xg_vis + + +nurbs_curve%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~3->interface~elemconn_c0 - - + + @@ -400,32 +400,32 @@

    Called by

    proc~export_xc~2 - - -nurbs_curve%export_Xc + + +nurbs_surface%export_Xc proc~export_xc~2->proc~cmp_elem_xc_vis~2 - - + + proc~export_xc~3 - - -nurbs_surface%export_Xc + + +nurbs_curve%export_Xc proc~export_xc~3->proc~cmp_elem_xc_vis~3 - - + + @@ -445,74 +445,74 @@

    Called by

    proc~export_xg~2 - - -nurbs_curve%export_Xg + + +nurbs_surface%export_Xg proc~export_xg~2->proc~cmp_elem_xg_vis~2 - - + + proc~export_xg~3 - - -nurbs_surface%export_Xg + + +nurbs_curve%export_Xg proc~export_xg~3->proc~cmp_elem_xg_vis~3 - - + + program~example1_curve - -example1_curve + +example1_curve - - -program~example1_curve->proc~export_xc~2 - - + + +program~example1_curve->proc~export_xc~3 + + - - -program~example1_curve->proc~export_xg~2 - - + + +program~example1_curve->proc~export_xg~3 + + program~example3_surface - -example3_surface + +example3_surface - - -program~example3_surface->proc~export_xc~3 - - + + +program~example3_surface->proc~export_xc~2 + + - - -program~example3_surface->proc~export_xg~3 - - + + +program~example3_surface->proc~export_xg~2 + + @@ -539,43 +539,43 @@

    Called by

    program~example_nurbs_curve - -example_nurbs_curve + +example_nurbs_curve - - -program~example_nurbs_curve->proc~export_xc~2 - - + + +program~example_nurbs_curve->proc~export_xc~3 + + - - -program~example_nurbs_curve->proc~export_xg~2 - - + + +program~example_nurbs_curve->proc~export_xg~3 + + program~example_nurbs_surface - -example_nurbs_surface + +example_nurbs_surface - - -program~example_nurbs_surface->proc~export_xc~3 - - + + +program~example_nurbs_surface->proc~export_xc~2 + + - - -program~example_nurbs_surface->proc~export_xg~3 - - + + +program~example_nurbs_surface->proc~export_xg~2 + + @@ -623,43 +623,43 @@

    Called by

    program~shape_c_1d - -shape_C_1d + +shape_C_1d - - -program~shape_c_1d->proc~export_xc~2 - - + + +program~shape_c_1d->proc~export_xc~3 + + - - -program~shape_c_1d->proc~export_xg~2 - - + + +program~shape_c_1d->proc~export_xg~3 + + program~shape_c_2d - -shape_C_2d + +shape_C_2d - - -program~shape_c_2d->proc~export_xc~3 - - + + +program~shape_c_2d->proc~export_xc~2 + + - - -program~shape_c_2d->proc~export_xg~3 - - + + +program~shape_c_2d->proc~export_xg~2 + + @@ -686,64 +686,64 @@

    Called by

    program~shape_circle - -shape_circle + +shape_circle - - -program~shape_circle->proc~export_xc~2 - - + + +program~shape_circle->proc~export_xc~3 + + - - -program~shape_circle->proc~export_xg~2 - - + + +program~shape_circle->proc~export_xg~3 + + program~shape_half_circle - -shape_half_circle + +shape_half_circle - - -program~shape_half_circle->proc~export_xc~2 - - + + +program~shape_half_circle->proc~export_xc~3 + + - - -program~shape_half_circle->proc~export_xg~2 - - + + +program~shape_half_circle->proc~export_xg~3 + + program~shape_half_ring_2d - -shape_half_ring_2d + +shape_half_ring_2d - - -program~shape_half_ring_2d->proc~export_xc~3 - - + + +program~shape_half_ring_2d->proc~export_xc~2 + + - - -program~shape_half_ring_2d->proc~export_xg~3 - - + + +program~shape_half_ring_2d->proc~export_xg~2 + + @@ -791,22 +791,22 @@

    Called by

    program~shape_ring_2d - -shape_ring_2d + +shape_ring_2d - - -program~shape_ring_2d->proc~export_xc~3 - - + + +program~shape_ring_2d->proc~export_xc~2 + + - - -program~shape_ring_2d->proc~export_xg~3 - - + + +program~shape_ring_2d->proc~export_xg~2 + + @@ -833,22 +833,22 @@

    Called by

    program~shape_tetragon - -shape_tetragon + +shape_tetragon - - -program~shape_tetragon->proc~export_xc~3 - - + + +program~shape_tetragon->proc~export_xc~2 + + - - -program~shape_tetragon->proc~export_xg~3 - - + + +program~shape_tetragon->proc~export_xg~2 + + @@ -968,7 +968,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/cmp_elemconn_cn_l.html b/proc/cmp_elemconn_cn_l.html index 967ce28d3..eeffeb491 100644 --- a/proc/cmp_elemconn_cn_l.html +++ b/proc/cmp_elemconn_cn_l.html @@ -171,7 +171,7 @@

    Arguments

     @@ -186,7 +186,7 @@

    Arguments

    @@ -216,7 +216,7 @@

    Arguments

    @@ -288,24 +288,24 @@

    Called by

    proc~cmp_elem~2 - - -nurbs_curve%cmp_elem + + +nurbs_surface%cmp_elem proc~cmp_elem~2->interface~elemconn_cn - - + + proc~cmp_elem~3 - - -nurbs_surface%cmp_elem + + +nurbs_curve%cmp_elem @@ -429,7 +429,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/cmp_elemconn_cn_s.html b/proc/cmp_elemconn_cn_s.html index 085e535ca..43ca1103b 100644 --- a/proc/cmp_elemconn_cn_s.html +++ b/proc/cmp_elemconn_cn_s.html @@ -276,7 +276,7 @@

    Arguments

    @@ -348,24 +348,24 @@

    Called by

    proc~cmp_elem~2 - - -nurbs_curve%cmp_elem + + +nurbs_surface%cmp_elem proc~cmp_elem~2->interface~elemconn_cn - - + + proc~cmp_elem~3 - - -nurbs_surface%cmp_elem + + +nurbs_curve%cmp_elem @@ -489,7 +489,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/cmp_elemconn_cn_v.html b/proc/cmp_elemconn_cn_v.html index 9c98d1c92..0bf482eda 100644 --- a/proc/cmp_elemconn_cn_v.html +++ b/proc/cmp_elemconn_cn_v.html @@ -336,7 +336,7 @@

    Arguments

    @@ -408,24 +408,24 @@

    Called by

    proc~cmp_elem~2 - - -nurbs_curve%cmp_elem + + +nurbs_surface%cmp_elem proc~cmp_elem~2->interface~elemconn_cn - - + + proc~cmp_elem~3 - - -nurbs_surface%cmp_elem + + +nurbs_curve%cmp_elem @@ -549,7 +549,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/cmp_elem~2.html b/proc/cmp_elem~2.html index 3c394f553..20e9e6f67 100644 --- a/proc/cmp_elem~2.html +++ b/proc/cmp_elem~2.html @@ -83,15 +83,15 @@

    cmp_elem
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function cmp_elem(this) result(elemConn)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -177,11 +177,11 @@

    Arguments

    integer,     		intent(in),optional, - contiguous + optional + ::p(:)p
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + integer, intent(out),
    - + integer, intent(out),
    - + integer, intent(out),
    @@ -159,7 +159,7 @@

    Arguments

    - class(nurbs_curve), + class(nurbs_surface), intent(in) @@ -193,181 +193,181 @@

    Calls

    - - + + proc~~cmp_elem~2~~CallsGraph - + proc~cmp_elem~2 - -nurbs_curve%cmp_elem + +nurbs_surface%cmp_elem interface~elemconn_cn - -elemConn_Cn + +elemConn_Cn proc~cmp_elem~2->interface~elemconn_cn - - + + interface~unique - -unique + +unique proc~cmp_elem~2->interface~unique - - + + proc~get_multiplicity~2 - - -nurbs_curve%get_multiplicity + + +nurbs_surface%get_multiplicity proc~cmp_elem~2->proc~get_multiplicity~2 - - + + proc~cmp_elemconn_cn_l - -cmp_elemConn_Cn_L + +cmp_elemConn_Cn_L interface~elemconn_cn->proc~cmp_elemconn_cn_l - - + + proc~cmp_elemconn_cn_s - -cmp_elemConn_Cn_S + +cmp_elemConn_Cn_S interface~elemconn_cn->proc~cmp_elemconn_cn_s - - + + proc~cmp_elemconn_cn_v - -cmp_elemConn_Cn_V + +cmp_elemConn_Cn_V interface~elemconn_cn->proc~cmp_elemconn_cn_v - - + + proc~unique_integer - -unique_integer + +unique_integer interface~unique->proc~unique_integer - - + + proc~unique_real - -unique_real + +unique_real interface~unique->proc~unique_real - - + + interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity - - + + proc~compute_multiplicity1 - -compute_multiplicity1 + +compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 - - + + proc~compute_multiplicity2 - -compute_multiplicity2 + +compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 - - + + @@ -487,7 +487,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/cmp_elem~3.html b/proc/cmp_elem~3.html index e3566e448..f6ce59fd6 100644 --- a/proc/cmp_elem~3.html +++ b/proc/cmp_elem~3.html @@ -83,15 +83,15 @@

    cmp_elem
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function cmp_elem(this) result(elemConn)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -193,181 +193,181 @@

    Calls

    - - + + proc~~cmp_elem~3~~CallsGraph - + proc~cmp_elem~3 - -nurbs_surface%cmp_elem + +nurbs_curve%cmp_elem interface~elemconn_cn - -elemConn_Cn + +elemConn_Cn proc~cmp_elem~3->interface~elemconn_cn - - + + interface~unique - -unique + +unique proc~cmp_elem~3->interface~unique - - + + proc~get_multiplicity~3 - - -nurbs_surface%get_multiplicity + + +nurbs_curve%get_multiplicity proc~cmp_elem~3->proc~get_multiplicity~3 - - + + proc~cmp_elemconn_cn_l - -cmp_elemConn_Cn_L + +cmp_elemConn_Cn_L interface~elemconn_cn->proc~cmp_elemconn_cn_l - - + + proc~cmp_elemconn_cn_s - -cmp_elemConn_Cn_S + +cmp_elemConn_Cn_S interface~elemconn_cn->proc~cmp_elemconn_cn_s - - + + proc~cmp_elemconn_cn_v - -cmp_elemConn_Cn_V + +cmp_elemConn_Cn_V interface~elemconn_cn->proc~cmp_elemconn_cn_v - - + + proc~unique_integer - -unique_integer + +unique_integer interface~unique->proc~unique_integer - - + + proc~unique_real - -unique_real + +unique_real interface~unique->proc~unique_real - - + + interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity - - + + proc~compute_multiplicity1 - -compute_multiplicity1 + +compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 - - + + proc~compute_multiplicity2 - -compute_multiplicity2 + +compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 - - + + @@ -487,7 +487,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/cmp_nc.html b/proc/cmp_nc.html index d16afe106..d5617cf6e 100644 --- a/proc/cmp_nc.html +++ b/proc/cmp_nc.html @@ -804,7 +804,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/cmp_nc~2.html b/proc/cmp_nc~2.html index 9e56aa3a1..ad90ac65a 100644 --- a/proc/cmp_nc~2.html +++ b/proc/cmp_nc~2.html @@ -78,20 +78,20 @@

    cmp_nc
  • 4 statements + title=" 0.7% of total for procedures.">32 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure subroutine cmp_nc(this) +

    private pure subroutine cmp_nc(this, dir)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    + + + + + + + + @@ -186,61 +201,61 @@

    Calls

    - + proc~~cmp_nc~2~~CallsGraph - + proc~cmp_nc~2 - -nurbs_curve%cmp_nc + +nurbs_surface%cmp_nc interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity proc~cmp_nc~2->interface~compute_multiplicity - - + + proc~compute_multiplicity1 - -compute_multiplicity1 + +compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 - - + + proc~compute_multiplicity2 - -compute_multiplicity2 + +compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 - - + + @@ -312,6 +327,502 @@

    Graph Key

    +

    Solid arrows point from a procedure to one which it calls. Dashed +arrows point from an interface to procedures which implement that interface. +This could include the module procedures in a generic interface or the +implementation in a submodule of an interface in a parent module. +

    + Where possible, edges connecting nodes are +given different colours to make them easier to distinguish in +large graphs. + + + + + +
    +
    +

    Called by

    +
    +
    +
    + + + + + +proc~~cmp_nc~2~~CalledByGraph + + + +proc~cmp_nc~2 + +nurbs_surface%cmp_nc + + + +proc~set1~2 + + +nurbs_surface%set1 + + + + + +proc~set1~2->proc~cmp_nc~2 + + + + + +proc~set2~2 + + +nurbs_surface%set2 + + + + + +proc~set2~2->proc~cmp_nc~2 + + + + + +none~set~2 + + +nurbs_surface%set + + + + + +none~set~2->proc~set1~2 + + + + + +none~set~2->proc~set2~2 + + + + + +proc~elevate_degree~2 + + +nurbs_surface%elevate_degree + + + + + +proc~elevate_degree~2->none~set~2 + + + + + +proc~insert_knots~2 + + +nurbs_surface%insert_knots + + + + + +proc~insert_knots~2->none~set~2 + + + + + +proc~modify_wc~2 + + +nurbs_surface%modify_Wc + + + + + +proc~modify_wc~2->none~set~2 + + + + + +proc~modify_xc~2 + + +nurbs_surface%modify_Xc + + + + + +proc~modify_xc~2->none~set~2 + + + + + +proc~remove_knots~2 + + +nurbs_surface%remove_knots + + + + + +proc~remove_knots~2->none~set~2 + + + + + +proc~set_c~2 + + +nurbs_surface%set_C + + + + + +proc~set_c~2->none~set~2 + + + + + +proc~set_half_ring~2 + + +nurbs_surface%set_half_ring + + + + + +proc~set_half_ring~2->none~set~2 + + + + + +proc~set_ring~2 + + +nurbs_surface%set_ring + + + + + +proc~set_ring~2->none~set~2 + + + + + +proc~set_tetragon + + +nurbs_surface%set_tetragon + + + + + +proc~set_tetragon->none~set~2 + + + + + +program~example3_surface + + +example3_surface + + + + + +program~example3_surface->none~set~2 + + + + + +program~example3_surface->proc~elevate_degree~2 + + + + + +program~example3_surface->proc~insert_knots~2 + + + + + +program~example3_surface->proc~remove_knots~2 + + + + + +program~example_nurbs_surface + + +example_nurbs_surface + + + + + +program~example_nurbs_surface->none~set~2 + + + + + +program~example_ppm1 + + +example_ppm1 + + + + + +program~example_ppm1->proc~set_ring~2 + + + + + +program~example_ppm1->proc~set_tetragon + + + + + +program~example_ppm2 + + +example_ppm2 + + + + + +program~example_ppm2->proc~set_half_ring~2 + + + + + +program~example_ppm2->proc~set_tetragon + + + + + +program~example_ppm3 + + +example_ppm3 + + + + + +program~example_ppm3->proc~modify_xc~2 + + + + + +program~example_ppm3->proc~set_tetragon + + + + + +program~nearest_point_2d + + +nearest_point_2d + + + + + +program~nearest_point_2d->proc~set_tetragon + + + + + +program~nearest_point_2d_bench + + +nearest_point_2d_bench + + + + + +program~nearest_point_2d_bench->proc~set_tetragon + + + + + +program~shape_c_2d + + +shape_C_2d + + + + + +program~shape_c_2d->proc~set_c~2 + + + + + +program~shape_half_ring_2d + + +shape_half_ring_2d + + + + + +program~shape_half_ring_2d->proc~set_half_ring~2 + + + + + +program~shape_ring_2d + + +shape_ring_2d + + + + + +program~shape_ring_2d->proc~set_ring~2 + + + + + +program~shape_tetragon + + +shape_tetragon + + + + + +program~shape_tetragon->proc~set_tetragon + + + + + +
    + Help +
    +
    - - class(nurbs_curve), + + class(nurbs_surface), intent(inout) @@ -169,6 +169,21 @@

    Arguments

    		this +
    + + integer, + intent(in),optional + + ::dir +
    @@ -158,8 +158,8 @@

    Arguments

    - - - - - - - - @@ -201,61 +186,61 @@

    Calls

    - + proc~~cmp_nc~3~~CallsGraph - + proc~cmp_nc~3 - -nurbs_surface%cmp_nc + +nurbs_curve%cmp_nc interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity proc~cmp_nc~3->interface~compute_multiplicity - - + + proc~compute_multiplicity1 - -compute_multiplicity1 + +compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 - - + + proc~compute_multiplicity2 - -compute_multiplicity2 + +compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 - - + + @@ -327,502 +312,6 @@

    Graph Key

    -

    Solid arrows point from a procedure to one which it calls. Dashed -arrows point from an interface to procedures which implement that interface. -This could include the module procedures in a generic interface or the -implementation in a submodule of an interface in a parent module. -

    - Where possible, edges connecting nodes are -given different colours to make them easier to distinguish in -large graphs. - - - - - -
    -
    -

    Called by

    -
    -
    -
    - - - - - -proc~~cmp_nc~3~~CalledByGraph - - - -proc~cmp_nc~3 - -nurbs_surface%cmp_nc - - - -proc~set1~3 - - -nurbs_surface%set1 - - - - - -proc~set1~3->proc~cmp_nc~3 - - - - - -proc~set2~3 - - -nurbs_surface%set2 - - - - - -proc~set2~3->proc~cmp_nc~3 - - - - - -none~set~3 - - -nurbs_surface%set - - - - - -none~set~3->proc~set1~3 - - - - - -none~set~3->proc~set2~3 - - - - - -proc~elevate_degree~3 - - -nurbs_surface%elevate_degree - - - - - -proc~elevate_degree~3->none~set~3 - - - - - -proc~insert_knots~3 - - -nurbs_surface%insert_knots - - - - - -proc~insert_knots~3->none~set~3 - - - - - -proc~modify_wc~3 - - -nurbs_surface%modify_Wc - - - - - -proc~modify_wc~3->none~set~3 - - - - - -proc~modify_xc~3 - - -nurbs_surface%modify_Xc - - - - - -proc~modify_xc~3->none~set~3 - - - - - -proc~remove_knots~3 - - -nurbs_surface%remove_knots - - - - - -proc~remove_knots~3->none~set~3 - - - - - -proc~set_c~3 - - -nurbs_surface%set_C - - - - - -proc~set_c~3->none~set~3 - - - - - -proc~set_half_ring~2 - - -nurbs_surface%set_half_ring - - - - - -proc~set_half_ring~2->none~set~3 - - - - - -proc~set_ring~2 - - -nurbs_surface%set_ring - - - - - -proc~set_ring~2->none~set~3 - - - - - -proc~set_tetragon - - -nurbs_surface%set_tetragon - - - - - -proc~set_tetragon->none~set~3 - - - - - -program~example3_surface - - -example3_surface - - - - - -program~example3_surface->none~set~3 - - - - - -program~example3_surface->proc~elevate_degree~3 - - - - - -program~example3_surface->proc~insert_knots~3 - - - - - -program~example3_surface->proc~remove_knots~3 - - - - - -program~example_nurbs_surface - - -example_nurbs_surface - - - - - -program~example_nurbs_surface->none~set~3 - - - - - -program~example_ppm1 - - -example_ppm1 - - - - - -program~example_ppm1->proc~set_ring~2 - - - - - -program~example_ppm1->proc~set_tetragon - - - - - -program~example_ppm2 - - -example_ppm2 - - - - - -program~example_ppm2->proc~set_half_ring~2 - - - - - -program~example_ppm2->proc~set_tetragon - - - - - -program~example_ppm3 - - -example_ppm3 - - - - - -program~example_ppm3->proc~modify_xc~3 - - - - - -program~example_ppm3->proc~set_tetragon - - - - - -program~nearest_point_2d - - -nearest_point_2d - - - - - -program~nearest_point_2d->proc~set_tetragon - - - - - -program~nearest_point_2d_bench - - -nearest_point_2d_bench - - - - - -program~nearest_point_2d_bench->proc~set_tetragon - - - - - -program~shape_c_2d - - -shape_C_2d - - - - - -program~shape_c_2d->proc~set_c~3 - - - - - -program~shape_half_ring_2d - - -shape_half_ring_2d - - - - - -program~shape_half_ring_2d->proc~set_half_ring~2 - - - - - -program~shape_ring_2d - - -shape_ring_2d - - - - - -program~shape_ring_2d->proc~set_ring~2 - - - - - -program~shape_tetragon - - -shape_tetragon - - - - - -program~shape_tetragon->proc~set_tetragon - - - - - -
    - Help -
    -
    @@ -290,7 +290,7 @@

    Arguments

    @@ -305,7 +305,7 @@

    Arguments

    @@ -320,7 +320,7 @@

    Arguments

    @@ -335,7 +335,7 @@

    Arguments

    @@ -353,7 +353,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:,:)

    @@ -525,7 +525,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/compute_dtgc_bspline_2d.html b/proc/compute_dtgc_bspline_2d.html index 95340c922..8d40112f5 100644 --- a/proc/compute_dtgc_bspline_2d.html +++ b/proc/compute_dtgc_bspline_2d.html @@ -275,7 +275,7 @@

    Arguments

    @@ -320,7 +320,7 @@

    Arguments

    @@ -335,7 +335,7 @@

    Arguments

    @@ -350,7 +350,7 @@

    Arguments

    @@ -368,7 +368,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:,:)

    @@ -555,7 +555,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/compute_dtgc_bspline_3d.html b/proc/compute_dtgc_bspline_3d.html index 3b7d1aa47..968079235 100644 --- a/proc/compute_dtgc_bspline_3d.html +++ b/proc/compute_dtgc_bspline_3d.html @@ -275,7 +275,7 @@

    Arguments

    @@ -320,7 +320,7 @@

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    @@ -350,7 +350,7 @@

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    @@ -365,7 +365,7 @@

    Arguments

    @@ -570,7 +570,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/compute_dtgc_nurbs_1d.html b/proc/compute_dtgc_nurbs_1d.html index ede51867d..2ea4efb6f 100644 --- a/proc/compute_dtgc_nurbs_1d.html +++ b/proc/compute_dtgc_nurbs_1d.html @@ -275,7 +275,7 @@

    Arguments

    @@ -290,7 +290,7 @@

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    @@ -305,7 +305,7 @@

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    Arguments

    @@ -335,7 +335,7 @@

    Arguments

    @@ -350,7 +350,7 @@

    Arguments

    @@ -368,7 +368,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:,:)

    @@ -540,7 +540,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/compute_dtgc_nurbs_2d.html b/proc/compute_dtgc_nurbs_2d.html index 827d2e0b0..94d736661 100644 --- a/proc/compute_dtgc_nurbs_2d.html +++ b/proc/compute_dtgc_nurbs_2d.html @@ -275,7 +275,7 @@

    Arguments

    @@ -320,7 +320,7 @@

    Arguments

    @@ -335,7 +335,7 @@

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    @@ -350,7 +350,7 @@

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    @@ -365,7 +365,7 @@

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    @@ -383,7 +383,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:,:)

    @@ -570,7 +570,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/compute_dtgc_nurbs_3d.html b/proc/compute_dtgc_nurbs_3d.html index 838bb6986..045315de8 100644 --- a/proc/compute_dtgc_nurbs_3d.html +++ b/proc/compute_dtgc_nurbs_3d.html @@ -275,7 +275,7 @@

    Arguments

    @@ -320,7 +320,7 @@

    Arguments

    @@ -335,7 +335,7 @@

    Arguments

    @@ -350,7 +350,7 @@

    Arguments

    @@ -365,7 +365,7 @@

    Arguments

    @@ -380,7 +380,7 @@

    Arguments

    @@ -585,7 +585,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/compute_knot_vector.html b/proc/compute_knot_vector.html index 7b02171dd..0c547d660 100644 --- a/proc/compute_knot_vector.html +++ b/proc/compute_knot_vector.html @@ -171,7 +171,7 @@

    Arguments

    @@ -204,7 +204,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:)

    @@ -341,943 +341,943 @@

    Called by

    - - + + proc~~compute_knot_vector~~CalledByGraph - + proc~compute_knot_vector - -compute_knot_vector + +compute_knot_vector proc~set2 - -nurbs_volume%set2 + +nurbs_volume%set2 proc~set2->proc~compute_knot_vector - - + + proc~set2~2 - - -nurbs_curve%set2 + + +nurbs_surface%set2 proc~set2~2->proc~compute_knot_vector - - + + proc~set2~3 - - -nurbs_surface%set2 + + +nurbs_curve%set2 proc~set2~3->proc~compute_knot_vector - - + + none~set - -nurbs_volume%set + +nurbs_volume%set none~set->proc~set2 - - + + none~set~2 - - -nurbs_curve%set + + +nurbs_surface%set none~set~2->proc~set2~2 - - + + none~set~3 - - -nurbs_surface%set + + +nurbs_curve%set none~set~3->proc~set2~3 - - + + proc~elevate_degree - -nurbs_volume%elevate_degree + +nurbs_volume%elevate_degree proc~elevate_degree->none~set - - + + proc~elevate_degree~2 - - -nurbs_curve%elevate_degree + + +nurbs_surface%elevate_degree proc~elevate_degree~2->none~set~2 - - + + proc~elevate_degree~3 - - -nurbs_surface%elevate_degree + + +nurbs_curve%elevate_degree - + proc~elevate_degree~3->none~set~3 - - + + proc~insert_knots - -nurbs_volume%insert_knots + +nurbs_volume%insert_knots proc~insert_knots->none~set - - + + proc~insert_knots~2 - - -nurbs_curve%insert_knots + + +nurbs_surface%insert_knots proc~insert_knots~2->none~set~2 - - + + proc~insert_knots~3 - - -nurbs_surface%insert_knots + + +nurbs_curve%insert_knots - + proc~insert_knots~3->none~set~3 - - + + proc~modify_wc - -nurbs_volume%modify_Wc + +nurbs_volume%modify_Wc proc~modify_wc->none~set - - + + proc~modify_wc~2 - - -nurbs_curve%modify_Wc + + +nurbs_surface%modify_Wc proc~modify_wc~2->none~set~2 - - + + proc~modify_wc~3 - - -nurbs_surface%modify_Wc + + +nurbs_curve%modify_Wc - + proc~modify_wc~3->none~set~3 - - + + proc~modify_xc - -nurbs_volume%modify_Xc + +nurbs_volume%modify_Xc proc~modify_xc->none~set - - + + proc~modify_xc~2 - - -nurbs_curve%modify_Xc + + +nurbs_surface%modify_Xc proc~modify_xc~2->none~set~2 - - + + proc~modify_xc~3 - - -nurbs_surface%modify_Xc + + +nurbs_curve%modify_Xc - + proc~modify_xc~3->none~set~3 - - + + proc~remove_knots - -nurbs_volume%remove_knots + +nurbs_volume%remove_knots proc~remove_knots->none~set - - + + proc~remove_knots~2 - - -nurbs_curve%remove_knots + + +nurbs_surface%remove_knots proc~remove_knots~2->none~set~2 - - + + proc~remove_knots~3 - - -nurbs_surface%remove_knots + + +nurbs_curve%remove_knots - + proc~remove_knots~3->none~set~3 - - + + proc~set_c - -nurbs_volume%set_C + +nurbs_volume%set_C proc~set_c->none~set - - + + proc~set_circle - -nurbs_curve%set_circle + +nurbs_curve%set_circle - - -proc~set_circle->none~set~2 - - + + +proc~set_circle->none~set~3 + + proc~set_c~2 - - -nurbs_curve%set_C + + +nurbs_surface%set_C - + proc~set_c~2->none~set~2 - - + + proc~set_c~3 - - -nurbs_surface%set_C + + +nurbs_curve%set_C - + proc~set_c~3->none~set~3 - - + + proc~set_half_circle - -nurbs_curve%set_half_circle + +nurbs_curve%set_half_circle - - -proc~set_half_circle->none~set~2 - - + + +proc~set_half_circle->none~set~3 + + proc~set_half_ring - -nurbs_volume%set_half_ring + +nurbs_volume%set_half_ring proc~set_half_ring->none~set - - + + proc~set_half_ring~2 - -nurbs_surface%set_half_ring + +nurbs_surface%set_half_ring - - -proc~set_half_ring~2->none~set~3 - - + + +proc~set_half_ring~2->none~set~2 + + proc~set_hexahedron - -nurbs_volume%set_hexahedron + +nurbs_volume%set_hexahedron proc~set_hexahedron->none~set - - + + proc~set_ring - -nurbs_volume%set_ring + +nurbs_volume%set_ring proc~set_ring->none~set - - + + proc~set_ring~2 - -nurbs_surface%set_ring + +nurbs_surface%set_ring - - -proc~set_ring~2->none~set~3 - - + + +proc~set_ring~2->none~set~2 + + proc~set_tetragon - -nurbs_surface%set_tetragon + +nurbs_surface%set_tetragon - - -proc~set_tetragon->none~set~3 - - + + +proc~set_tetragon->none~set~2 + + program~example1_curve - -example1_curve + +example1_curve - - -program~example1_curve->none~set~2 - - + + +program~example1_curve->none~set~3 + + - - -program~example1_curve->proc~elevate_degree~2 - - + + +program~example1_curve->proc~elevate_degree~3 + + - - -program~example1_curve->proc~insert_knots~2 - - + + +program~example1_curve->proc~insert_knots~3 + + - - -program~example1_curve->proc~remove_knots~2 - - + + +program~example1_curve->proc~remove_knots~3 + + program~example3_surface - -example3_surface + +example3_surface - - -program~example3_surface->none~set~3 - - + + +program~example3_surface->none~set~2 + + - - -program~example3_surface->proc~elevate_degree~3 - - + + +program~example3_surface->proc~elevate_degree~2 + + - - -program~example3_surface->proc~insert_knots~3 - - + + +program~example3_surface->proc~insert_knots~2 + + - - -program~example3_surface->proc~remove_knots~3 - - + + +program~example3_surface->proc~remove_knots~2 + + program~example3_volume - -example3_volume + +example3_volume program~example3_volume->none~set - - + + program~example3_volume->proc~elevate_degree - - + + program~example3_volume->proc~insert_knots - - + + program~example3_volume->proc~remove_knots - - + + program~example_nurbs_curve - -example_nurbs_curve + +example_nurbs_curve - - -program~example_nurbs_curve->none~set~2 - - + + +program~example_nurbs_curve->none~set~3 + + program~example_nurbs_surface - -example_nurbs_surface + +example_nurbs_surface - - -program~example_nurbs_surface->none~set~3 - - + + +program~example_nurbs_surface->none~set~2 + + program~example_nurbs_volume - -example_nurbs_volume + +example_nurbs_volume program~example_nurbs_volume->none~set - - + + program~example_put_to_nurbs - -example_put_to_nurbs + +example_put_to_nurbs program~example_put_to_nurbs->none~set - - + + program~example_ppm1 - -example_ppm1 + +example_ppm1 program~example_ppm1->proc~set_ring~2 - - + + program~example_ppm1->proc~set_tetragon - - + + program~example_ppm2 - -example_ppm2 + +example_ppm2 program~example_ppm2->proc~set_half_ring~2 - - + + program~example_ppm2->proc~set_tetragon - - + + program~example_ppm3 - -example_ppm3 + +example_ppm3 - + -program~example_ppm3->proc~modify_xc~3 - - +program~example_ppm3->proc~modify_xc~2 + + program~example_ppm3->proc~set_tetragon - - + + program~nearest_point_1d - -nearest_point_1d + +nearest_point_1d program~nearest_point_1d->proc~set_circle - - + + program~nearest_point_2d - -nearest_point_2d + +nearest_point_2d program~nearest_point_2d->proc~set_tetragon - - + + program~nearest_point_2d_bench - -nearest_point_2d_bench + +nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon - - + + program~nearest_point_3d - -nearest_point_3d + +nearest_point_3d program~nearest_point_3d->proc~set_hexahedron - - + + program~shape_c_1d - -shape_C_1d + +shape_C_1d - - -program~shape_c_1d->proc~set_c~2 - - + + +program~shape_c_1d->proc~set_c~3 + + program~shape_c_2d - -shape_C_2d + +shape_C_2d - - -program~shape_c_2d->proc~set_c~3 - - + + +program~shape_c_2d->proc~set_c~2 + + program~shape_c_3d - -shape_C_3d + +shape_C_3d program~shape_c_3d->proc~set_c - - + + program~shape_circle - -shape_circle + +shape_circle program~shape_circle->proc~set_circle - - + + program~shape_half_circle - -shape_half_circle + +shape_half_circle program~shape_half_circle->proc~set_half_circle - - + + program~shape_half_ring_2d - -shape_half_ring_2d + +shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 - - + + program~shape_half_ring_3d - -shape_half_ring_3d + +shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring - - + + program~shape_hexahedron - -shape_hexahedron + +shape_hexahedron program~shape_hexahedron->proc~set_hexahedron - - + + program~shape_ring_2d - -shape_ring_2d + +shape_ring_2d program~shape_ring_2d->proc~set_ring~2 - - + + program~shape_ring_3d - -shape_ring_3d + +shape_ring_3d program~shape_ring_3d->proc~set_ring - - + + program~shape_tetragon - -shape_tetragon + +shape_tetragon program~shape_tetragon->proc~set_tetragon - - + + @@ -1397,7 +1397,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/compute_multiplicity1.html b/proc/compute_multiplicity1.html index bb9e751c9..945dc887e 100644 --- a/proc/compute_multiplicity1.html +++ b/proc/compute_multiplicity1.html @@ -156,7 +156,7 @@

    Arguments

    @@ -191,1051 +191,1051 @@

    Called by

    - - + + proc~~compute_multiplicity1~~CalledByGraph - + proc~compute_multiplicity1 - -compute_multiplicity1 + +compute_multiplicity1 interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity interface~compute_multiplicity->proc~compute_multiplicity1 - - + + proc~cmp_nc - -nurbs_volume%cmp_nc + +nurbs_volume%cmp_nc proc~cmp_nc->interface~compute_multiplicity - - + + proc~cmp_nc~2 - - -nurbs_curve%cmp_nc + + +nurbs_surface%cmp_nc proc~cmp_nc~2->interface~compute_multiplicity - - + + proc~cmp_nc~3 - - -nurbs_surface%cmp_nc + + +nurbs_curve%cmp_nc proc~cmp_nc~3->interface~compute_multiplicity - - + + proc~elevate_degree_a_5_9 - -elevate_degree_A_5_9 + +elevate_degree_A_5_9 proc~elevate_degree_a_5_9->interface~compute_multiplicity - - + + proc~get_continuity - -nurbs_volume%get_continuity + +nurbs_volume%get_continuity proc~get_continuity->interface~compute_multiplicity - - + + proc~get_continuity~2 - - -nurbs_curve%get_continuity + + +nurbs_surface%get_continuity proc~get_continuity~2->interface~compute_multiplicity - - + + proc~get_continuity~3 - - -nurbs_surface%get_continuity + + +nurbs_curve%get_continuity proc~get_continuity~3->interface~compute_multiplicity - - + + proc~get_multiplicity - -nurbs_volume%get_multiplicity + +nurbs_volume%get_multiplicity proc~get_multiplicity->interface~compute_multiplicity - - + + proc~get_multiplicity~2 - - -nurbs_curve%get_multiplicity + + +nurbs_surface%get_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity - - + + proc~get_multiplicity~3 - - -nurbs_surface%get_multiplicity + + +nurbs_curve%get_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity - - + + proc~get_nc - -get_nc + +get_nc proc~get_nc->interface~compute_multiplicity - - + + - + -proc~get_nc~3 - - -nurbs_surface%get_nc +proc~get_nc~2 + + +nurbs_surface%get_nc - + -proc~get_nc~3->interface~compute_multiplicity - - +proc~get_nc~2->interface~compute_multiplicity + + proc~insert_knots - -nurbs_volume%insert_knots + +nurbs_volume%insert_knots proc~insert_knots->interface~compute_multiplicity - - + + none~set - -nurbs_volume%set + +nurbs_volume%set proc~insert_knots->none~set - - + + proc~insert_knots~2 - - -nurbs_curve%insert_knots + + +nurbs_surface%insert_knots proc~insert_knots~2->interface~compute_multiplicity - - + + - + none~set~2 - - -nurbs_curve%set + + +nurbs_surface%set - + proc~insert_knots~2->none~set~2 - - + + proc~insert_knots~3 - - -nurbs_surface%insert_knots + + +nurbs_curve%insert_knots proc~insert_knots~3->interface~compute_multiplicity - - + + - + none~set~3 - - -nurbs_surface%set + + +nurbs_curve%set - + proc~insert_knots~3->none~set~3 - - + + proc~remove_knots - -nurbs_volume%remove_knots + +nurbs_volume%remove_knots proc~remove_knots->interface~compute_multiplicity - - + + proc~remove_knots->none~set - - + + proc~remove_knots~2 - - -nurbs_curve%remove_knots + + +nurbs_surface%remove_knots proc~remove_knots~2->interface~compute_multiplicity - - + + - + proc~remove_knots~2->none~set~2 - - + + proc~remove_knots~3 - - -nurbs_surface%remove_knots + + +nurbs_curve%remove_knots proc~remove_knots~3->interface~compute_multiplicity - - + + - + proc~remove_knots~3->none~set~3 - - + + proc~cmp_degree - -nurbs_volume%cmp_degree + +nurbs_volume%cmp_degree proc~cmp_degree->proc~get_multiplicity - - + + proc~cmp_degree~2 - - -nurbs_curve%cmp_degree + + +nurbs_surface%cmp_degree proc~cmp_degree~2->proc~get_multiplicity~2 - - + + proc~cmp_degree~3 - - -nurbs_surface%cmp_degree + + +nurbs_curve%cmp_degree proc~cmp_degree~3->proc~get_multiplicity~3 - - + + proc~cmp_elem - -nurbs_volume%cmp_elem + +nurbs_volume%cmp_elem proc~cmp_elem->proc~get_multiplicity - - + + proc~cmp_elem~2 - - -nurbs_curve%cmp_elem + + +nurbs_surface%cmp_elem proc~cmp_elem~2->proc~get_multiplicity~2 - - + + proc~cmp_elem~3 - - -nurbs_surface%cmp_elem + + +nurbs_curve%cmp_elem proc~cmp_elem~3->proc~get_multiplicity~3 - - + + proc~elevate_degree - -nurbs_volume%elevate_degree + +nurbs_volume%elevate_degree proc~elevate_degree->proc~elevate_degree_a_5_9 - - + + proc~elevate_degree->none~set - - + + proc~elevate_degree~2 - - -nurbs_curve%elevate_degree + + +nurbs_surface%elevate_degree proc~elevate_degree~2->proc~elevate_degree_a_5_9 - - + + - + proc~elevate_degree~2->none~set~2 - - + + proc~elevate_degree~3 - - -nurbs_surface%elevate_degree + + +nurbs_curve%elevate_degree proc~elevate_degree~3->proc~elevate_degree_a_5_9 - - + + - + proc~elevate_degree~3->none~set~3 - - + + proc~set1 - -nurbs_volume%set1 + +nurbs_volume%set1 proc~set1->proc~cmp_nc - - + + proc~set1->proc~cmp_degree - - + + - + -proc~set1~3 - - -nurbs_surface%set1 +proc~set1~2 + + +nurbs_surface%set1 - + -proc~set1~3->proc~cmp_nc~3 - - +proc~set1~2->proc~cmp_nc~2 + + - - -proc~set1~3->proc~cmp_degree~3 - - + + +proc~set1~2->proc~cmp_degree~2 + + proc~set2 - -nurbs_volume%set2 + +nurbs_volume%set2 proc~set2->proc~cmp_nc - - + + - + -proc~set2~3 - - -nurbs_surface%set2 +proc~set2~2 + + +nurbs_surface%set2 - + -proc~set2~3->proc~cmp_nc~3 - - +proc~set2~2->proc~cmp_nc~2 + + program~example1_curve - -example1_curve + +example1_curve - - -program~example1_curve->proc~insert_knots~2 - - + + +program~example1_curve->proc~insert_knots~3 + + - - -program~example1_curve->proc~remove_knots~2 - - + + +program~example1_curve->proc~remove_knots~3 + + - - -program~example1_curve->proc~elevate_degree~2 - - + + +program~example1_curve->proc~elevate_degree~3 + + - + -program~example1_curve->none~set~2 - - +program~example1_curve->none~set~3 + + program~example3_surface - -example3_surface + +example3_surface - - -program~example3_surface->proc~insert_knots~3 - - + + +program~example3_surface->proc~insert_knots~2 + + - - -program~example3_surface->proc~remove_knots~3 - - + + +program~example3_surface->proc~remove_knots~2 + + - - -program~example3_surface->proc~elevate_degree~3 - - + + +program~example3_surface->proc~elevate_degree~2 + + - + -program~example3_surface->none~set~3 - - +program~example3_surface->none~set~2 + + program~example3_volume - -example3_volume + +example3_volume program~example3_volume->proc~insert_knots - - + + program~example3_volume->proc~remove_knots - - + + program~example3_volume->proc~elevate_degree - - + + program~example3_volume->none~set - - + + none~set->proc~set1 - - + + none~set->proc~set2 - - + + proc~set3 - -nurbs_volume%set3 + +nurbs_volume%set3 none~set->proc~set3 - - + + - + -none~set~3->proc~set1~3 - - +none~set~2->proc~set1~2 + + - + -none~set~3->proc~set2~3 - - +none~set~2->proc~set2~2 + + - - -proc~set3~3 - - -nurbs_surface%set3 + + +proc~set3~2 + + +nurbs_surface%set3 - - -none~set~3->proc~set3~3 - - + + +none~set~2->proc~set3~2 + + - + -proc~set1~2 - - -nurbs_curve%set1 +proc~set1~3 + + +nurbs_curve%set1 - - -proc~set1~2->proc~cmp_degree~2 - - + + +proc~set1~3->proc~cmp_degree~3 + + proc~set3->proc~cmp_degree - - + + - - -proc~set3~2 - + + +proc~set3~2->proc~cmp_degree~2 + + + + + +proc~set3~3 + nurbs_curve%set3 - - -proc~set3~2->proc~cmp_degree~2 - - - proc~set3~3->proc~cmp_degree~3 - - + + - + -none~set~2->proc~set1~2 - - +none~set~3->proc~set1~3 + + - - -none~set~2->proc~set3~2 - - + + +none~set~3->proc~set3~3 + + proc~modify_wc - -nurbs_volume%modify_Wc + +nurbs_volume%modify_Wc proc~modify_wc->none~set - - + + - + -proc~modify_wc~3 - - -nurbs_surface%modify_Wc +proc~modify_wc~2 + + +nurbs_surface%modify_Wc - + -proc~modify_wc~3->none~set~3 - - +proc~modify_wc~2->none~set~2 + + proc~modify_xc - -nurbs_volume%modify_Xc + +nurbs_volume%modify_Xc proc~modify_xc->none~set - - + + - + -proc~modify_xc~3 - - -nurbs_surface%modify_Xc +proc~modify_xc~2 + + +nurbs_surface%modify_Xc - + -proc~modify_xc~3->none~set~3 - - +proc~modify_xc~2->none~set~2 + + proc~set_c - -nurbs_volume%set_C + +nurbs_volume%set_C proc~set_c->none~set - - + + - + -proc~set_c~3 - - -nurbs_surface%set_C +proc~set_c~2 + + +nurbs_surface%set_C - + -proc~set_c~3->none~set~3 - - +proc~set_c~2->none~set~2 + + proc~set_half_ring - -nurbs_volume%set_half_ring + +nurbs_volume%set_half_ring proc~set_half_ring->none~set - - + + proc~set_half_ring~2 - -nurbs_surface%set_half_ring + +nurbs_surface%set_half_ring - + -proc~set_half_ring~2->none~set~3 - - +proc~set_half_ring~2->none~set~2 + + proc~set_hexahedron - -nurbs_volume%set_hexahedron + +nurbs_volume%set_hexahedron proc~set_hexahedron->none~set - - + + proc~set_ring - -nurbs_volume%set_ring + +nurbs_volume%set_ring proc~set_ring->none~set - - + + proc~set_ring~2 - -nurbs_surface%set_ring + +nurbs_surface%set_ring - + -proc~set_ring~2->none~set~3 - - +proc~set_ring~2->none~set~2 + + proc~set_tetragon - -nurbs_surface%set_tetragon + +nurbs_surface%set_tetragon - + -proc~set_tetragon->none~set~3 - - +proc~set_tetragon->none~set~2 + + program~example_nurbs_surface - -example_nurbs_surface + +example_nurbs_surface - + -program~example_nurbs_surface->none~set~3 - - +program~example_nurbs_surface->none~set~2 + + program~example_nurbs_volume - -example_nurbs_volume + +example_nurbs_volume program~example_nurbs_volume->none~set - - + + program~example_put_to_nurbs - -example_put_to_nurbs + +example_put_to_nurbs program~example_put_to_nurbs->none~set - - + + - + -proc~modify_wc~2 - - -nurbs_curve%modify_Wc +proc~modify_wc~3 + + +nurbs_curve%modify_Wc - + -proc~modify_wc~2->none~set~2 - - +proc~modify_wc~3->none~set~3 + + - + -proc~modify_xc~2 - - -nurbs_curve%modify_Xc +proc~modify_xc~3 + + +nurbs_curve%modify_Xc - + -proc~modify_xc~2->none~set~2 - - +proc~modify_xc~3->none~set~3 + + @@ -1246,119 +1246,119 @@

    Called by

    - + -proc~set_circle->none~set~2 - - +proc~set_circle->none~set~3 + + - + -proc~set_c~2 - +proc~set_c~3 + nurbs_curve%set_C - + -proc~set_c~2->none~set~2 - - +proc~set_c~3->none~set~3 + + proc~set_half_circle - -nurbs_curve%set_half_circle + +nurbs_curve%set_half_circle - + -proc~set_half_circle->none~set~2 - - +proc~set_half_circle->none~set~3 + + program~example_nurbs_curve - -example_nurbs_curve + +example_nurbs_curve - + -program~example_nurbs_curve->none~set~2 - - +program~example_nurbs_curve->none~set~3 + + program~example_ppm1 - -example_ppm1 + +example_ppm1 program~example_ppm1->proc~set_ring~2 - - + + program~example_ppm1->proc~set_tetragon - - + + program~example_ppm2 - -example_ppm2 + +example_ppm2 program~example_ppm2->proc~set_half_ring~2 - - + + program~example_ppm2->proc~set_tetragon - - + + program~example_ppm3 - -example_ppm3 + +example_ppm3 - + -program~example_ppm3->proc~modify_xc~3 - - +program~example_ppm3->proc~modify_xc~2 + + program~example_ppm3->proc~set_tetragon - - + + @@ -1372,173 +1372,173 @@

    Called by

    program~nearest_point_2d->proc~set_tetragon - - + + program~nearest_point_2d_bench - -nearest_point_2d_bench + +nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon - - + + program~nearest_point_3d - -nearest_point_3d + +nearest_point_3d program~nearest_point_3d->proc~set_hexahedron - - + + program~shape_c_2d - -shape_C_2d + +shape_C_2d - + -program~shape_c_2d->proc~set_c~3 - - +program~shape_c_2d->proc~set_c~2 + + program~shape_c_3d - -shape_C_3d + +shape_C_3d program~shape_c_3d->proc~set_c - - + + program~shape_half_ring_2d - -shape_half_ring_2d + +shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 - - + + program~shape_half_ring_3d - -shape_half_ring_3d + +shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring - - + + program~shape_hexahedron - -shape_hexahedron + +shape_hexahedron program~shape_hexahedron->proc~set_hexahedron - - + + program~shape_ring_2d - -shape_ring_2d + +shape_ring_2d program~shape_ring_2d->proc~set_ring~2 - - + + program~shape_ring_3d - -shape_ring_3d + +shape_ring_3d program~shape_ring_3d->proc~set_ring - - + + program~shape_tetragon - -shape_tetragon + +shape_tetragon program~shape_tetragon->proc~set_tetragon - - + + program~nearest_point_1d - -nearest_point_1d + +nearest_point_1d program~nearest_point_1d->proc~set_circle - - + + @@ -1549,9 +1549,9 @@

    Called by

         - + -program~shape_c_1d->proc~set_c~2 +program~shape_c_1d->proc~set_c~3 @@ -1559,31 +1559,31 @@

    Called by

    program~shape_circle - -shape_circle + +shape_circle program~shape_circle->proc~set_circle - - + + program~shape_half_circle - -shape_half_circle + +shape_half_circle program~shape_half_circle->proc~set_half_circle - - + + @@ -1703,7 +1703,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/compute_multiplicity2.html b/proc/compute_multiplicity2.html index dc3c67981..66a05fc1f 100644 --- a/proc/compute_multiplicity2.html +++ b/proc/compute_multiplicity2.html @@ -156,7 +156,7 @@

    Arguments

    @@ -171,7 +171,7 @@

    Arguments

    @@ -206,1051 +206,1051 @@

    Called by

    - - + + proc~~compute_multiplicity2~~CalledByGraph - + proc~compute_multiplicity2 - -compute_multiplicity2 + +compute_multiplicity2 interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity interface~compute_multiplicity->proc~compute_multiplicity2 - - + + proc~cmp_nc - -nurbs_volume%cmp_nc + +nurbs_volume%cmp_nc proc~cmp_nc->interface~compute_multiplicity - - + + proc~cmp_nc~2 - - -nurbs_curve%cmp_nc + + +nurbs_surface%cmp_nc proc~cmp_nc~2->interface~compute_multiplicity - - + + proc~cmp_nc~3 - - -nurbs_surface%cmp_nc + + +nurbs_curve%cmp_nc proc~cmp_nc~3->interface~compute_multiplicity - - + + proc~elevate_degree_a_5_9 - -elevate_degree_A_5_9 + +elevate_degree_A_5_9 proc~elevate_degree_a_5_9->interface~compute_multiplicity - - + + proc~get_continuity - -nurbs_volume%get_continuity + +nurbs_volume%get_continuity proc~get_continuity->interface~compute_multiplicity - - + + proc~get_continuity~2 - - -nurbs_curve%get_continuity + + +nurbs_surface%get_continuity proc~get_continuity~2->interface~compute_multiplicity - - + + proc~get_continuity~3 - - -nurbs_surface%get_continuity + + +nurbs_curve%get_continuity proc~get_continuity~3->interface~compute_multiplicity - - + + proc~get_multiplicity - -nurbs_volume%get_multiplicity + +nurbs_volume%get_multiplicity proc~get_multiplicity->interface~compute_multiplicity - - + + proc~get_multiplicity~2 - - -nurbs_curve%get_multiplicity + + +nurbs_surface%get_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity - - + + proc~get_multiplicity~3 - - -nurbs_surface%get_multiplicity + + +nurbs_curve%get_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity - - + + proc~get_nc - -get_nc + +get_nc proc~get_nc->interface~compute_multiplicity - - + + - + -proc~get_nc~3 - - -nurbs_surface%get_nc +proc~get_nc~2 + + +nurbs_surface%get_nc - + -proc~get_nc~3->interface~compute_multiplicity - - +proc~get_nc~2->interface~compute_multiplicity + + proc~insert_knots - -nurbs_volume%insert_knots + +nurbs_volume%insert_knots proc~insert_knots->interface~compute_multiplicity - - + + none~set - -nurbs_volume%set + +nurbs_volume%set proc~insert_knots->none~set - - + + proc~insert_knots~2 - - -nurbs_curve%insert_knots + + +nurbs_surface%insert_knots proc~insert_knots~2->interface~compute_multiplicity - - + + - + none~set~2 - - -nurbs_curve%set + + +nurbs_surface%set - + proc~insert_knots~2->none~set~2 - - + + proc~insert_knots~3 - - -nurbs_surface%insert_knots + + +nurbs_curve%insert_knots proc~insert_knots~3->interface~compute_multiplicity - - + + - + none~set~3 - - -nurbs_surface%set + + +nurbs_curve%set - + proc~insert_knots~3->none~set~3 - - + + proc~remove_knots - -nurbs_volume%remove_knots + +nurbs_volume%remove_knots proc~remove_knots->interface~compute_multiplicity - - + + proc~remove_knots->none~set - - + + proc~remove_knots~2 - - -nurbs_curve%remove_knots + + +nurbs_surface%remove_knots proc~remove_knots~2->interface~compute_multiplicity - - + + - + proc~remove_knots~2->none~set~2 - - + + proc~remove_knots~3 - - -nurbs_surface%remove_knots + + +nurbs_curve%remove_knots proc~remove_knots~3->interface~compute_multiplicity - - + + - + proc~remove_knots~3->none~set~3 - - + + proc~cmp_degree - -nurbs_volume%cmp_degree + +nurbs_volume%cmp_degree proc~cmp_degree->proc~get_multiplicity - - + + proc~cmp_degree~2 - - -nurbs_curve%cmp_degree + + +nurbs_surface%cmp_degree proc~cmp_degree~2->proc~get_multiplicity~2 - - + + proc~cmp_degree~3 - - -nurbs_surface%cmp_degree + + +nurbs_curve%cmp_degree proc~cmp_degree~3->proc~get_multiplicity~3 - - + + proc~cmp_elem - -nurbs_volume%cmp_elem + +nurbs_volume%cmp_elem proc~cmp_elem->proc~get_multiplicity - - + + proc~cmp_elem~2 - - -nurbs_curve%cmp_elem + + +nurbs_surface%cmp_elem proc~cmp_elem~2->proc~get_multiplicity~2 - - + + proc~cmp_elem~3 - - -nurbs_surface%cmp_elem + + +nurbs_curve%cmp_elem proc~cmp_elem~3->proc~get_multiplicity~3 - - + + proc~elevate_degree - -nurbs_volume%elevate_degree + +nurbs_volume%elevate_degree proc~elevate_degree->proc~elevate_degree_a_5_9 - - + + proc~elevate_degree->none~set - - + + proc~elevate_degree~2 - - -nurbs_curve%elevate_degree + + +nurbs_surface%elevate_degree proc~elevate_degree~2->proc~elevate_degree_a_5_9 - - + + - + proc~elevate_degree~2->none~set~2 - - + + proc~elevate_degree~3 - - -nurbs_surface%elevate_degree + + +nurbs_curve%elevate_degree proc~elevate_degree~3->proc~elevate_degree_a_5_9 - - + + - + proc~elevate_degree~3->none~set~3 - - + + proc~set1 - -nurbs_volume%set1 + +nurbs_volume%set1 proc~set1->proc~cmp_nc - - + + proc~set1->proc~cmp_degree - - + + - + -proc~set1~3 - - -nurbs_surface%set1 +proc~set1~2 + + +nurbs_surface%set1 - + -proc~set1~3->proc~cmp_nc~3 - - +proc~set1~2->proc~cmp_nc~2 + + - - -proc~set1~3->proc~cmp_degree~3 - - + + +proc~set1~2->proc~cmp_degree~2 + + proc~set2 - -nurbs_volume%set2 + +nurbs_volume%set2 proc~set2->proc~cmp_nc - - + + - + -proc~set2~3 - - -nurbs_surface%set2 +proc~set2~2 + + +nurbs_surface%set2 - + -proc~set2~3->proc~cmp_nc~3 - - +proc~set2~2->proc~cmp_nc~2 + + program~example1_curve - -example1_curve + +example1_curve - - -program~example1_curve->proc~insert_knots~2 - - + + +program~example1_curve->proc~insert_knots~3 + + - - -program~example1_curve->proc~remove_knots~2 - - + + +program~example1_curve->proc~remove_knots~3 + + - - -program~example1_curve->proc~elevate_degree~2 - - + + +program~example1_curve->proc~elevate_degree~3 + + - + -program~example1_curve->none~set~2 - - +program~example1_curve->none~set~3 + + program~example3_surface - -example3_surface + +example3_surface - - -program~example3_surface->proc~insert_knots~3 - - + + +program~example3_surface->proc~insert_knots~2 + + - - -program~example3_surface->proc~remove_knots~3 - - + + +program~example3_surface->proc~remove_knots~2 + + - - -program~example3_surface->proc~elevate_degree~3 - - + + +program~example3_surface->proc~elevate_degree~2 + + - + -program~example3_surface->none~set~3 - - +program~example3_surface->none~set~2 + + program~example3_volume - -example3_volume + +example3_volume program~example3_volume->proc~insert_knots - - + + program~example3_volume->proc~remove_knots - - + + program~example3_volume->proc~elevate_degree - - + + program~example3_volume->none~set - - + + none~set->proc~set1 - - + + none~set->proc~set2 - - + + proc~set3 - -nurbs_volume%set3 + +nurbs_volume%set3 none~set->proc~set3 - - + + - + -none~set~3->proc~set1~3 - - +none~set~2->proc~set1~2 + + - + -none~set~3->proc~set2~3 - - +none~set~2->proc~set2~2 + + - - -proc~set3~3 - - -nurbs_surface%set3 + + +proc~set3~2 + + +nurbs_surface%set3 - - -none~set~3->proc~set3~3 - - + + +none~set~2->proc~set3~2 + + - + -proc~set1~2 - - -nurbs_curve%set1 +proc~set1~3 + + +nurbs_curve%set1 - - -proc~set1~2->proc~cmp_degree~2 - - + + +proc~set1~3->proc~cmp_degree~3 + + proc~set3->proc~cmp_degree - - + + - - -proc~set3~2 - + + +proc~set3~2->proc~cmp_degree~2 + + + + + +proc~set3~3 + nurbs_curve%set3 - - -proc~set3~2->proc~cmp_degree~2 - - - proc~set3~3->proc~cmp_degree~3 - - + + - + -none~set~2->proc~set1~2 - - +none~set~3->proc~set1~3 + + - - -none~set~2->proc~set3~2 - - + + +none~set~3->proc~set3~3 + + proc~modify_wc - -nurbs_volume%modify_Wc + +nurbs_volume%modify_Wc proc~modify_wc->none~set - - + + - + -proc~modify_wc~3 - - -nurbs_surface%modify_Wc +proc~modify_wc~2 + + +nurbs_surface%modify_Wc - + -proc~modify_wc~3->none~set~3 - - +proc~modify_wc~2->none~set~2 + + proc~modify_xc - -nurbs_volume%modify_Xc + +nurbs_volume%modify_Xc proc~modify_xc->none~set - - + + - + -proc~modify_xc~3 - - -nurbs_surface%modify_Xc +proc~modify_xc~2 + + +nurbs_surface%modify_Xc - + -proc~modify_xc~3->none~set~3 - - +proc~modify_xc~2->none~set~2 + + proc~set_c - -nurbs_volume%set_C + +nurbs_volume%set_C proc~set_c->none~set - - + + - + -proc~set_c~3 - - -nurbs_surface%set_C +proc~set_c~2 + + +nurbs_surface%set_C - + -proc~set_c~3->none~set~3 - - +proc~set_c~2->none~set~2 + + proc~set_half_ring - -nurbs_volume%set_half_ring + +nurbs_volume%set_half_ring proc~set_half_ring->none~set - - + + proc~set_half_ring~2 - -nurbs_surface%set_half_ring + +nurbs_surface%set_half_ring - + -proc~set_half_ring~2->none~set~3 - - +proc~set_half_ring~2->none~set~2 + + proc~set_hexahedron - -nurbs_volume%set_hexahedron + +nurbs_volume%set_hexahedron proc~set_hexahedron->none~set - - + + proc~set_ring - -nurbs_volume%set_ring + +nurbs_volume%set_ring proc~set_ring->none~set - - + + proc~set_ring~2 - -nurbs_surface%set_ring + +nurbs_surface%set_ring - + -proc~set_ring~2->none~set~3 - - +proc~set_ring~2->none~set~2 + + proc~set_tetragon - -nurbs_surface%set_tetragon + +nurbs_surface%set_tetragon - + -proc~set_tetragon->none~set~3 - - +proc~set_tetragon->none~set~2 + + program~example_nurbs_surface - -example_nurbs_surface + +example_nurbs_surface - + -program~example_nurbs_surface->none~set~3 - - +program~example_nurbs_surface->none~set~2 + + program~example_nurbs_volume - -example_nurbs_volume + +example_nurbs_volume program~example_nurbs_volume->none~set - - + + program~example_put_to_nurbs - -example_put_to_nurbs + +example_put_to_nurbs program~example_put_to_nurbs->none~set - - + + - + -proc~modify_wc~2 - - -nurbs_curve%modify_Wc +proc~modify_wc~3 + + +nurbs_curve%modify_Wc - + -proc~modify_wc~2->none~set~2 - - +proc~modify_wc~3->none~set~3 + + - + -proc~modify_xc~2 - - -nurbs_curve%modify_Xc +proc~modify_xc~3 + + +nurbs_curve%modify_Xc - + -proc~modify_xc~2->none~set~2 - - +proc~modify_xc~3->none~set~3 + + @@ -1261,119 +1261,119 @@

    Called by

    - + -proc~set_circle->none~set~2 - - +proc~set_circle->none~set~3 + + - + -proc~set_c~2 - +proc~set_c~3 + nurbs_curve%set_C - + -proc~set_c~2->none~set~2 - - +proc~set_c~3->none~set~3 + + proc~set_half_circle - -nurbs_curve%set_half_circle + +nurbs_curve%set_half_circle - + -proc~set_half_circle->none~set~2 - - +proc~set_half_circle->none~set~3 + + program~example_nurbs_curve - -example_nurbs_curve + +example_nurbs_curve - + -program~example_nurbs_curve->none~set~2 - - +program~example_nurbs_curve->none~set~3 + + program~example_ppm1 - -example_ppm1 + +example_ppm1 program~example_ppm1->proc~set_ring~2 - - + + program~example_ppm1->proc~set_tetragon - - + + program~example_ppm2 - -example_ppm2 + +example_ppm2 program~example_ppm2->proc~set_half_ring~2 - - + + program~example_ppm2->proc~set_tetragon - - + + program~example_ppm3 - -example_ppm3 + +example_ppm3 - + -program~example_ppm3->proc~modify_xc~3 - - +program~example_ppm3->proc~modify_xc~2 + + program~example_ppm3->proc~set_tetragon - - + + @@ -1387,173 +1387,173 @@

    Called by

    program~nearest_point_2d->proc~set_tetragon - - + + program~nearest_point_2d_bench - -nearest_point_2d_bench + +nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon - - + + program~nearest_point_3d - -nearest_point_3d + +nearest_point_3d program~nearest_point_3d->proc~set_hexahedron - - + + program~shape_c_2d - -shape_C_2d + +shape_C_2d - + -program~shape_c_2d->proc~set_c~3 - - +program~shape_c_2d->proc~set_c~2 + + program~shape_c_3d - -shape_C_3d + +shape_C_3d program~shape_c_3d->proc~set_c - - + + program~shape_half_ring_2d - -shape_half_ring_2d + +shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 - - + + program~shape_half_ring_3d - -shape_half_ring_3d + +shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring - - + + program~shape_hexahedron - -shape_hexahedron + +shape_hexahedron program~shape_hexahedron->proc~set_hexahedron - - + + program~shape_ring_2d - -shape_ring_2d + +shape_ring_2d program~shape_ring_2d->proc~set_ring~2 - - + + program~shape_ring_3d - -shape_ring_3d + +shape_ring_3d program~shape_ring_3d->proc~set_ring - - + + program~shape_tetragon - -shape_tetragon + +shape_tetragon program~shape_tetragon->proc~set_tetragon - - + + program~nearest_point_1d - -nearest_point_1d + +nearest_point_1d program~nearest_point_1d->proc~set_circle - - + + @@ -1564,9 +1564,9 @@

    Called by

         - + -program~shape_c_1d->proc~set_c~2 +program~shape_c_1d->proc~set_c~3 @@ -1574,31 +1574,31 @@

    Called by

    program~shape_circle - -shape_circle + +shape_circle program~shape_circle->proc~set_circle - - + + program~shape_half_circle - -shape_half_circle + +shape_half_circle program~shape_half_circle->proc~set_half_circle - - + + @@ -1718,7 +1718,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/compute_tgc_bspline_1d.html b/proc/compute_tgc_bspline_1d.html index 2203bed45..842c78249 100644 --- a/proc/compute_tgc_bspline_1d.html +++ b/proc/compute_tgc_bspline_1d.html @@ -275,7 +275,7 @@

    Arguments

    @@ -290,7 +290,7 @@

    Arguments

    @@ -305,7 +305,7 @@

    Arguments

    @@ -320,7 +320,7 @@

    Arguments

    @@ -335,7 +335,7 @@

    Arguments

    @@ -353,7 +353,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:,:)

    @@ -510,7 +510,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/compute_tgc_bspline_2d.html b/proc/compute_tgc_bspline_2d.html index b80d7599a..68b67a70c 100644 --- a/proc/compute_tgc_bspline_2d.html +++ b/proc/compute_tgc_bspline_2d.html @@ -275,7 +275,7 @@

    Arguments

    @@ -320,7 +320,7 @@

    Arguments

    @@ -335,7 +335,7 @@

    Arguments

    @@ -350,7 +350,7 @@

    Arguments

    @@ -368,7 +368,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:,:)

    @@ -540,7 +540,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/compute_tgc_bspline_3d.html b/proc/compute_tgc_bspline_3d.html index 1a3cda35a..04abffc50 100644 --- a/proc/compute_tgc_bspline_3d.html +++ b/proc/compute_tgc_bspline_3d.html @@ -275,7 +275,7 @@

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    @@ -320,7 +320,7 @@

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    @@ -555,7 +555,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/compute_tgc_nurbs_1d.html b/proc/compute_tgc_nurbs_1d.html index 395d225d8..777fd9474 100644 --- a/proc/compute_tgc_nurbs_1d.html +++ b/proc/compute_tgc_nurbs_1d.html @@ -275,7 +275,7 @@

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    @@ -335,7 +335,7 @@

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    @@ -350,7 +350,7 @@

    Arguments

    @@ -368,7 +368,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:,:)

    @@ -525,7 +525,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/compute_tgc_nurbs_2d.html b/proc/compute_tgc_nurbs_2d.html index 6a3d8f43d..2e4f5e8a4 100644 --- a/proc/compute_tgc_nurbs_2d.html +++ b/proc/compute_tgc_nurbs_2d.html @@ -275,7 +275,7 @@

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    @@ -320,7 +320,7 @@

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    @@ -350,7 +350,7 @@

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    @@ -365,7 +365,7 @@

    Arguments

    @@ -383,7 +383,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:,:)

    @@ -555,7 +555,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/compute_tgc_nurbs_3d.html b/proc/compute_tgc_nurbs_3d.html index f3d433468..31f484c7a 100644 --- a/proc/compute_tgc_nurbs_3d.html +++ b/proc/compute_tgc_nurbs_3d.html @@ -275,7 +275,7 @@

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    diff --git a/proc/compute_xg_bspline_1d.html b/proc/compute_xg_bspline_1d.html index a5e1ef586..75a012b52 100644 --- a/proc/compute_xg_bspline_1d.html +++ b/proc/compute_xg_bspline_1d.html @@ -275,7 +275,7 @@

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    @@ -525,7 +525,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

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    diff --git a/proc/compute_xg_bspline_2d.html b/proc/compute_xg_bspline_2d.html index 7da6e728d..b00588e6a 100644 --- a/proc/compute_xg_bspline_2d.html +++ b/proc/compute_xg_bspline_2d.html @@ -275,7 +275,7 @@

    Arguments

    @@ -320,7 +320,7 @@

    Arguments

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    Arguments

    @@ -350,7 +350,7 @@

    Arguments

    @@ -365,7 +365,7 @@

    Arguments

    @@ -383,7 +383,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:,:)

    @@ -555,7 +555,7 @@

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    diff --git a/proc/compute_xg_bspline_3d.html b/proc/compute_xg_bspline_3d.html index 485b0610b..b141cff09 100644 --- a/proc/compute_xg_bspline_3d.html +++ b/proc/compute_xg_bspline_3d.html @@ -275,7 +275,7 @@

    Arguments

    @@ -320,7 +320,7 @@

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    Arguments

    @@ -365,7 +365,7 @@

    Arguments

    @@ -380,7 +380,7 @@

    Arguments

    @@ -398,7 +398,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:,:)

    @@ -570,7 +570,7 @@

    Graph Key

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    diff --git a/proc/compute_xg_nurbs_1d.html b/proc/compute_xg_nurbs_1d.html index 637989983..d56782b12 100644 --- a/proc/compute_xg_nurbs_1d.html +++ b/proc/compute_xg_nurbs_1d.html @@ -275,7 +275,7 @@

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    @@ -290,7 +290,7 @@

    Arguments

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    Arguments

    @@ -350,7 +350,7 @@

    Arguments

    @@ -365,7 +365,7 @@

    Arguments

    @@ -383,7 +383,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:,:)

    @@ -540,7 +540,7 @@

    Graph Key

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    diff --git a/proc/compute_xg_nurbs_2d.html b/proc/compute_xg_nurbs_2d.html index 7662249b0..7254f65bb 100644 --- a/proc/compute_xg_nurbs_2d.html +++ b/proc/compute_xg_nurbs_2d.html @@ -275,7 +275,7 @@

    Arguments

    @@ -320,7 +320,7 @@

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    Arguments

    @@ -365,7 +365,7 @@

    Arguments

    @@ -380,7 +380,7 @@

    Arguments

    @@ -398,7 +398,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:,:)

    @@ -570,7 +570,7 @@

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    diff --git a/proc/compute_xg_nurbs_3d.html b/proc/compute_xg_nurbs_3d.html index 5b7d7315d..ea179a1a5 100644 --- a/proc/compute_xg_nurbs_3d.html +++ b/proc/compute_xg_nurbs_3d.html @@ -275,7 +275,7 @@

    Arguments

    @@ -320,7 +320,7 @@

    Arguments

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    Arguments

    @@ -380,7 +380,7 @@

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    @@ -395,7 +395,7 @@

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    @@ -413,7 +413,7 @@

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    Return Value - + real(kind=rk), allocatable, (:,:)

    @@ -585,7 +585,7 @@

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    diff --git a/proc/create.html b/proc/create.html index ecc77c254..8027ec4c8 100644 --- a/proc/create.html +++ b/proc/create.html @@ -173,7 +173,7 @@

    Arguments

    @@ -188,7 +188,7 @@

    Arguments

    @@ -263,7 +263,7 @@

    Arguments

    @@ -671,7 +671,7 @@

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    diff --git a/proc/create~2.html b/proc/create~2.html index 29aeee3eb..6fc75c7ae 100644 --- a/proc/create~2.html +++ b/proc/create~2.html @@ -78,20 +78,20 @@

    create
  • 52 statements + title=" 1.4% of total for procedures.">68 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure subroutine create(this, res, Xt) +

    private pure subroutine create(this, res1, res2, Xt1, Xt2, Xt)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -169,21 +169,6 @@

    Arguments

    		this -
    - - integer, - intent(in),optional - - ::dir -
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in),
    - + integer, intent(in),
    - + real(kind=rk), intent(in),
    @@ -159,7 +159,7 @@

    Arguments

    @@ -181,7 +181,52 @@

    Arguments

    - + + + + + + + + + + + + + + + + + + + + + + + + + @@ -196,7 +241,7 @@

    Arguments

    contiguous - + @@ -216,31 +261,76 @@

    Calls

    - - + + proc~~create~2~~CallsGraph - + proc~create~2 - -nurbs_curve%create + +nurbs_surface%create - + +interface~ndgrid + + +ndgrid + + + + + +proc~create~2->interface~ndgrid + + + + + proc~is_rational~2 - - -nurbs_curve%is_rational + + +nurbs_surface%is_rational - + proc~create~2->proc~is_rational~2 - - + + + + + +proc~ndgrid2 + + +ndgrid2 + + + + + +interface~ndgrid->proc~ndgrid2 + + + + + +proc~ndgrid3 + + +ndgrid3 + + + + + +interface~ndgrid->proc~ndgrid3 + + @@ -336,106 +426,181 @@

    Called by

    - - + + proc~~create~2~~CalledByGraph - + proc~create~2 - -nurbs_curve%create + +nurbs_surface%create - + -program~example1_curve - - -example1_curve +program~example3_surface + + +example3_surface - + -program~example1_curve->proc~create~2 - - +program~example3_surface->proc~create~2 + + - + -program~example_nurbs_curve - - -example_nurbs_curve +program~example_nurbs_surface + + +example_nurbs_surface - + -program~example_nurbs_curve->proc~create~2 - - +program~example_nurbs_surface->proc~create~2 + + - + -program~nearest_point_1d - - -nearest_point_1d +program~example_ppm1 + + +example_ppm1 - + -program~nearest_point_1d->proc~create~2 - - +program~example_ppm1->proc~create~2 + + - + -program~shape_c_1d - - -shape_C_1d +program~example_ppm2 + + +example_ppm2 - + -program~shape_c_1d->proc~create~2 - - +program~example_ppm2->proc~create~2 + + - + -program~shape_circle - - -shape_circle +program~example_ppm3 + + +example_ppm3 - + -program~shape_circle->proc~create~2 - - +program~example_ppm3->proc~create~2 + + - + -program~shape_half_circle - - -shape_half_circle +program~nearest_point_2d + + +nearest_point_2d - + -program~shape_half_circle->proc~create~2 - - +program~nearest_point_2d->proc~create~2 + + + + + +program~nearest_point_2d_bench + + +nearest_point_2d_bench + + + + + +program~nearest_point_2d_bench->proc~create~2 + + + + + +program~shape_c_2d + + +shape_C_2d + + + + + +program~shape_c_2d->proc~create~2 + + + + + +program~shape_half_ring_2d + + +shape_half_ring_2d + + + + + +program~shape_half_ring_2d->proc~create~2 + + + + + +program~shape_ring_2d + + +shape_ring_2d + + + + + +program~shape_ring_2d->proc~create~2 + + + + + +program~shape_tetragon + + +shape_tetragon + + + + + +program~shape_tetragon->proc~create~2 + + @@ -551,7 +716,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/create~3.html b/proc/create~3.html index 57046b069..c9760cba2 100644 --- a/proc/create~3.html +++ b/proc/create~3.html @@ -78,20 +78,20 @@

    create
  • 68 statements + title=" 1.1% of total for procedures.">52 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure subroutine create(this, res1, res2, Xt1, Xt2, Xt) +

    private pure subroutine create(this, res, Xt)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    - class(nurbs_curve), + class(nurbs_surface), intent(inout) @@ -173,7 +173,7 @@

    Arguments

    - + integer, intent(in), ::resres1 + +
    + + integer, + intent(in),optional + + ::res2 + +
    + + real(kind=rk), + intent(in),optional, + contiguous + ::Xt1(:) + +
    + + real(kind=rk), + intent(in),optional, + contiguous + ::Xt2(:) ::Xt(:)Xt(:,:)
    @@ -158,8 +158,8 @@

    Arguments

    @@ -181,52 +181,7 @@

    Arguments

    - - - - - - - - - - - - - - - - - - - - - - - - - + @@ -241,7 +196,7 @@

    Arguments

    contiguous - + @@ -261,76 +216,31 @@

    Calls

    - - + + proc~~create~3~~CallsGraph - + proc~create~3 - -nurbs_surface%create - - - -interface~ndgrid - - -ndgrid - - - - - -proc~create~3->interface~ndgrid - - + +nurbs_curve%create - + proc~is_rational~3 - - -nurbs_surface%is_rational + + +nurbs_curve%is_rational - + proc~create~3->proc~is_rational~3 - - - - - -proc~ndgrid2 - - -ndgrid2 - - - - - -interface~ndgrid->proc~ndgrid2 - - - - - -proc~ndgrid3 - - -ndgrid3 - - - - - -interface~ndgrid->proc~ndgrid3 - - + + @@ -426,181 +336,106 @@

    Called by

    - - + + proc~~create~3~~CalledByGraph - + proc~create~3 - -nurbs_surface%create + +nurbs_curve%create - + -program~example3_surface - - -example3_surface +program~example1_curve + + +example1_curve - + -program~example3_surface->proc~create~3 - - +program~example1_curve->proc~create~3 + + - + -program~example_nurbs_surface - - -example_nurbs_surface +program~example_nurbs_curve + + +example_nurbs_curve - + -program~example_nurbs_surface->proc~create~3 - - +program~example_nurbs_curve->proc~create~3 + + - + -program~example_ppm1 - - -example_ppm1 +program~nearest_point_1d + + +nearest_point_1d - + -program~example_ppm1->proc~create~3 - - +program~nearest_point_1d->proc~create~3 + + - + -program~example_ppm2 - - -example_ppm2 +program~shape_c_1d + + +shape_C_1d - + -program~example_ppm2->proc~create~3 - - +program~shape_c_1d->proc~create~3 + + - + -program~example_ppm3 - - -example_ppm3 +program~shape_circle + + +shape_circle - + -program~example_ppm3->proc~create~3 - - +program~shape_circle->proc~create~3 + + - + -program~nearest_point_2d - - -nearest_point_2d +program~shape_half_circle + + +shape_half_circle - + -program~nearest_point_2d->proc~create~3 - - - - - -program~nearest_point_2d_bench - - -nearest_point_2d_bench - - - - - -program~nearest_point_2d_bench->proc~create~3 - - - - - -program~shape_c_2d - - -shape_C_2d - - - - - -program~shape_c_2d->proc~create~3 - - - - - -program~shape_half_ring_2d - - -shape_half_ring_2d - - - - - -program~shape_half_ring_2d->proc~create~3 - - - - - -program~shape_ring_2d - - -shape_ring_2d - - - - - -program~shape_ring_2d->proc~create~3 - - - - - -program~shape_tetragon - - -shape_tetragon - - - - - -program~shape_tetragon->proc~create~3 - - +program~shape_half_circle->proc~create~3 + + @@ -716,7 +551,7 @@

    Graph Key

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    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/derivative.html b/proc/derivative.html index 321a55a23..66e80f4b9 100644 --- a/proc/derivative.html +++ b/proc/derivative.html @@ -173,7 +173,7 @@

    Arguments

    @@ -188,7 +188,7 @@

    Arguments

    @@ -476,7 +476,7 @@

    Graph Key

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    diff --git a/proc/derivative~2.html b/proc/derivative~2.html index c248a03dd..2884907a6 100644 --- a/proc/derivative~2.html +++ b/proc/derivative~2.html @@ -78,20 +78,20 @@

    derivative
  • 44 statements + title=" 1.2% of total for procedures.">55 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure subroutine derivative(this, res, Xt, dTgc) +

    private pure subroutine derivative(this, res1, res2, Xt1, Xt2, dTgc)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -173,7 +173,7 @@

    Arguments

    - + integer, intent(in), ::res1 - -
    - - integer, - intent(in),optional - - ::res2 - -
    - - real(kind=rk), - intent(in),optional, - contiguous - ::Xt1(:) - -
    - - real(kind=rk), - intent(in),optional, - contiguous - ::Xt2(:)res ::Xt(:,:)Xt(:)
    - + integer, intent(in),
    - + integer, intent(in),
    @@ -158,8 +158,8 @@

    Arguments

    @@ -181,14 +181,44 @@

    Arguments

    - + + + + + + + + + + + + + + + + + @@ -196,7 +226,7 @@

    Arguments

    contiguous - + @@ -231,31 +261,76 @@

    Calls

    - - + + proc~~derivative~2~~CallsGraph - + proc~derivative~2 - -nurbs_curve%derivative + +nurbs_surface%derivative - + +interface~ndgrid + + +ndgrid + + + + + +proc~derivative~2->interface~ndgrid + + + + + proc~is_rational~2 - - -nurbs_curve%is_rational + + +nurbs_surface%is_rational - + proc~derivative~2->proc~is_rational~2 - - + + + + + +proc~ndgrid2 + + +ndgrid2 + + + + + +interface~ndgrid->proc~ndgrid2 + + + + + +proc~ndgrid3 + + +ndgrid3 + + + + + +interface~ndgrid->proc~ndgrid3 + + @@ -371,7 +446,7 @@

    Graph Key

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    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/derivative~3.html b/proc/derivative~3.html index bc9736ecf..0662c4983 100644 --- a/proc/derivative~3.html +++ b/proc/derivative~3.html @@ -78,20 +78,20 @@

    derivative
  • 55 statements + title=" 0.9% of total for procedures.">44 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure subroutine derivative(this, res1, res2, Xt1, Xt2, dTgc) +

    private pure subroutine derivative(this, res, Xt, dTgc)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(inout) @@ -173,7 +173,7 @@

    Arguments

    - + integer, intent(in), ::resres1
    - + + integer, + intent(in),optional + + ::res2 + +
    + + real(kind=rk), + intent(in),optional, + contiguous + ::Xt1(:) + +
    + real(kind=rk), intent(in), ::Xt(:)Xt2(:)
    @@ -158,8 +158,8 @@

    Arguments

    @@ -181,44 +181,14 @@

    Arguments

    - + - - - - - - - - - - - - - - - - @@ -226,7 +196,7 @@

    Arguments

    contiguous - + @@ -261,76 +231,31 @@

    Calls

    - - + + proc~~derivative~3~~CallsGraph - + proc~derivative~3 - -nurbs_surface%derivative - - - -interface~ndgrid - - -ndgrid - - - - - -proc~derivative~3->interface~ndgrid - - + +nurbs_curve%derivative - + proc~is_rational~3 - - -nurbs_surface%is_rational + + +nurbs_curve%is_rational - + proc~derivative~3->proc~is_rational~3 - - - - - -proc~ndgrid2 - - -ndgrid2 - - - - - -interface~ndgrid->proc~ndgrid2 - - - - - -proc~ndgrid3 - - -ndgrid3 - - - - - -interface~ndgrid->proc~ndgrid3 - - + + @@ -446,7 +371,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/elevate_degree.html b/proc/elevate_degree.html index a369baa46..3886fa76c 100644 --- a/proc/elevate_degree.html +++ b/proc/elevate_degree.html @@ -188,7 +188,7 @@

    Arguments

    @@ -759,7 +759,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/elevate_degree_a_5_9.html b/proc/elevate_degree_a_5_9.html index 65ce79ad7..332f49265 100644 --- a/proc/elevate_degree_a_5_9.html +++ b/proc/elevate_degree_a_5_9.html @@ -156,7 +156,7 @@

    Arguments

    @@ -171,7 +171,7 @@

    Arguments

    @@ -186,7 +186,7 @@

    Arguments

    @@ -201,7 +201,7 @@

    Arguments

    @@ -216,7 +216,7 @@

    Arguments

    @@ -231,7 +231,7 @@

    Arguments

    @@ -246,7 +246,7 @@

    Arguments

    @@ -483,24 +483,24 @@

    Called by

    proc~elevate_degree~2 - - -nurbs_curve%elevate_degree + + +nurbs_surface%elevate_degree proc~elevate_degree~2->proc~elevate_degree_a_5_9 - - + + proc~elevate_degree~3 - - -nurbs_surface%elevate_degree + + +nurbs_curve%elevate_degree @@ -514,31 +514,31 @@

    Called by

    program~example1_curve - -example1_curve + +example1_curve - - -program~example1_curve->proc~elevate_degree~2 - - + + +program~example1_curve->proc~elevate_degree~3 + + program~example3_surface - -example3_surface + +example3_surface - - -program~example3_surface->proc~elevate_degree~3 - - + + +program~example3_surface->proc~elevate_degree~2 + + @@ -669,7 +669,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/elevate_degree~2.html b/proc/elevate_degree~2.html index b1d0e2423..820881276 100644 --- a/proc/elevate_degree~2.html +++ b/proc/elevate_degree~2.html @@ -78,20 +78,20 @@

    elevate_degree
  • 28 statements + title=" 1.5% of total for procedures.">72 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure subroutine elevate_degree(this, t) +

    private pure subroutine elevate_degree(this, dir, t)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -173,7 +173,7 @@

    Arguments

    - + integer, intent(in), ::res1res
    - - integer, - intent(in),optional - - ::res2 - -
    - - real(kind=rk), - intent(in),optional, - contiguous - ::Xt1(:) - -
    - + real(kind=rk), intent(in), ::Xt2(:)Xt(:)
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + integer, intent(out)
    - + real(kind=rk), intent(out),
    - + real(kind=rk), intent(out),
    @@ -158,8 +158,8 @@

    Arguments

    + + + + + + + + @@ -201,253 +216,325 @@

    Calls

    - - + + proc~~elevate_degree~2~~CallsGraph - + proc~elevate_degree~2 - -nurbs_curve%elevate_degree + +nurbs_surface%elevate_degree - + +none~get_knot~2 + + +nurbs_surface%get_knot + + + + + +proc~elevate_degree~2->none~get_knot~2 + + + + + none~set~2 - - -nurbs_curve%set + + +nurbs_surface%set - + proc~elevate_degree~2->none~set~2 - - + + - + proc~elevate_degree_a_5_9 - - -elevate_degree_A_5_9 + + +elevate_degree_A_5_9 - + proc~elevate_degree~2->proc~elevate_degree_a_5_9 - - + + - + proc~is_rational~2 - - -nurbs_curve%is_rational + + +nurbs_surface%is_rational - + proc~elevate_degree~2->proc~is_rational~2 - - + + + + + +proc~get_knot_all~2 + + +nurbs_surface%get_knot_all + + + + + +none~get_knot~2->proc~get_knot_all~2 + + + + + +proc~get_knoti~2 + + +nurbs_surface%get_knoti + + + + + +none~get_knot~2->proc~get_knoti~2 + + - + proc~set1~2 - - -nurbs_curve%set1 + + +nurbs_surface%set1 - + none~set~2->proc~set1~2 - - + + - + proc~set2~2 - - -nurbs_curve%set2 + + +nurbs_surface%set2 - + none~set~2->proc~set2~2 - - + + - + proc~set3~2 - - -nurbs_curve%set3 + + +nurbs_surface%set3 - + none~set~2->proc~set3~2 - - + + - + interface~compute_multiplicity - - -compute_multiplicity + + +compute_multiplicity - + proc~elevate_degree_a_5_9->interface~compute_multiplicity - - + + - + proc~bincoeff - - -bincoeff + + +bincoeff - + proc~elevate_degree_a_5_9->proc~bincoeff - - + + - + proc~compute_multiplicity1 - - -compute_multiplicity1 + + +compute_multiplicity1 - + interface~compute_multiplicity->proc~compute_multiplicity1 - - + + - + proc~compute_multiplicity2 - - -compute_multiplicity2 + + +compute_multiplicity2 - + interface~compute_multiplicity->proc~compute_multiplicity2 - - + + - + proc~factln - - -factln + + +factln - + proc~bincoeff->proc~factln - - + + - + proc~cmp_degree~2 - - -nurbs_curve%cmp_degree + + +nurbs_surface%cmp_degree - + proc~set1~2->proc~cmp_degree~2 - - + + + + + +proc~cmp_nc~2 + + +nurbs_surface%cmp_nc + + + + + +proc~set1~2->proc~cmp_nc~2 + + + + + +proc~set2~2->proc~cmp_nc~2 + + - + proc~compute_knot_vector - - -compute_knot_vector + + +compute_knot_vector - + proc~set2~2->proc~compute_knot_vector - - + + - + proc~set3~2->proc~cmp_degree~2 - - + + - + proc~get_multiplicity~2 - - -nurbs_curve%get_multiplicity + + +nurbs_surface%get_multiplicity - + proc~cmp_degree~2->proc~get_multiplicity~2 - - + + + + + +proc~cmp_nc~2->interface~compute_multiplicity + + - + proc~repelem - - -repelem + + +repelem - + proc~compute_knot_vector->proc~repelem - - + + - + proc~get_multiplicity~2->interface~compute_multiplicity - - + + @@ -547,31 +634,31 @@

    Called by

    - + proc~~elevate_degree~2~~CalledByGraph - + proc~elevate_degree~2 - -nurbs_curve%elevate_degree + +nurbs_surface%elevate_degree - + -program~example1_curve - - -example1_curve +program~example3_surface + + +example3_surface - + -program~example1_curve->proc~elevate_degree~2 - - +program~example3_surface->proc~elevate_degree~2 + + @@ -687,7 +774,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/elevate_degree~3.html b/proc/elevate_degree~3.html index 971577292..58bdf8628 100644 --- a/proc/elevate_degree~3.html +++ b/proc/elevate_degree~3.html @@ -78,20 +78,20 @@

    elevate_degree
  • 72 statements + title=" 0.6% of total for procedures.">28 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure subroutine elevate_degree(this, dir, t) +

    private pure subroutine elevate_degree(this, t)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(inout) @@ -173,7 +173,22 @@

    Arguments

    - + + integer, + intent(in) + + ::dir + +
    + integer, intent(in)
    @@ -158,8 +158,8 @@

    Arguments

    - - - - - - - -
    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -171,21 +171,6 @@

    Arguments
    - - integer, - intent(in) - - ::dir - -
    @@ -216,325 +201,253 @@

    Calls

    - - + + proc~~elevate_degree~3~~CallsGraph - + proc~elevate_degree~3 - -nurbs_surface%elevate_degree - - - -none~get_knot~3 - - -nurbs_surface%get_knot - - - - - -proc~elevate_degree~3->none~get_knot~3 - - + +nurbs_curve%elevate_degree - + none~set~3 - - -nurbs_surface%set + + +nurbs_curve%set - + proc~elevate_degree~3->none~set~3 - - + + - + proc~elevate_degree_a_5_9 - - -elevate_degree_A_5_9 + + +elevate_degree_A_5_9 - + proc~elevate_degree~3->proc~elevate_degree_a_5_9 - - + + - + proc~is_rational~3 - - -nurbs_surface%is_rational + + +nurbs_curve%is_rational - + proc~elevate_degree~3->proc~is_rational~3 - - - - - -proc~get_knot_all~3 - - -nurbs_surface%get_knot_all - - - - - -none~get_knot~3->proc~get_knot_all~3 - - - - - -proc~get_knoti~3 - - -nurbs_surface%get_knoti - - - - - -none~get_knot~3->proc~get_knoti~3 - - + + - + proc~set1~3 - - -nurbs_surface%set1 + + +nurbs_curve%set1 - + none~set~3->proc~set1~3 - - + + - + proc~set2~3 - - -nurbs_surface%set2 + + +nurbs_curve%set2 - + none~set~3->proc~set2~3 - - + + - + proc~set3~3 - - -nurbs_surface%set3 + + +nurbs_curve%set3 - + none~set~3->proc~set3~3 - - + + - + interface~compute_multiplicity - - -compute_multiplicity + + +compute_multiplicity - + proc~elevate_degree_a_5_9->interface~compute_multiplicity - - + + - + proc~bincoeff - - -bincoeff + + +bincoeff - + proc~elevate_degree_a_5_9->proc~bincoeff - - + + - + proc~compute_multiplicity1 - - -compute_multiplicity1 + + +compute_multiplicity1 - + interface~compute_multiplicity->proc~compute_multiplicity1 - - + + - + proc~compute_multiplicity2 - - -compute_multiplicity2 + + +compute_multiplicity2 - + interface~compute_multiplicity->proc~compute_multiplicity2 - - + + - + proc~factln - - -factln + + +factln - + proc~bincoeff->proc~factln - - + + - + proc~cmp_degree~3 - - -nurbs_surface%cmp_degree + + +nurbs_curve%cmp_degree - + proc~set1~3->proc~cmp_degree~3 - - - - - -proc~cmp_nc~3 - - -nurbs_surface%cmp_nc - - - - - -proc~set1~3->proc~cmp_nc~3 - - - - - -proc~set2~3->proc~cmp_nc~3 - - + + - + proc~compute_knot_vector - - -compute_knot_vector + + +compute_knot_vector - + proc~set2~3->proc~compute_knot_vector - - + + - + proc~set3~3->proc~cmp_degree~3 - - + + - + proc~get_multiplicity~3 - - -nurbs_surface%get_multiplicity + + +nurbs_curve%get_multiplicity - + proc~cmp_degree~3->proc~get_multiplicity~3 - - - - - -proc~cmp_nc~3->interface~compute_multiplicity - - + + - + proc~repelem - - -repelem + + +repelem - + proc~compute_knot_vector->proc~repelem - - + + - + proc~get_multiplicity~3->interface~compute_multiplicity - - + + @@ -634,31 +547,31 @@

    Called by

    - + proc~~elevate_degree~3~~CalledByGraph - + proc~elevate_degree~3 - -nurbs_surface%elevate_degree + +nurbs_curve%elevate_degree - + -program~example3_surface - - -example3_surface +program~example1_curve + + +example1_curve - + -program~example3_surface->proc~elevate_degree~3 - - +program~example1_curve->proc~elevate_degree~3 + + @@ -774,7 +687,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/export_xc.html b/proc/export_xc.html index 72355ea45..d8fe39b9d 100644 --- a/proc/export_xc.html +++ b/proc/export_xc.html @@ -615,7 +615,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/export_xc~2.html b/proc/export_xc~2.html index 25e8a1913..18e4d6c59 100644 --- a/proc/export_xc~2.html +++ b/proc/export_xc~2.html @@ -83,15 +83,15 @@

    export_Xc
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private impure subroutine export_Xc(this, filename)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(in) @@ -201,91 +201,91 @@

    Calls

    - - + + proc~~export_xc~2~~CallsGraph - + proc~export_xc~2 - -nurbs_curve%export_Xc + +nurbs_surface%export_Xc proc~cmp_elem_xc_vis~2 - - -nurbs_curve%cmp_elem_Xc_vis + + +nurbs_surface%cmp_elem_Xc_vis proc~export_xc~2->proc~cmp_elem_xc_vis~2 - - + + interface~elemconn_c0 - -elemConn_C0 + +elemConn_C0 proc~cmp_elem_xc_vis~2->interface~elemconn_c0 - - + + proc~cmp_elemconn_c0_l - -cmp_elemConn_C0_L + +cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l - - + + proc~cmp_elemconn_c0_s - -cmp_elemConn_C0_S + +cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s - - + + proc~cmp_elemconn_c0_v - -cmp_elemConn_C0_V + +cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v - - + + @@ -385,91 +385,106 @@

    Called by

    - - + + proc~~export_xc~2~~CalledByGraph - + proc~export_xc~2 - -nurbs_curve%export_Xc + +nurbs_surface%export_Xc - + -program~example1_curve - - -example1_curve +program~example3_surface + + +example3_surface - + -program~example1_curve->proc~export_xc~2 - - +program~example3_surface->proc~export_xc~2 + + - + -program~example_nurbs_curve - - -example_nurbs_curve +program~example_nurbs_surface + + +example_nurbs_surface - + -program~example_nurbs_curve->proc~export_xc~2 - - +program~example_nurbs_surface->proc~export_xc~2 + + - + -program~shape_c_1d - - -shape_C_1d +program~shape_c_2d + + +shape_C_2d - + -program~shape_c_1d->proc~export_xc~2 - - +program~shape_c_2d->proc~export_xc~2 + + - + -program~shape_circle - - -shape_circle +program~shape_half_ring_2d + + +shape_half_ring_2d - + -program~shape_circle->proc~export_xc~2 - - +program~shape_half_ring_2d->proc~export_xc~2 + + - + -program~shape_half_circle - - -shape_half_circle +program~shape_ring_2d + + +shape_ring_2d - + -program~shape_half_circle->proc~export_xc~2 - - +program~shape_ring_2d->proc~export_xc~2 + + + + + +program~shape_tetragon + + +shape_tetragon + + + + + +program~shape_tetragon->proc~export_xc~2 + + @@ -585,7 +600,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/export_xc~3.html b/proc/export_xc~3.html index 9bedf8435..01b632a25 100644 --- a/proc/export_xc~3.html +++ b/proc/export_xc~3.html @@ -83,15 +83,15 @@

    export_Xc
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private impure subroutine export_Xc(this, filename)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -201,91 +201,91 @@

    Calls

    - - + + proc~~export_xc~3~~CallsGraph - + proc~export_xc~3 - -nurbs_surface%export_Xc + +nurbs_curve%export_Xc proc~cmp_elem_xc_vis~3 - - -nurbs_surface%cmp_elem_Xc_vis + + +nurbs_curve%cmp_elem_Xc_vis proc~export_xc~3->proc~cmp_elem_xc_vis~3 - - + + interface~elemconn_c0 - -elemConn_C0 + +elemConn_C0 proc~cmp_elem_xc_vis~3->interface~elemconn_c0 - - + + proc~cmp_elemconn_c0_l - -cmp_elemConn_C0_L + +cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l - - + + proc~cmp_elemconn_c0_s - -cmp_elemConn_C0_S + +cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s - - + + proc~cmp_elemconn_c0_v - -cmp_elemConn_C0_V + +cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v - - + + @@ -385,106 +385,91 @@

    Called by

    - - + + proc~~export_xc~3~~CalledByGraph - + proc~export_xc~3 - -nurbs_surface%export_Xc + +nurbs_curve%export_Xc - + -program~example3_surface - - -example3_surface +program~example1_curve + + +example1_curve - + -program~example3_surface->proc~export_xc~3 - - +program~example1_curve->proc~export_xc~3 + + - + -program~example_nurbs_surface - - -example_nurbs_surface +program~example_nurbs_curve + + +example_nurbs_curve - + -program~example_nurbs_surface->proc~export_xc~3 - - +program~example_nurbs_curve->proc~export_xc~3 + + - + -program~shape_c_2d - - -shape_C_2d +program~shape_c_1d + + +shape_C_1d - + -program~shape_c_2d->proc~export_xc~3 - - +program~shape_c_1d->proc~export_xc~3 + + - + -program~shape_half_ring_2d - - -shape_half_ring_2d +program~shape_circle + + +shape_circle - + -program~shape_half_ring_2d->proc~export_xc~3 - - +program~shape_circle->proc~export_xc~3 + + - + -program~shape_ring_2d - - -shape_ring_2d +program~shape_half_circle + + +shape_half_circle - + -program~shape_ring_2d->proc~export_xc~3 - - - - - -program~shape_tetragon - - -shape_tetragon - - - - - -program~shape_tetragon->proc~export_xc~3 - - +program~shape_half_circle->proc~export_xc~3 + + @@ -600,7 +585,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/export_xg.html b/proc/export_xg.html index fbd0d2130..cace4c912 100644 --- a/proc/export_xg.html +++ b/proc/export_xg.html @@ -615,7 +615,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/export_xg~2.html b/proc/export_xg~2.html index e191c686c..0a16ef2b5 100644 --- a/proc/export_xg~2.html +++ b/proc/export_xg~2.html @@ -83,15 +83,15 @@

    export_Xg
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private impure subroutine export_Xg(this, filename)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(in) @@ -201,91 +201,91 @@

    Calls

    - - + + proc~~export_xg~2~~CallsGraph - + proc~export_xg~2 - -nurbs_curve%export_Xg + +nurbs_surface%export_Xg proc~cmp_elem_xg_vis~2 - - -nurbs_curve%cmp_elem_Xg_vis + + +nurbs_surface%cmp_elem_Xg_vis proc~export_xg~2->proc~cmp_elem_xg_vis~2 - - + + interface~elemconn_c0 - -elemConn_C0 + +elemConn_C0 proc~cmp_elem_xg_vis~2->interface~elemconn_c0 - - + + proc~cmp_elemconn_c0_l - -cmp_elemConn_C0_L + +cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l - - + + proc~cmp_elemconn_c0_s - -cmp_elemConn_C0_S + +cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s - - + + proc~cmp_elemconn_c0_v - -cmp_elemConn_C0_V + +cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v - - + + @@ -385,91 +385,106 @@

    Called by

    - - + + proc~~export_xg~2~~CalledByGraph - + proc~export_xg~2 - -nurbs_curve%export_Xg + +nurbs_surface%export_Xg - + -program~example1_curve - - -example1_curve +program~example3_surface + + +example3_surface - + -program~example1_curve->proc~export_xg~2 - - +program~example3_surface->proc~export_xg~2 + + - + -program~example_nurbs_curve - - -example_nurbs_curve +program~example_nurbs_surface + + +example_nurbs_surface - + -program~example_nurbs_curve->proc~export_xg~2 - - +program~example_nurbs_surface->proc~export_xg~2 + + - + -program~shape_c_1d - - -shape_C_1d +program~shape_c_2d + + +shape_C_2d - + -program~shape_c_1d->proc~export_xg~2 - - +program~shape_c_2d->proc~export_xg~2 + + - + -program~shape_circle - - -shape_circle +program~shape_half_ring_2d + + +shape_half_ring_2d - + -program~shape_circle->proc~export_xg~2 - - +program~shape_half_ring_2d->proc~export_xg~2 + + - + -program~shape_half_circle - - -shape_half_circle +program~shape_ring_2d + + +shape_ring_2d - + -program~shape_half_circle->proc~export_xg~2 - - +program~shape_ring_2d->proc~export_xg~2 + + + + + +program~shape_tetragon + + +shape_tetragon + + + + + +program~shape_tetragon->proc~export_xg~2 + + @@ -585,7 +600,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/export_xg~3.html b/proc/export_xg~3.html index 58fe52adf..416aea8da 100644 --- a/proc/export_xg~3.html +++ b/proc/export_xg~3.html @@ -83,15 +83,15 @@

    export_Xg
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private impure subroutine export_Xg(this, filename)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    @@ -250,24 +250,24 @@

    Called by

    proc~elevate_degree~2 - - -nurbs_curve%elevate_degree + + +nurbs_surface%elevate_degree proc~elevate_degree~2->proc~elevate_degree_a_5_9 - - + + proc~elevate_degree~3 - - -nurbs_surface%elevate_degree + + +nurbs_curve%elevate_degree @@ -281,31 +281,31 @@

    Called by

    program~example1_curve - -example1_curve + +example1_curve - - -program~example1_curve->proc~elevate_degree~2 - - + + +program~example1_curve->proc~elevate_degree~3 + + program~example3_surface - -example3_surface + +example3_surface - - -program~example3_surface->proc~elevate_degree~3 - - + + +program~example3_surface->proc~elevate_degree~2 + + @@ -440,7 +440,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/finalize.html b/proc/finalize.html index d8a9aba5b..bf6198bee 100644 --- a/proc/finalize.html +++ b/proc/finalize.html @@ -431,7 +431,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/finalize~2.html b/proc/finalize~2.html index fbb2a3325..549329eb8 100644 --- a/proc/finalize~2.html +++ b/proc/finalize~2.html @@ -78,20 +78,20 @@

    finalize
  • 11 statements + title=" 0.3% of total for procedures.">14 statements
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure subroutine finalize(this)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -201,91 +201,91 @@

    Calls

    - - + + proc~~export_xg~3~~CallsGraph - + proc~export_xg~3 - -nurbs_surface%export_Xg + +nurbs_curve%export_Xg proc~cmp_elem_xg_vis~3 - - -nurbs_surface%cmp_elem_Xg_vis + + +nurbs_curve%cmp_elem_Xg_vis proc~export_xg~3->proc~cmp_elem_xg_vis~3 - - + + interface~elemconn_c0 - -elemConn_C0 + +elemConn_C0 proc~cmp_elem_xg_vis~3->interface~elemconn_c0 - - + + proc~cmp_elemconn_c0_l - -cmp_elemConn_C0_L + +cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l - - + + proc~cmp_elemconn_c0_s - -cmp_elemConn_C0_S + +cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s - - + + proc~cmp_elemconn_c0_v - -cmp_elemConn_C0_V + +cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v - - + + @@ -385,106 +385,91 @@

    Called by

    - - + + proc~~export_xg~3~~CalledByGraph - + proc~export_xg~3 - -nurbs_surface%export_Xg + +nurbs_curve%export_Xg - + -program~example3_surface - - -example3_surface +program~example1_curve + + +example1_curve - + -program~example3_surface->proc~export_xg~3 - - +program~example1_curve->proc~export_xg~3 + + - + -program~example_nurbs_surface - - -example_nurbs_surface +program~example_nurbs_curve + + +example_nurbs_curve - + -program~example_nurbs_surface->proc~export_xg~3 - - +program~example_nurbs_curve->proc~export_xg~3 + + - + -program~shape_c_2d - - -shape_C_2d +program~shape_c_1d + + +shape_C_1d - + -program~shape_c_2d->proc~export_xg~3 - - +program~shape_c_1d->proc~export_xg~3 + + - + -program~shape_half_ring_2d - - -shape_half_ring_2d +program~shape_circle + + +shape_circle - + -program~shape_half_ring_2d->proc~export_xg~3 - - +program~shape_circle->proc~export_xg~3 + + - + -program~shape_ring_2d - - -shape_ring_2d +program~shape_half_circle + + +shape_half_circle - + -program~shape_ring_2d->proc~export_xg~3 - - - - - -program~shape_tetragon - - -shape_tetragon - - - - - -program~shape_tetragon->proc~export_xg~3 - - +program~shape_half_circle->proc~export_xg~3 + + @@ -600,7 +585,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/factln.html b/proc/factln.html index 2c1f4d1e9..4ca2b7bdb 100644 --- a/proc/factln.html +++ b/proc/factln.html @@ -156,7 +156,7 @@

    Arguments
    - + integer, intent(in)
    @@ -158,8 +158,8 @@

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(inout) @@ -186,106 +186,181 @@

    Called by

    - - + + proc~~finalize~2~~CalledByGraph - + proc~finalize~2 - -nurbs_curve%finalize + +nurbs_surface%finalize - + -program~example1_curve - - -example1_curve +program~example3_surface + + +example3_surface - + -program~example1_curve->proc~finalize~2 - - +program~example3_surface->proc~finalize~2 + + - + -program~example_nurbs_curve - - -example_nurbs_curve +program~example_nurbs_surface + + +example_nurbs_surface - + -program~example_nurbs_curve->proc~finalize~2 - - +program~example_nurbs_surface->proc~finalize~2 + + - + -program~nearest_point_1d - - -nearest_point_1d +program~example_ppm1 + + +example_ppm1 - + -program~nearest_point_1d->proc~finalize~2 - - +program~example_ppm1->proc~finalize~2 + + - + -program~shape_c_1d - - -shape_C_1d +program~example_ppm2 + + +example_ppm2 - + -program~shape_c_1d->proc~finalize~2 - - +program~example_ppm2->proc~finalize~2 + + - + -program~shape_circle - - -shape_circle +program~example_ppm3 + + +example_ppm3 - + -program~shape_circle->proc~finalize~2 - - +program~example_ppm3->proc~finalize~2 + + - + -program~shape_half_circle - - -shape_half_circle +program~nearest_point_2d + + +nearest_point_2d - + -program~shape_half_circle->proc~finalize~2 - - +program~nearest_point_2d->proc~finalize~2 + + + + + +program~nearest_point_2d_bench + + +nearest_point_2d_bench + + + + + +program~nearest_point_2d_bench->proc~finalize~2 + + + + + +program~shape_c_2d + + +shape_C_2d + + + + + +program~shape_c_2d->proc~finalize~2 + + + + + +program~shape_half_ring_2d + + +shape_half_ring_2d + + + + + +program~shape_half_ring_2d->proc~finalize~2 + + + + + +program~shape_ring_2d + + +shape_ring_2d + + + + + +program~shape_ring_2d->proc~finalize~2 + + + + + +program~shape_tetragon + + +shape_tetragon + + + + + +program~shape_tetragon->proc~finalize~2 + + @@ -401,7 +476,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/finalize~3.html b/proc/finalize~3.html index ae3f2425d..079832049 100644 --- a/proc/finalize~3.html +++ b/proc/finalize~3.html @@ -78,20 +78,20 @@

    finalize
  • 14 statements + title=" 0.2% of total for procedures.">11 statements
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure subroutine finalize(this)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    @@ -171,7 +171,7 @@

    Arguments

    @@ -186,7 +186,7 @@

    Arguments

    @@ -201,7 +201,7 @@

    Arguments

    @@ -219,7 +219,7 @@

    Arguments

    Return Value - + integer

    @@ -265,24 +265,24 @@

    Called by

    proc~insert_knots~2 - - -nurbs_curve%insert_knots + + +nurbs_surface%insert_knots proc~insert_knots~2->proc~findspan - - + + proc~insert_knots~3 - - -nurbs_surface%insert_knots + + +nurbs_curve%insert_knots @@ -310,24 +310,24 @@

    Called by

    proc~remove_knots~2 - - -nurbs_curve%remove_knots + + +nurbs_surface%remove_knots proc~remove_knots~2->proc~findspan - - + + proc~remove_knots~3 - - -nurbs_surface%remove_knots + + +nurbs_curve%remove_knots @@ -341,43 +341,43 @@

    Called by

    program~example1_curve - -example1_curve + +example1_curve - - -program~example1_curve->proc~insert_knots~2 - - + + +program~example1_curve->proc~insert_knots~3 + + - - -program~example1_curve->proc~remove_knots~2 - - + + +program~example1_curve->proc~remove_knots~3 + + program~example3_surface - -example3_surface + +example3_surface - - -program~example3_surface->proc~insert_knots~3 - - + + +program~example3_surface->proc~insert_knots~2 + + - - -program~example3_surface->proc~remove_knots~3 - - + + +program~example3_surface->proc~remove_knots~2 + + @@ -514,7 +514,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/generate_xc.html b/proc/generate_xc.html index 7e1d24b60..0730a8356 100644 --- a/proc/generate_xc.html +++ b/proc/generate_xc.html @@ -82,15 +82,15 @@

    generate_Xc
  • - Source File + Source File
    • @@ -220,31 +220,31 @@

    Called by

    - + proc~~generate_xc~~CalledByGraph - + proc~generate_xc - -generate_Xc + +generate_Xc - + -program~example_nurbs_surface - - -example_nurbs_surface +program~example3_surface + + +example3_surface - + -program~example_nurbs_surface->proc~generate_xc - - +program~example3_surface->proc~generate_xc + + @@ -360,7 +360,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/generate_xc~2.html b/proc/generate_xc~2.html index cf396034a..9916d48c0 100644 --- a/proc/generate_xc~2.html +++ b/proc/generate_xc~2.html @@ -77,20 +77,20 @@

    generate_Xc
  • 16 statements + title=" 0.4% of total for procedures.">18 statements
  • - Source File + Source File
    • @@ -136,7 +136,7 @@

    Contents

    -

    function generate_Xc(L) result(control_points) +

    function generate_Xc(num_coils, radius, height, num_points_per_coil) result(control_points)

    @@ -155,7 +155,22 @@

    Arguments

     + + + + + + + + @@ -163,7 +178,37 @@

    Arguments

    - + + + + + + + + + + + + + + + + + @@ -190,31 +235,31 @@

    Called by

    - + proc~~generate_xc~2~~CalledByGraph - + proc~generate_xc~2 - -generate_Xc + +generate_Xc - + -program~example3_volume - - -example3_volume +program~example_nurbs_curve + + +example_nurbs_curve - + -program~example3_volume->proc~generate_xc~2 - - +program~example_nurbs_curve->proc~generate_xc~2 + + @@ -330,7 +375,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/generate_xc~3.html b/proc/generate_xc~3.html index defa6f0d0..79b6cdcb3 100644 --- a/proc/generate_xc~3.html +++ b/proc/generate_xc~3.html @@ -77,20 +77,20 @@

    generate_Xc
  • 18 statements + title=" 0.3% of total for procedures.">16 statements
  • - Source File + Source File
    • @@ -136,7 +136,7 @@

    Contents

    -

    function generate_Xc(num_coils, radius, height, num_points_per_coil) result(control_points) +

    function generate_Xc(L) result(control_points)

    @@ -155,22 +155,7 @@

    Arguments

    - - - - - - - - @@ -178,37 +163,7 @@

    Arguments

    - - - - - - - - - - - - - - - - - + @@ -235,31 +190,31 @@

    Called by

    - + proc~~generate_xc~3~~CalledByGraph - + proc~generate_xc~3 - -generate_Xc + +generate_Xc - + -program~example_nurbs_curve - - -example_nurbs_curve +program~example_nurbs_volume + + +example_nurbs_volume - + -program~example_nurbs_curve->proc~generate_xc~3 - - +program~example_nurbs_volume->proc~generate_xc~3 + + @@ -375,7 +330,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/generate_xc~4.html b/proc/generate_xc~4.html index b3ed0c341..77b57f147 100644 --- a/proc/generate_xc~4.html +++ b/proc/generate_xc~4.html @@ -77,20 +77,20 @@

    generate_Xc
  • 19 statements + title=" 0.3% of total for procedures.">16 statements
  • - Source File + Source File
    • @@ -136,7 +136,7 @@

    Contents

    -

    function generate_Xc(num_rows, num_cols, peak_height) result(control_points) +

    function generate_Xc(L) result(control_points)

    @@ -155,37 +155,7 @@

    Arguments

    - - - - - - - - - - - - - - - - @@ -193,7 +163,7 @@

    Arguments

    - + @@ -231,18 +201,18 @@

    Called by

    generate_Xc - + -program~example3_surface - +program~example3_volume + -example3_surface +example3_volume - + -program~example3_surface->proc~generate_xc~4 +program~example3_volume->proc~generate_xc~4 @@ -360,7 +330,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/generate_xc~5.html b/proc/generate_xc~5.html index 54173eb6d..0a65c250d 100644 --- a/proc/generate_xc~5.html +++ b/proc/generate_xc~5.html @@ -77,20 +77,20 @@

    generate_Xc
  • 16 statements + title=" 0.4% of total for procedures.">19 statements
  • - Source File + Source File
    • @@ -136,7 +136,7 @@

    Contents

    -

    function generate_Xc(L) result(control_points) +

    function generate_Xc(num_rows, num_cols, peak_height) result(control_points)

    @@ -155,7 +155,37 @@

    Arguments

     + + + + + + + + + + + + + + + + @@ -163,7 +193,7 @@

    Arguments

    - + @@ -201,18 +231,18 @@

    Called by

    generate_Xc - + -program~example_nurbs_volume - +program~example_nurbs_surface + -example_nurbs_volume +example_nurbs_surface - + -program~example_nurbs_volume->proc~generate_xc~5 +program~example_nurbs_surface->proc~generate_xc~5 @@ -330,7 +360,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_continuity.html b/proc/get_continuity.html index c9a6def86..df7e6a24f 100644 --- a/proc/get_continuity.html +++ b/proc/get_continuity.html @@ -191,7 +191,7 @@

    Arguments

    Return Value - + integer, allocatable, (:)

    @@ -378,7 +378,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_continuity~2.html b/proc/get_continuity~2.html index a41c1d3fd..4594d0d23 100644 --- a/proc/get_continuity~2.html +++ b/proc/get_continuity~2.html @@ -78,20 +78,20 @@

    get_continuity
  • 9 statements + title=" 0.4% of total for procedures.">20 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure function get_continuity(this) result(c) +

    private pure function get_continuity(this, dir) result(c)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -186,181 +186,106 @@

    Called by

    - - + + proc~~finalize~3~~CalledByGraph - + proc~finalize~3 - -nurbs_surface%finalize + +nurbs_curve%finalize - + -program~example3_surface - - -example3_surface +program~example1_curve + + +example1_curve - + -program~example3_surface->proc~finalize~3 - - +program~example1_curve->proc~finalize~3 + + - + -program~example_nurbs_surface - - -example_nurbs_surface +program~example_nurbs_curve + + +example_nurbs_curve - + -program~example_nurbs_surface->proc~finalize~3 - - +program~example_nurbs_curve->proc~finalize~3 + + - + -program~example_ppm1 - - -example_ppm1 +program~nearest_point_1d + + +nearest_point_1d - + -program~example_ppm1->proc~finalize~3 - - +program~nearest_point_1d->proc~finalize~3 + + - + -program~example_ppm2 - - -example_ppm2 +program~shape_c_1d + + +shape_C_1d - + -program~example_ppm2->proc~finalize~3 - - +program~shape_c_1d->proc~finalize~3 + + - + -program~example_ppm3 - - -example_ppm3 +program~shape_circle + + +shape_circle - + -program~example_ppm3->proc~finalize~3 - - +program~shape_circle->proc~finalize~3 + + - + -program~nearest_point_2d - - -nearest_point_2d +program~shape_half_circle + + +shape_half_circle - + -program~nearest_point_2d->proc~finalize~3 - - - - - -program~nearest_point_2d_bench - - -nearest_point_2d_bench - - - - - -program~nearest_point_2d_bench->proc~finalize~3 - - - - - -program~shape_c_2d - - -shape_C_2d - - - - - -program~shape_c_2d->proc~finalize~3 - - - - - -program~shape_half_ring_2d - - -shape_half_ring_2d - - - - - -program~shape_half_ring_2d->proc~finalize~3 - - - - - -program~shape_ring_2d - - -shape_ring_2d - - - - - -program~shape_ring_2d->proc~finalize~3 - - - - - -program~shape_tetragon - - -shape_tetragon - - - - - -program~shape_tetragon->proc~finalize~3 - - +program~shape_half_circle->proc~finalize~3 + + @@ -476,7 +401,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/findspan.html b/proc/findspan.html index eaf4d3295..5d11ded4e 100644 --- a/proc/findspan.html +++ b/proc/findspan.html @@ -156,7 +156,7 @@

    Arguments
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in)
    - + real(kind=rk), intent(in),
    - + + integer, + intent(in) + + ::num_coils + +
    + real(kind=rk), intent(in) ::Lradius + +
    + + real(kind=rk), + intent(in) + + ::height + +
    + + integer, + intent(in) + + ::num_points_per_coil
    - - integer, - intent(in) - - ::num_coils - -
    - + real(kind=rk), intent(in) ::radius - -
    - - real(kind=rk), - intent(in) - - ::height - -
    - - integer, - intent(in) - - ::num_points_per_coilL
    - - integer, - intent(in) - - ::num_rows - -
    - - integer, - intent(in) - - ::num_cols - -
    - + real(kind=rk), intent(in) ::peak_heightL
    - + + integer, + intent(in) + + ::num_rows + +
    + + integer, + intent(in) + + ::num_cols + +
    + real(kind=rk), intent(in) ::Lpeak_height
    @@ -158,8 +158,8 @@

    Arguments

    + + + + + + + + @@ -193,61 +208,61 @@

    Calls

    - + proc~~get_continuity~2~~CallsGraph - + proc~get_continuity~2 - -nurbs_curve%get_continuity + +nurbs_surface%get_continuity interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity proc~get_continuity~2->interface~compute_multiplicity - - + + proc~compute_multiplicity1 - -compute_multiplicity1 + +compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 - - + + proc~compute_multiplicity2 - -compute_multiplicity2 + +compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 - - + + @@ -363,7 +378,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_continuity~3.html b/proc/get_continuity~3.html index 5941a5871..4bc32d3fa 100644 --- a/proc/get_continuity~3.html +++ b/proc/get_continuity~3.html @@ -78,20 +78,20 @@

    get_continuity
  • 20 statements + title=" 0.2% of total for procedures.">9 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure function get_continuity(this, dir) result(c) +

    private pure function get_continuity(this) result(c)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(in) @@ -169,6 +169,21 @@

    Arguments

    		this +
    + + integer, + intent(in) + + ::dir +
    @@ -158,8 +158,8 @@

    Arguments

    - - - - - - - - @@ -208,61 +193,61 @@

    Calls

    - + proc~~get_continuity~3~~CallsGraph - + proc~get_continuity~3 - -nurbs_surface%get_continuity + +nurbs_curve%get_continuity interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity proc~get_continuity~3->interface~compute_multiplicity - - + + proc~compute_multiplicity1 - -compute_multiplicity1 + +compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 - - + + proc~compute_multiplicity2 - -compute_multiplicity2 + +compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 - - + + @@ -378,7 +363,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_degree.html b/proc/get_degree.html index d7b978fc3..e2b5173b0 100644 --- a/proc/get_degree.html +++ b/proc/get_degree.html @@ -158,7 +158,7 @@

    Arguments

    @@ -176,7 +176,7 @@

    Arguments

    Return Value - + integer

    @@ -333,7 +333,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_degree_all.html b/proc/get_degree_all.html index 8d5e346f1..b918064f9 100644 --- a/proc/get_degree_all.html +++ b/proc/get_degree_all.html @@ -176,7 +176,7 @@

    Arguments

    Return Value - + integer, (3)

    @@ -348,7 +348,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_degree_all~2.html b/proc/get_degree_all~2.html index 707f1f4d2..735f0ae67 100644 --- a/proc/get_degree_all~2.html +++ b/proc/get_degree_all~2.html @@ -158,7 +158,7 @@

    Arguments

    @@ -176,7 +176,7 @@

    Arguments

    Return Value - + integer, (2)

    @@ -204,18 +204,18 @@

    Called by

    nurbs_surface%get_degree_all - + -none~get_degree~3 - +none~get_degree~2 + nurbs_surface%get_degree - + -none~get_degree~3->proc~get_degree_all~2 +none~get_degree~2->proc~get_degree_all~2 @@ -228,9 +228,9 @@

    Called by

    - + -program~example3_surface->none~get_degree~3 +program~example3_surface->none~get_degree~2 @@ -348,7 +348,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_degree_dir.html b/proc/get_degree_dir.html index c96da64e0..cd48fe3f3 100644 --- a/proc/get_degree_dir.html +++ b/proc/get_degree_dir.html @@ -191,7 +191,7 @@

    Arguments

    Return Value - + integer

    @@ -363,7 +363,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_degree_dir~2.html b/proc/get_degree_dir~2.html index 12cfc3ebf..fbdc93b0a 100644 --- a/proc/get_degree_dir~2.html +++ b/proc/get_degree_dir~2.html @@ -158,7 +158,7 @@

    Arguments

     @@ -173,7 +173,7 @@

    Arguments

    @@ -191,7 +191,7 @@

    Arguments

    Return Value - + integer

    @@ -219,18 +219,18 @@

    Called by

    nurbs_surface%get_degree_dir - + -none~get_degree~3 - +none~get_degree~2 + nurbs_surface%get_degree - + -none~get_degree~3->proc~get_degree_dir~2 +none~get_degree~2->proc~get_degree_dir~2 @@ -243,9 +243,9 @@

    Called by

    - + -program~example3_surface->none~get_degree~3 +program~example3_surface->none~get_degree~2 @@ -363,7 +363,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_elem.html b/proc/get_elem.html index fb2bc9184..aa1b4592d 100644 --- a/proc/get_elem.html +++ b/proc/get_elem.html @@ -176,7 +176,7 @@

    Arguments

    Return Value - + integer, allocatable, (:,:)

    @@ -212,7 +212,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_elem_xc_vis.html b/proc/get_elem_xc_vis.html index a704045aa..0cd708d0c 100644 --- a/proc/get_elem_xc_vis.html +++ b/proc/get_elem_xc_vis.html @@ -176,7 +176,7 @@

    Arguments

    Return Value - + integer, allocatable, (:,:)

    @@ -212,7 +212,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_elem_xc_vis~2.html b/proc/get_elem_xc_vis~2.html index 3213f4b3d..69b1f5645 100644 --- a/proc/get_elem_xc_vis~2.html +++ b/proc/get_elem_xc_vis~2.html @@ -83,15 +83,15 @@

    get_elem_Xc_vis
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_elem_Xc_vis(this) result(elemConn)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -169,21 +169,6 @@

    Arguments

    		this -
    - - integer, - intent(in) - - ::dir -
    - + class(nurbs_curve), intent(in)
    - + class(nurbs_surface), intent(in)
    - + class(nurbs_surface), intent(in)
    - + integer, intent(in)
    @@ -158,8 +158,8 @@

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(in) @@ -212,7 +212,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_elem_xc_vis~3.html b/proc/get_elem_xc_vis~3.html index b05368751..8633aa9b3 100644 --- a/proc/get_elem_xc_vis~3.html +++ b/proc/get_elem_xc_vis~3.html @@ -83,15 +83,15 @@

    get_elem_Xc_vis
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_elem_Xc_vis(this) result(elemConn)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -212,7 +212,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_elem_xg_vis.html b/proc/get_elem_xg_vis.html index 6533a7803..a8379ee98 100644 --- a/proc/get_elem_xg_vis.html +++ b/proc/get_elem_xg_vis.html @@ -176,7 +176,7 @@

    Arguments

    Return Value - + integer, allocatable, (:,:)

    @@ -212,7 +212,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_elem_xg_vis~2.html b/proc/get_elem_xg_vis~2.html index 64d57767a..0beca8908 100644 --- a/proc/get_elem_xg_vis~2.html +++ b/proc/get_elem_xg_vis~2.html @@ -83,15 +83,15 @@

    get_elem_Xg_vis
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_elem_Xg_vis(this) result(elemConn)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(in) @@ -212,7 +212,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_elem_xg_vis~3.html b/proc/get_elem_xg_vis~3.html index 6cfedf77f..a616159c0 100644 --- a/proc/get_elem_xg_vis~3.html +++ b/proc/get_elem_xg_vis~3.html @@ -83,15 +83,15 @@

    get_elem_Xg_vis
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_elem_Xg_vis(this) result(elemConn)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -212,7 +212,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_elem~2.html b/proc/get_elem~2.html index 6e1a28b13..4d22d3511 100644 --- a/proc/get_elem~2.html +++ b/proc/get_elem~2.html @@ -83,15 +83,15 @@

    get_elem
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_elem(this) result(elemConn)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(in) @@ -212,7 +212,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_elem~3.html b/proc/get_elem~3.html index cd58f1b12..3bc037af8 100644 --- a/proc/get_elem~3.html +++ b/proc/get_elem~3.html @@ -83,15 +83,15 @@

    get_elem
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_elem(this) result(elemConn)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -212,7 +212,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_knot_all.html b/proc/get_knot_all.html index 11a1f8688..09a865608 100644 --- a/proc/get_knot_all.html +++ b/proc/get_knot_all.html @@ -191,7 +191,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:)

    @@ -460,7 +460,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_knot_all~2.html b/proc/get_knot_all~2.html index efc847c2b..7deecda21 100644 --- a/proc/get_knot_all~2.html +++ b/proc/get_knot_all~2.html @@ -78,20 +78,20 @@

    get_knot_all
  • 9 statements + title=" 0.4% of total for procedures.">20 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure function get_knot_all(this) result(knot) +

    private pure function get_knot_all(this, dir) result(knot)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    + + + + + + + + @@ -176,7 +191,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:)

    @@ -193,80 +208,162 @@

    Called by

    - - + + proc~~get_knot_all~2~~CalledByGraph - + proc~get_knot_all~2 - -nurbs_curve%get_knot_all + +nurbs_surface%get_knot_all none~get_knot~2 - - -nurbs_curve%get_knot + + +nurbs_surface%get_knot none~get_knot~2->proc~get_knot_all~2 - - + + - + +proc~elevate_degree~2 + + +nurbs_surface%elevate_degree + + + + + +proc~elevate_degree~2->none~get_knot~2 + + + + + +proc~insert_knots~2 + + +nurbs_surface%insert_knots + + + + + +proc~insert_knots~2->none~get_knot~2 + + + + + proc~modify_wc~2 - - -nurbs_curve%modify_Wc + + +nurbs_surface%modify_Wc - + proc~modify_wc~2->none~get_knot~2 - - + + - + proc~modify_xc~2 - - -nurbs_curve%modify_Xc + + +nurbs_surface%modify_Xc - + proc~modify_xc~2->none~get_knot~2 - - + + - - -program~example1_curve - - -example1_curve + + +proc~remove_knots~2 + + +nurbs_surface%remove_knots - - -program~example1_curve->none~get_knot~2 - - + + +proc~remove_knots~2->none~get_knot~2 + + + + + +program~example3_surface + + +example3_surface + + + + + +program~example3_surface->none~get_knot~2 + + + + + +program~example3_surface->proc~elevate_degree~2 + + + + + +program~example3_surface->proc~insert_knots~2 + + + + + +program~example3_surface->proc~remove_knots~2 + + + + + +program~example_ppm3 + + +example_ppm3 + + + + + +program~example_ppm3->proc~modify_xc~2 + + -
    +

    diff --git a/proc/get_knot_all~3.html b/proc/get_knot_all~3.html index 6c9994f3f..ad5a941ae 100644 --- a/proc/get_knot_all~3.html +++ b/proc/get_knot_all~3.html @@ -78,20 +78,20 @@

    get_knot_all
  • 20 statements + title=" 0.2% of total for procedures.">9 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure function get_knot_all(this, dir) result(knot) +

    private pure function get_knot_all(this) result(knot)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(in) @@ -169,6 +169,21 @@

    Arguments

    		this +
    + + integer, + intent(in) + + ::dir +
    @@ -158,8 +158,8 @@

    Arguments

    - - - - - - - - @@ -191,7 +176,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:)

    @@ -208,162 +193,80 @@

    Called by

    - - + + proc~~get_knot_all~3~~CalledByGraph - + proc~get_knot_all~3 - -nurbs_surface%get_knot_all + +nurbs_curve%get_knot_all none~get_knot~3 - - -nurbs_surface%get_knot + + +nurbs_curve%get_knot none~get_knot~3->proc~get_knot_all~3 - - - - - -proc~elevate_degree~3 - - -nurbs_surface%elevate_degree - - - - - -proc~elevate_degree~3->none~get_knot~3 - - - - - -proc~insert_knots~3 - - -nurbs_surface%insert_knots - - - - - -proc~insert_knots~3->none~get_knot~3 - - + + - + proc~modify_wc~3 - - -nurbs_surface%modify_Wc + + +nurbs_curve%modify_Wc - + proc~modify_wc~3->none~get_knot~3 - - + + - + proc~modify_xc~3 - - -nurbs_surface%modify_Xc + + +nurbs_curve%modify_Xc - + proc~modify_xc~3->none~get_knot~3 - - - - - -proc~remove_knots~3 - - -nurbs_surface%remove_knots - - + + - - -proc~remove_knots~3->none~get_knot~3 - - - - - -program~example3_surface - - -example3_surface - - - - - -program~example3_surface->none~get_knot~3 - - - - - -program~example3_surface->proc~elevate_degree~3 - - - - - -program~example3_surface->proc~insert_knots~3 - - - - - -program~example3_surface->proc~remove_knots~3 - - - - - -program~example_ppm3 - - -example_ppm3 + + +program~example1_curve + + +example1_curve - - -program~example_ppm3->proc~modify_xc~3 - - + + +program~example1_curve->none~get_knot~3 + + -
    +

    diff --git a/proc/get_knoti.html b/proc/get_knoti.html index 8ab16ac97..bf780e6d4 100644 --- a/proc/get_knoti.html +++ b/proc/get_knoti.html @@ -188,7 +188,7 @@

    Arguments

    @@ -206,7 +206,7 @@

    Arguments

    Return Value - + real(kind=rk)

    @@ -475,7 +475,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_knoti~2.html b/proc/get_knoti~2.html index 44fc720ab..0617db6df 100644 --- a/proc/get_knoti~2.html +++ b/proc/get_knoti~2.html @@ -78,20 +78,20 @@

    get_knoti
  • 14 statements + title=" 0.6% of total for procedures.">29 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure function get_knoti(this, i) result(knot) +

    private pure function get_knoti(this, dir, i) result(knot)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -169,21 +169,6 @@

    Arguments

    		this -
    - - integer, - intent(in) - - ::dir -
    - + integer, intent(in)
    @@ -158,8 +158,8 @@

    Arguments

    + + + + + + + + @@ -191,7 +206,7 @@

    Arguments

    Return Value - + real(kind=rk)

    @@ -208,80 +223,162 @@

    Called by

    - - + + proc~~get_knoti~2~~CalledByGraph - + proc~get_knoti~2 - -nurbs_curve%get_knoti + +nurbs_surface%get_knoti none~get_knot~2 - - -nurbs_curve%get_knot + + +nurbs_surface%get_knot none~get_knot~2->proc~get_knoti~2 - - + + - + +proc~elevate_degree~2 + + +nurbs_surface%elevate_degree + + + + + +proc~elevate_degree~2->none~get_knot~2 + + + + + +proc~insert_knots~2 + + +nurbs_surface%insert_knots + + + + + +proc~insert_knots~2->none~get_knot~2 + + + + + proc~modify_wc~2 - - -nurbs_curve%modify_Wc + + +nurbs_surface%modify_Wc - + proc~modify_wc~2->none~get_knot~2 - - + + - + proc~modify_xc~2 - - -nurbs_curve%modify_Xc + + +nurbs_surface%modify_Xc - + proc~modify_xc~2->none~get_knot~2 - - + + - - -program~example1_curve - - -example1_curve + + +proc~remove_knots~2 + + +nurbs_surface%remove_knots - - -program~example1_curve->none~get_knot~2 - - + + +proc~remove_knots~2->none~get_knot~2 + + + + + +program~example3_surface + + +example3_surface + + + + + +program~example3_surface->none~get_knot~2 + + + + + +program~example3_surface->proc~elevate_degree~2 + + + + + +program~example3_surface->proc~insert_knots~2 + + + + + +program~example3_surface->proc~remove_knots~2 + + + + + +program~example_ppm3 + + +example_ppm3 + + + + + +program~example_ppm3->proc~modify_xc~2 + + -
    +

    diff --git a/proc/get_knoti~3.html b/proc/get_knoti~3.html index 9e600b978..ffe39ffb0 100644 --- a/proc/get_knoti~3.html +++ b/proc/get_knoti~3.html @@ -78,20 +78,20 @@

    get_knoti
  • 29 statements + title=" 0.3% of total for procedures.">14 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure function get_knoti(this, dir, i) result(knot) +

    private pure function get_knoti(this, i) result(knot)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(in) @@ -173,7 +173,22 @@

    Arguments

    - + + integer, + intent(in) + + ::dir + +
    + integer, intent(in)
    @@ -158,8 +158,8 @@

    Arguments

    - - - - - - - - @@ -206,7 +191,7 @@

    Arguments

    Return Value - + real(kind=rk)

    @@ -223,162 +208,80 @@

    Called by

    - - + + proc~~get_knoti~3~~CalledByGraph - + proc~get_knoti~3 - -nurbs_surface%get_knoti + +nurbs_curve%get_knoti none~get_knot~3 - - -nurbs_surface%get_knot + + +nurbs_curve%get_knot none~get_knot~3->proc~get_knoti~3 - - - - - -proc~elevate_degree~3 - - -nurbs_surface%elevate_degree - - - - - -proc~elevate_degree~3->none~get_knot~3 - - - - - -proc~insert_knots~3 - - -nurbs_surface%insert_knots - - - - - -proc~insert_knots~3->none~get_knot~3 - - + + - + proc~modify_wc~3 - - -nurbs_surface%modify_Wc + + +nurbs_curve%modify_Wc - + proc~modify_wc~3->none~get_knot~3 - - + + - + proc~modify_xc~3 - - -nurbs_surface%modify_Xc + + +nurbs_curve%modify_Xc - + proc~modify_xc~3->none~get_knot~3 - - - - - -proc~remove_knots~3 - - -nurbs_surface%remove_knots - + + - - - -proc~remove_knots~3->none~get_knot~3 - - - - - -program~example3_surface - - -example3_surface - - - - - -program~example3_surface->none~get_knot~3 - - - - - -program~example3_surface->proc~elevate_degree~3 - - - - - -program~example3_surface->proc~insert_knots~3 - - - - - -program~example3_surface->proc~remove_knots~3 - - - - - -program~example_ppm3 - - -example_ppm3 + + +program~example1_curve + + +example1_curve - - -program~example_ppm3->proc~modify_xc~3 - - + + +program~example1_curve->none~get_knot~3 + + -
    +

    diff --git a/proc/get_multiplicity.html b/proc/get_multiplicity.html index c5ff8efd7..02cd5d6aa 100644 --- a/proc/get_multiplicity.html +++ b/proc/get_multiplicity.html @@ -191,7 +191,7 @@

    Arguments

    Return Value - + integer, allocatable, (:)

    @@ -841,7 +841,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_multiplicity~2.html b/proc/get_multiplicity~2.html index 0f2b5cb4b..58e843a91 100644 --- a/proc/get_multiplicity~2.html +++ b/proc/get_multiplicity~2.html @@ -78,20 +78,20 @@

    get_multiplicity
  • 9 statements + title=" 0.4% of total for procedures.">20 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure function get_multiplicity(this) result(m) +

    private pure function get_multiplicity(this, dir) result(m)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -173,22 +173,7 @@

    Arguments

    - - integer, - intent(in) - - ::dir - -
    - + integer, intent(in)
    @@ -158,8 +158,8 @@

    Arguments

    + + + + + + + + @@ -176,7 +191,7 @@

    Arguments

    Return Value - + integer, allocatable, (:)

    @@ -193,61 +208,61 @@

    Calls

    - + proc~~get_multiplicity~2~~CallsGraph - + proc~get_multiplicity~2 - -nurbs_curve%get_multiplicity + +nurbs_surface%get_multiplicity interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity - - + + proc~compute_multiplicity1 - -compute_multiplicity1 + +compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 - - + + proc~compute_multiplicity2 - -compute_multiplicity2 + +compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 - - + + @@ -343,325 +358,433 @@

    Called by

    - - + + proc~~get_multiplicity~2~~CalledByGraph - + proc~get_multiplicity~2 - -nurbs_curve%get_multiplicity + +nurbs_surface%get_multiplicity proc~cmp_degree~2 - - -nurbs_curve%cmp_degree + + +nurbs_surface%cmp_degree proc~cmp_degree~2->proc~get_multiplicity~2 - - + + proc~cmp_elem~2 - - -nurbs_curve%cmp_elem + + +nurbs_surface%cmp_elem proc~cmp_elem~2->proc~get_multiplicity~2 - - + + proc~set1~2 - - -nurbs_curve%set1 + + +nurbs_surface%set1 proc~set1~2->proc~cmp_degree~2 - - + + proc~set3~2 - - -nurbs_curve%set3 + + +nurbs_surface%set3 proc~set3~2->proc~cmp_degree~2 - - + + none~set~2 - - -nurbs_curve%set + + +nurbs_surface%set none~set~2->proc~set1~2 - - + + none~set~2->proc~set3~2 - - + + proc~elevate_degree~2 - - -nurbs_curve%elevate_degree + + +nurbs_surface%elevate_degree proc~elevate_degree~2->none~set~2 - - + + proc~insert_knots~2 - - -nurbs_curve%insert_knots + + +nurbs_surface%insert_knots proc~insert_knots~2->none~set~2 - - + + proc~modify_wc~2 - - -nurbs_curve%modify_Wc + + +nurbs_surface%modify_Wc proc~modify_wc~2->none~set~2 - - + + proc~modify_xc~2 - - -nurbs_curve%modify_Xc + + +nurbs_surface%modify_Xc proc~modify_xc~2->none~set~2 - - + + proc~remove_knots~2 - - -nurbs_curve%remove_knots + + +nurbs_surface%remove_knots proc~remove_knots~2->none~set~2 - - + + - + -proc~set_circle - - -nurbs_curve%set_circle +proc~set_c~2 + + +nurbs_surface%set_C - + -proc~set_circle->none~set~2 - - +proc~set_c~2->none~set~2 + + - + -proc~set_c~2 - - -nurbs_curve%set_C +proc~set_half_ring~2 + + +nurbs_surface%set_half_ring - + -proc~set_c~2->none~set~2 - - +proc~set_half_ring~2->none~set~2 + + - + -proc~set_half_circle - - -nurbs_curve%set_half_circle +proc~set_ring~2 + + +nurbs_surface%set_ring - + -proc~set_half_circle->none~set~2 - - +proc~set_ring~2->none~set~2 + + - + -program~example1_curve - - -example1_curve +proc~set_tetragon + + +nurbs_surface%set_tetragon - + -program~example1_curve->none~set~2 - - +proc~set_tetragon->none~set~2 + + + + + +program~example3_surface + + +example3_surface + - - -program~example1_curve->proc~elevate_degree~2 - - - + + +program~example3_surface->none~set~2 + + + + -program~example1_curve->proc~insert_knots~2 - - +program~example3_surface->proc~elevate_degree~2 + + - + -program~example1_curve->proc~remove_knots~2 - - +program~example3_surface->proc~insert_knots~2 + + - - -program~example_nurbs_curve - - -example_nurbs_curve + + +program~example3_surface->proc~remove_knots~2 + + + + + +program~example_nurbs_surface + + +example_nurbs_surface - - -program~example_nurbs_curve->none~set~2 - - + + +program~example_nurbs_surface->none~set~2 + + - - -program~nearest_point_1d - - -nearest_point_1d + + +program~example_ppm1 + + +example_ppm1 + + + + + +program~example_ppm1->proc~set_ring~2 + + + + + +program~example_ppm1->proc~set_tetragon + + + + + +program~example_ppm2 + + +example_ppm2 + + + + + +program~example_ppm2->proc~set_half_ring~2 + + + + + +program~example_ppm2->proc~set_tetragon + + + + + +program~example_ppm3 + + +example_ppm3 - + -program~nearest_point_1d->proc~set_circle - - +program~example_ppm3->proc~modify_xc~2 + + + + + +program~example_ppm3->proc~set_tetragon + + + + + +program~nearest_point_2d + + +nearest_point_2d + - - -program~shape_c_1d - - -shape_C_1d + + + +program~nearest_point_2d->proc~set_tetragon + + + + + +program~nearest_point_2d_bench + + +nearest_point_2d_bench + + + + + +program~nearest_point_2d_bench->proc~set_tetragon + + + + + +program~shape_c_2d + + +shape_C_2d - + -program~shape_c_1d->proc~set_c~2 - - +program~shape_c_2d->proc~set_c~2 + + + + + +program~shape_half_ring_2d + + +shape_half_ring_2d + - - -program~shape_circle - - -shape_circle + + + +program~shape_half_ring_2d->proc~set_half_ring~2 + + + + + +program~shape_ring_2d + + +shape_ring_2d - - -program~shape_circle->proc~set_circle - - + + +program~shape_ring_2d->proc~set_ring~2 + + - - -program~shape_half_circle - - -shape_half_circle + + +program~shape_tetragon + + +shape_tetragon - - -program~shape_half_circle->proc~set_half_circle - - + + +program~shape_tetragon->proc~set_tetragon + + @@ -781,7 +904,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_multiplicity~3.html b/proc/get_multiplicity~3.html index a50d7c182..96779bd1d 100644 --- a/proc/get_multiplicity~3.html +++ b/proc/get_multiplicity~3.html @@ -78,20 +78,20 @@

    get_multiplicity
  • 20 statements + title=" 0.2% of total for procedures.">9 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure function get_multiplicity(this, dir) result(m) +

    private pure function get_multiplicity(this) result(m)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(in) @@ -169,6 +169,21 @@

    Arguments

    		this +
    + + integer, + intent(in) + + ::dir +
    @@ -158,8 +158,8 @@

    Arguments

    - - - - - - - - @@ -208,61 +193,61 @@

    Calls

    - + proc~~get_multiplicity~3~~CallsGraph - + proc~get_multiplicity~3 - -nurbs_surface%get_multiplicity + +nurbs_curve%get_multiplicity interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity - - + + proc~compute_multiplicity1 - -compute_multiplicity1 + +compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 - - + + proc~compute_multiplicity2 - -compute_multiplicity2 + +compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 - - + + @@ -358,433 +343,325 @@

    Called by

    - - + + proc~~get_multiplicity~3~~CalledByGraph - + proc~get_multiplicity~3 - -nurbs_surface%get_multiplicity + +nurbs_curve%get_multiplicity proc~cmp_degree~3 - - -nurbs_surface%cmp_degree + + +nurbs_curve%cmp_degree proc~cmp_degree~3->proc~get_multiplicity~3 - - + + proc~cmp_elem~3 - - -nurbs_surface%cmp_elem + + +nurbs_curve%cmp_elem proc~cmp_elem~3->proc~get_multiplicity~3 - - + + proc~set1~3 - - -nurbs_surface%set1 + + +nurbs_curve%set1 proc~set1~3->proc~cmp_degree~3 - - + + proc~set3~3 - - -nurbs_surface%set3 + + +nurbs_curve%set3 proc~set3~3->proc~cmp_degree~3 - - + + none~set~3 - - -nurbs_surface%set + + +nurbs_curve%set none~set~3->proc~set1~3 - - + + none~set~3->proc~set3~3 - - + + proc~elevate_degree~3 - - -nurbs_surface%elevate_degree + + +nurbs_curve%elevate_degree proc~elevate_degree~3->none~set~3 - - + + proc~insert_knots~3 - - -nurbs_surface%insert_knots + + +nurbs_curve%insert_knots proc~insert_knots~3->none~set~3 - - + + proc~modify_wc~3 - - -nurbs_surface%modify_Wc + + +nurbs_curve%modify_Wc proc~modify_wc~3->none~set~3 - - + + proc~modify_xc~3 - - -nurbs_surface%modify_Xc + + +nurbs_curve%modify_Xc proc~modify_xc~3->none~set~3 - - + + proc~remove_knots~3 - - -nurbs_surface%remove_knots + + +nurbs_curve%remove_knots proc~remove_knots~3->none~set~3 - - + + - + -proc~set_c~3 - - -nurbs_surface%set_C +proc~set_circle + + +nurbs_curve%set_circle - + -proc~set_c~3->none~set~3 - - +proc~set_circle->none~set~3 + + - + -proc~set_half_ring~2 - - -nurbs_surface%set_half_ring +proc~set_c~3 + + +nurbs_curve%set_C - + -proc~set_half_ring~2->none~set~3 - - +proc~set_c~3->none~set~3 + + - + -proc~set_ring~2 - - -nurbs_surface%set_ring +proc~set_half_circle + + +nurbs_curve%set_half_circle - + -proc~set_ring~2->none~set~3 - - +proc~set_half_circle->none~set~3 + + - + -proc~set_tetragon - - -nurbs_surface%set_tetragon +program~example1_curve + + +example1_curve - + -proc~set_tetragon->none~set~3 - - - - - -program~example3_surface - - -example3_surface - - +program~example1_curve->none~set~3 + + - - -program~example3_surface->none~set~3 - - + + +program~example1_curve->proc~elevate_degree~3 + + - + -program~example3_surface->proc~elevate_degree~3 - - +program~example1_curve->proc~insert_knots~3 + + - + -program~example3_surface->proc~insert_knots~3 - - - - - -program~example3_surface->proc~remove_knots~3 - - - - - -program~example_nurbs_surface - - -example_nurbs_surface - +program~example1_curve->proc~remove_knots~3 + + - - - -program~example_nurbs_surface->none~set~3 - - - - - -program~example_ppm1 - - -example_ppm1 - - - - - -program~example_ppm1->proc~set_ring~2 - - - - - -program~example_ppm1->proc~set_tetragon - - - - - -program~example_ppm2 - - -example_ppm2 + + +program~example_nurbs_curve + + +example_nurbs_curve - - -program~example_ppm2->proc~set_half_ring~2 - - - - - -program~example_ppm2->proc~set_tetragon - - + + +program~example_nurbs_curve->none~set~3 + + - - -program~example_ppm3 - - -example_ppm3 + + +program~nearest_point_1d + + +nearest_point_1d - + -program~example_ppm3->proc~modify_xc~3 - - - - - -program~example_ppm3->proc~set_tetragon - - - - - -program~nearest_point_2d - - -nearest_point_2d - - - - - -program~nearest_point_2d->proc~set_tetragon - - - - - -program~nearest_point_2d_bench - - -nearest_point_2d_bench - - +program~nearest_point_1d->proc~set_circle + + - - -program~nearest_point_2d_bench->proc~set_tetragon - - - - - -program~shape_c_2d - - -shape_C_2d + + +program~shape_c_1d + + +shape_C_1d - + -program~shape_c_2d->proc~set_c~3 - - - - - -program~shape_half_ring_2d - - -shape_half_ring_2d - - +program~shape_c_1d->proc~set_c~3 + + - - -program~shape_half_ring_2d->proc~set_half_ring~2 - - - - - -program~shape_ring_2d - - -shape_ring_2d + + +program~shape_circle + + +shape_circle - - -program~shape_ring_2d->proc~set_ring~2 - - + + +program~shape_circle->proc~set_circle + + - - -program~shape_tetragon - - -shape_tetragon + + +program~shape_half_circle + + +shape_half_circle - - -program~shape_tetragon->proc~set_tetragon - - + + +program~shape_half_circle->proc~set_half_circle + + @@ -904,7 +781,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_nc.html b/proc/get_nc.html index 29c561082..b7099e5c4 100644 --- a/proc/get_nc.html +++ b/proc/get_nc.html @@ -189,7 +189,7 @@

    Arguments

    Return Value - + integer

    @@ -376,7 +376,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_nc~2.html b/proc/get_nc~2.html index 1650a4bea..072f47c3b 100644 --- a/proc/get_nc~2.html +++ b/proc/get_nc~2.html @@ -78,20 +78,20 @@

    get_nc
  • 5 statements + title=" 0.4% of total for procedures.">20 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure function get_nc(this) result(nc) +

    private pure function get_nc(this, dir) result(nc)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -169,21 +169,6 @@

    Arguments

    		this -
    - - integer, - intent(in) - - ::dir -
    @@ -158,8 +158,8 @@

    Arguments

    + + + + + + + + @@ -176,12 +191,163 @@

    Arguments

    Return Value - + integer


    +
    +
    +

    Calls

    +
    +
    +
    + + + + + +proc~~get_nc~2~~CallsGraph + + + +proc~get_nc~2 + +nurbs_surface%get_nc + + + +interface~compute_multiplicity + + +compute_multiplicity + + + + + +proc~get_nc~2->interface~compute_multiplicity + + + + + +proc~compute_multiplicity1 + + +compute_multiplicity1 + + + + + +interface~compute_multiplicity->proc~compute_multiplicity1 + + + + + +proc~compute_multiplicity2 + + +compute_multiplicity2 + + + + + +interface~compute_multiplicity->proc~compute_multiplicity2 + + + + + +
    + Help +
    + +
    +
    +
    @@ -212,7 +378,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_nc~3.html b/proc/get_nc~3.html index 2d8631d49..d7e6ad41a 100644 --- a/proc/get_nc~3.html +++ b/proc/get_nc~3.html @@ -78,20 +78,20 @@

    get_nc
  • 20 statements + title=" 0.1% of total for procedures.">5 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure function get_nc(this, dir) result(nc) +

    private pure function get_nc(this) result(nc)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(in) @@ -169,6 +169,21 @@

    Arguments

    		this +
    + + integer, + intent(in) + + ::dir +
    @@ -158,8 +158,8 @@

    Arguments

    - - - - - - - - @@ -191,163 +176,12 @@

    Arguments

    Return Value - + integer


    -
    -
    -

    Calls

    -
    -
    -
    - - - - - -proc~~get_nc~3~~CallsGraph - - - -proc~get_nc~3 - -nurbs_surface%get_nc - - - -interface~compute_multiplicity - - -compute_multiplicity - - - - - -proc~get_nc~3->interface~compute_multiplicity - - - - - -proc~compute_multiplicity1 - - -compute_multiplicity1 - - - - - -interface~compute_multiplicity->proc~compute_multiplicity1 - - - - - -proc~compute_multiplicity2 - - -compute_multiplicity2 - - - - - -interface~compute_multiplicity->proc~compute_multiplicity2 - - - - - -
    - Help -
    - -
    -
    -
    @@ -378,7 +212,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_ng.html b/proc/get_ng.html index 04182409d..c0aeb91d2 100644 --- a/proc/get_ng.html +++ b/proc/get_ng.html @@ -176,7 +176,7 @@

    Arguments

    Return Value - + integer, (3)

    @@ -212,7 +212,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_ng~2.html b/proc/get_ng~2.html index edceb2164..51ff8068e 100644 --- a/proc/get_ng~2.html +++ b/proc/get_ng~2.html @@ -83,15 +83,15 @@

    get_ng
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_ng(this) result(ng)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -169,21 +169,6 @@

    Arguments

    		this -
    - - integer, - intent(in) - - ::dir -
    @@ -159,7 +159,7 @@

    Arguments

    - class(nurbs_curve), + class(nurbs_surface), intent(in) @@ -177,11 +177,162 @@

    Arguments

    Return Value - integer + integer, (2)


    +
    +
    +

    Called by

    +
    +
    +
    + + + + + +proc~~get_ng~2~~CalledByGraph + + + +proc~get_ng~2 + +nurbs_surface%get_ng + + + +program~example_ppm1 + + +example_ppm1 + + + + + +program~example_ppm1->proc~get_ng~2 + + + + + +program~example_ppm2 + + +example_ppm2 + + + + + +program~example_ppm2->proc~get_ng~2 + + + + + +program~example_ppm3 + + +example_ppm3 + + + + + +program~example_ppm3->proc~get_ng~2 + + + + + +
    + Help +
    + +
    +
    +
    @@ -212,7 +363,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_ng~3.html b/proc/get_ng~3.html index 97c2b2ff1..d388bd133 100644 --- a/proc/get_ng~3.html +++ b/proc/get_ng~3.html @@ -83,15 +83,15 @@

    get_ng
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_ng(this) result(ng)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -177,162 +177,11 @@

    Arguments

    Return Value - integer, (2) + integer


    -
    -
    -

    Called by

    -
    -
    -
    - - - - - -proc~~get_ng~3~~CalledByGraph - - - -proc~get_ng~3 - -nurbs_surface%get_ng - - - -program~example_ppm1 - - -example_ppm1 - - - - - -program~example_ppm1->proc~get_ng~3 - - - - - -program~example_ppm2 - - -example_ppm2 - - - - - -program~example_ppm2->proc~get_ng~3 - - - - - -program~example_ppm3 - - -example_ppm3 - - - - - -program~example_ppm3->proc~get_ng~3 - - - - - -
    - Help -
    - -
    -
    -
    @@ -363,7 +212,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_wc_all.html b/proc/get_wc_all.html index 698d17fcc..f9c9ef810 100644 --- a/proc/get_wc_all.html +++ b/proc/get_wc_all.html @@ -176,7 +176,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:)

    @@ -363,7 +363,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_wc_all~2.html b/proc/get_wc_all~2.html index 250b30139..78d636f32 100644 --- a/proc/get_wc_all~2.html +++ b/proc/get_wc_all~2.html @@ -83,15 +83,15 @@

    get_Wc_all
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_Wc_all(this) result(Wc)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    @@ -159,7 +159,7 @@

    Arguments

    - class(nurbs_curve), + class(nurbs_surface), intent(in) @@ -193,65 +193,84 @@

    Called by

    - - + + proc~~get_wc_all~2~~CalledByGraph - + proc~get_wc_all~2 - -nurbs_curve%get_Wc_all + +nurbs_surface%get_Wc_all none~get_wc~2 - - -nurbs_curve%get_Wc + + +nurbs_surface%get_Wc none~get_wc~2->proc~get_wc_all~2 - - + + proc~modify_wc~2 - - -nurbs_curve%modify_Wc + + +nurbs_surface%modify_Wc proc~modify_wc~2->none~get_wc~2 - - + + proc~modify_xc~2 - - -nurbs_curve%modify_Xc + + +nurbs_surface%modify_Xc proc~modify_xc~2->none~get_wc~2 - - + + + + + +program~example_ppm3 + + +example_ppm3 + + + + + +program~example_ppm3->proc~modify_xc~2 + + -
    +

    diff --git a/proc/get_wc_all~3.html b/proc/get_wc_all~3.html index 1ee67f700..2daed15e0 100644 --- a/proc/get_wc_all~3.html +++ b/proc/get_wc_all~3.html @@ -83,15 +83,15 @@

    get_Wc_all
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_Wc_all(this) result(Wc)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    @@ -191,7 +191,7 @@

    Arguments

    Return Value - + real(kind=rk)

    @@ -378,7 +378,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_wci~2.html b/proc/get_wci~2.html index 703d6c2f3..88798b5fe 100644 --- a/proc/get_wci~2.html +++ b/proc/get_wci~2.html @@ -83,15 +83,15 @@

    get_Wci
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_Wci(this, n) result(Wc)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -176,7 +176,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:)

    @@ -193,84 +193,65 @@

    Called by

    - - + + proc~~get_wc_all~3~~CalledByGraph - + proc~get_wc_all~3 - -nurbs_surface%get_Wc_all + +nurbs_curve%get_Wc_all none~get_wc~3 - - -nurbs_surface%get_Wc + + +nurbs_curve%get_Wc none~get_wc~3->proc~get_wc_all~3 - - + + proc~modify_wc~3 - - -nurbs_surface%modify_Wc + + +nurbs_curve%modify_Wc proc~modify_wc~3->none~get_wc~3 - - + + proc~modify_xc~3 - - -nurbs_surface%modify_Xc + + +nurbs_curve%modify_Xc proc~modify_xc~3->none~get_wc~3 - - - - - -program~example_ppm3 - - -example_ppm3 - - - - - -program~example_ppm3->proc~modify_xc~3 - - + + -
    +

    diff --git a/proc/get_wci.html b/proc/get_wci.html index ff45ce631..ab8117a5b 100644 --- a/proc/get_wci.html +++ b/proc/get_wci.html @@ -173,7 +173,7 @@

    Arguments

    - + integer, intent(in)
    @@ -159,7 +159,7 @@

    Arguments

    - class(nurbs_curve), + class(nurbs_surface), intent(in) @@ -208,65 +208,84 @@

    Called by

    - + proc~~get_wci~2~~CalledByGraph - + proc~get_wci~2 - -nurbs_curve%get_Wci + +nurbs_surface%get_Wci none~get_wc~2 - - -nurbs_curve%get_Wc + + +nurbs_surface%get_Wc none~get_wc~2->proc~get_wci~2 - - + + proc~modify_wc~2 - - -nurbs_curve%modify_Wc + + +nurbs_surface%modify_Wc proc~modify_wc~2->none~get_wc~2 - - + + proc~modify_xc~2 - - -nurbs_curve%modify_Xc + + +nurbs_surface%modify_Xc proc~modify_xc~2->none~get_wc~2 - - + + + + + +program~example_ppm3 + + +example_ppm3 + + + + + +program~example_ppm3->proc~modify_xc~2 + + -
    +

    diff --git a/proc/get_wci~3.html b/proc/get_wci~3.html index 177c020eb..ca5159df1 100644 --- a/proc/get_wci~3.html +++ b/proc/get_wci~3.html @@ -83,15 +83,15 @@

    get_Wci
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_Wci(this, n) result(Wc)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -191,7 +191,7 @@

    Arguments

    Return Value - + real(kind=rk)

    @@ -208,84 +208,65 @@

    Called by

    - + proc~~get_wci~3~~CalledByGraph - + proc~get_wci~3 - -nurbs_surface%get_Wci + +nurbs_curve%get_Wci none~get_wc~3 - - -nurbs_surface%get_Wc + + +nurbs_curve%get_Wc none~get_wc~3->proc~get_wci~3 - - + + proc~modify_wc~3 - - -nurbs_surface%modify_Wc + + +nurbs_curve%modify_Wc proc~modify_wc~3->none~get_wc~3 - - + + proc~modify_xc~3 - - -nurbs_surface%modify_Xc + + +nurbs_curve%modify_Xc proc~modify_xc~3->none~get_wc~3 - - - - - -program~example_ppm3 - - -example_ppm3 - - - - - -program~example_ppm3->proc~modify_xc~3 - - + + -
    +

    diff --git a/proc/get_xc_all.html b/proc/get_xc_all.html index 7597bf51a..eb81c5cb0 100644 --- a/proc/get_xc_all.html +++ b/proc/get_xc_all.html @@ -176,7 +176,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:,:)

    @@ -363,7 +363,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_xc_all~2.html b/proc/get_xc_all~2.html index 9240c4ebf..c8764878e 100644 --- a/proc/get_xc_all~2.html +++ b/proc/get_xc_all~2.html @@ -83,15 +83,15 @@

    get_Xc_all
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_Xc_all(this) result(Xc)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    @@ -159,7 +159,7 @@

    Arguments

    - class(nurbs_curve), + class(nurbs_surface), intent(in) @@ -193,65 +193,84 @@

    Called by

    - - + + proc~~get_xc_all~2~~CalledByGraph - + proc~get_xc_all~2 - -nurbs_curve%get_Xc_all + +nurbs_surface%get_Xc_all none~get_xc~2 - - -nurbs_curve%get_Xc + + +nurbs_surface%get_Xc none~get_xc~2->proc~get_xc_all~2 - - + + proc~modify_wc~2 - - -nurbs_curve%modify_Wc + + +nurbs_surface%modify_Wc proc~modify_wc~2->none~get_xc~2 - - + + proc~modify_xc~2 - - -nurbs_curve%modify_Xc + + +nurbs_surface%modify_Xc proc~modify_xc~2->none~get_xc~2 - - + + + + + +program~example_ppm3 + + +example_ppm3 + + + + + +program~example_ppm3->proc~modify_xc~2 + + -
    +

    diff --git a/proc/get_xc_all~3.html b/proc/get_xc_all~3.html index e79006068..bb7d9e2f8 100644 --- a/proc/get_xc_all~3.html +++ b/proc/get_xc_all~3.html @@ -83,15 +83,15 @@

    get_Xc_all
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_Xc_all(this) result(Xc)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    @@ -191,7 +191,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:)

    @@ -378,7 +378,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_xcid.html b/proc/get_xcid.html index 776b24c4c..4a4458778 100644 --- a/proc/get_xcid.html +++ b/proc/get_xcid.html @@ -173,7 +173,7 @@

    Arguments

    @@ -206,7 +206,7 @@

    Arguments

    Return Value - + real(kind=rk)

    @@ -393,7 +393,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_xcid~2.html b/proc/get_xcid~2.html index 1b6654db6..a12fd7fe5 100644 --- a/proc/get_xcid~2.html +++ b/proc/get_xcid~2.html @@ -83,15 +83,15 @@

    get_Xcid
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_Xcid(this, n, dir) result(Xc)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -176,7 +176,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:,:)

    @@ -193,84 +193,65 @@

    Called by

    - - + + proc~~get_xc_all~3~~CalledByGraph - + proc~get_xc_all~3 - -nurbs_surface%get_Xc_all + +nurbs_curve%get_Xc_all none~get_xc~3 - - -nurbs_surface%get_Xc + + +nurbs_curve%get_Xc none~get_xc~3->proc~get_xc_all~3 - - + + proc~modify_wc~3 - - -nurbs_surface%modify_Wc + + +nurbs_curve%modify_Wc proc~modify_wc~3->none~get_xc~3 - - + + proc~modify_xc~3 - - -nurbs_surface%modify_Xc + + +nurbs_curve%modify_Xc proc~modify_xc~3->none~get_xc~3 - - - - - -program~example_ppm3 - - -example_ppm3 - - - - - -program~example_ppm3->proc~modify_xc~3 - - + + -
    +

    diff --git a/proc/get_xci.html b/proc/get_xci.html index 56375909a..62a54e13e 100644 --- a/proc/get_xci.html +++ b/proc/get_xci.html @@ -173,7 +173,7 @@

    Arguments

    - + integer, intent(in)
    - + integer, intent(in)
    @@ -159,7 +159,7 @@

    Arguments

    - class(nurbs_curve), + class(nurbs_surface), intent(in) @@ -223,65 +223,84 @@

    Called by

    - + proc~~get_xcid~2~~CalledByGraph - + proc~get_xcid~2 - -nurbs_curve%get_Xcid + +nurbs_surface%get_Xcid none~get_xc~2 - - -nurbs_curve%get_Xc + + +nurbs_surface%get_Xc none~get_xc~2->proc~get_xcid~2 - - + + proc~modify_wc~2 - - -nurbs_curve%modify_Wc + + +nurbs_surface%modify_Wc proc~modify_wc~2->none~get_xc~2 - - + + proc~modify_xc~2 - - -nurbs_curve%modify_Xc + + +nurbs_surface%modify_Xc proc~modify_xc~2->none~get_xc~2 - - + + + + + +program~example_ppm3 + + +example_ppm3 + + + + + +program~example_ppm3->proc~modify_xc~2 + + -
    +

    diff --git a/proc/get_xcid~3.html b/proc/get_xcid~3.html index 1b99d4f6e..d9d13028a 100644 --- a/proc/get_xcid~3.html +++ b/proc/get_xcid~3.html @@ -83,15 +83,15 @@

    get_Xcid
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_Xcid(this, n, dir) result(Xc)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    @@ -206,7 +206,7 @@

    Arguments

    Return Value - + real(kind=rk)

    @@ -223,84 +223,65 @@

    Called by

    - + proc~~get_xcid~3~~CalledByGraph - + proc~get_xcid~3 - -nurbs_surface%get_Xcid + +nurbs_curve%get_Xcid none~get_xc~3 - - -nurbs_surface%get_Xc + + +nurbs_curve%get_Xc none~get_xc~3->proc~get_xcid~3 - - + + proc~modify_wc~3 - - -nurbs_surface%modify_Wc + + +nurbs_curve%modify_Wc proc~modify_wc~3->none~get_xc~3 - - + + proc~modify_xc~3 - - -nurbs_surface%modify_Xc + + +nurbs_curve%modify_Xc proc~modify_xc~3->none~get_xc~3 - - - - - -program~example_ppm3 - - -example_ppm3 - - - - - -program~example_ppm3->proc~modify_xc~3 - - + + -
    +

    diff --git a/proc/get_xci~2.html b/proc/get_xci~2.html index 031bd4006..b3f3be25f 100644 --- a/proc/get_xci~2.html +++ b/proc/get_xci~2.html @@ -83,15 +83,15 @@

    get_Xci
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_Xci(this, n) result(Xc)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -188,7 +188,7 @@

    Arguments

    - + integer, intent(in)
    @@ -159,7 +159,7 @@

    Arguments

    - class(nurbs_curve), + class(nurbs_surface), intent(in) @@ -208,61 +208,76 @@

    Called by

    - + proc~~get_xci~2~~CalledByGraph - + proc~get_xci~2 - -nurbs_curve%get_Xci + +nurbs_surface%get_Xci none~get_xc~2 - - -nurbs_curve%get_Xc + + +nurbs_surface%get_Xc none~get_xc~2->proc~get_xci~2 - - + + proc~modify_wc~2 - - -nurbs_curve%modify_Wc + + +nurbs_surface%modify_Wc proc~modify_wc~2->none~get_xc~2 - - + + proc~modify_xc~2 - - -nurbs_curve%modify_Xc + + +nurbs_surface%modify_Xc proc~modify_xc~2->none~get_xc~2 - - + + + + + +program~example_ppm3 + + +example_ppm3 + + + + + +program~example_ppm3->proc~modify_xc~2 + + @@ -378,7 +393,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_xci~3.html b/proc/get_xci~3.html index fbabec750..8561221c1 100644 --- a/proc/get_xci~3.html +++ b/proc/get_xci~3.html @@ -83,15 +83,15 @@

    get_Xci
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_Xci(this, n) result(Xc)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -191,7 +191,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:)

    @@ -208,76 +208,61 @@

    Called by

    - + proc~~get_xci~3~~CalledByGraph - + proc~get_xci~3 - -nurbs_surface%get_Xci + +nurbs_curve%get_Xci none~get_xc~3 - - -nurbs_surface%get_Xc + + +nurbs_curve%get_Xc none~get_xc~3->proc~get_xci~3 - - + + proc~modify_wc~3 - - -nurbs_surface%modify_Wc + + +nurbs_curve%modify_Wc proc~modify_wc~3->none~get_xc~3 - - + + proc~modify_xc~3 - - -nurbs_surface%modify_Xc + + +nurbs_curve%modify_Xc proc~modify_xc~3->none~get_xc~3 - - - - - -program~example_ppm3 - - -example_ppm3 - - - - - -program~example_ppm3->proc~modify_xc~3 - - + + @@ -393,7 +378,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_xg_all.html b/proc/get_xg_all.html index ee231604f..dca913ae2 100644 --- a/proc/get_xg_all.html +++ b/proc/get_xg_all.html @@ -176,7 +176,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:,:)

    @@ -212,7 +212,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_xg_all~2.html b/proc/get_xg_all~2.html index 8d3a1a4c9..5a2763c04 100644 --- a/proc/get_xg_all~2.html +++ b/proc/get_xg_all~2.html @@ -83,15 +83,15 @@

    get_Xg_all
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_Xg_all(this) result(Xg)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    @@ -159,7 +159,7 @@

    Arguments

    - class(nurbs_curve), + class(nurbs_surface), intent(in) @@ -182,6 +182,172 @@

    Return Value


    +
    +
    +

    Called by

    +
    +
    +
    + + + + + +proc~~get_xg_all~2~~CalledByGraph + + + +proc~get_xg_all~2 + +nurbs_surface%get_Xg_all + + + +none~get_xg~2 + + +nurbs_surface%get_Xg + + + + + +none~get_xg~2->proc~get_xg_all~2 + + + + + +program~example_ppm1 + + +example_ppm1 + + + + + +program~example_ppm1->none~get_xg~2 + + + + + +program~example_ppm2 + + +example_ppm2 + + + + + +program~example_ppm2->none~get_xg~2 + + + + + +program~example_ppm3 + + +example_ppm3 + + + + + +program~example_ppm3->none~get_xg~2 + + + + + +
    + Help +
    + +
    +
    +
    @@ -212,7 +378,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_xg_all~3.html b/proc/get_xg_all~3.html index 67b97f830..2031d43af 100644 --- a/proc/get_xg_all~3.html +++ b/proc/get_xg_all~3.html @@ -83,15 +83,15 @@

    get_Xg_all
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_Xg_all(this) result(Xg)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    @@ -191,7 +191,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:)

    @@ -227,7 +227,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_xgid.html b/proc/get_xgid.html index b426e5937..cd6d2a8b7 100644 --- a/proc/get_xgid.html +++ b/proc/get_xgid.html @@ -173,7 +173,7 @@

    Arguments

    @@ -206,7 +206,7 @@

    Arguments

    Return Value - + real(kind=rk)

    @@ -242,7 +242,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_xgid~2.html b/proc/get_xgid~2.html index 6e339dca5..70af41618 100644 --- a/proc/get_xgid~2.html +++ b/proc/get_xgid~2.html @@ -83,15 +83,15 @@

    get_Xgid
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_Xgid(this, n, dir) result(Xg)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -182,172 +182,6 @@

    Return Value


    -
    -
    -

    Called by

    -
    -
    -
    - - - - - -proc~~get_xg_all~3~~CalledByGraph - - - -proc~get_xg_all~3 - -nurbs_surface%get_Xg_all - - - -none~get_xg~3 - - -nurbs_surface%get_Xg - - - - - -none~get_xg~3->proc~get_xg_all~3 - - - - - -program~example_ppm1 - - -example_ppm1 - - - - - -program~example_ppm1->none~get_xg~3 - - - - - -program~example_ppm2 - - -example_ppm2 - - - - - -program~example_ppm2->none~get_xg~3 - - - - - -program~example_ppm3 - - -example_ppm3 - - - - - -program~example_ppm3->none~get_xg~3 - - - - - -
    - Help -
    - -
    -
    -
    @@ -378,7 +212,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_xgi.html b/proc/get_xgi.html index 73a250cf6..7df8335c7 100644 --- a/proc/get_xgi.html +++ b/proc/get_xgi.html @@ -173,7 +173,7 @@

    Arguments

    - + integer, intent(in)
    - + integer, intent(in)
    @@ -159,7 +159,7 @@

    Arguments

    - class(nurbs_curve), + class(nurbs_surface), intent(in) @@ -212,6 +212,172 @@

    Return Value


    +
    +
    +

    Called by

    +
    +
    +
    + + + + + +proc~~get_xgid~2~~CalledByGraph + + + +proc~get_xgid~2 + +nurbs_surface%get_Xgid + + + +none~get_xg~2 + + +nurbs_surface%get_Xg + + + + + +none~get_xg~2->proc~get_xgid~2 + + + + + +program~example_ppm1 + + +example_ppm1 + + + + + +program~example_ppm1->none~get_xg~2 + + + + + +program~example_ppm2 + + +example_ppm2 + + + + + +program~example_ppm2->none~get_xg~2 + + + + + +program~example_ppm3 + + +example_ppm3 + + + + + +program~example_ppm3->none~get_xg~2 + + + + + +
    + Help +
    + +
    +
    +
    @@ -242,7 +408,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_xgid~3.html b/proc/get_xgid~3.html index acedcee3f..d8f667a44 100644 --- a/proc/get_xgid~3.html +++ b/proc/get_xgid~3.html @@ -83,15 +83,15 @@

    get_Xgid
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_Xgid(this, n, dir) result(Xg)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    @@ -212,172 +212,6 @@

    Return Value


    -
    -
    -

    Called by

    -
    -
    -
    - - - - - -proc~~get_xgid~3~~CalledByGraph - - - -proc~get_xgid~3 - -nurbs_surface%get_Xgid - - - -none~get_xg~3 - - -nurbs_surface%get_Xg - - - - - -none~get_xg~3->proc~get_xgid~3 - - - - - -program~example_ppm1 - - -example_ppm1 - - - - - -program~example_ppm1->none~get_xg~3 - - - - - -program~example_ppm2 - - -example_ppm2 - - - - - -program~example_ppm2->none~get_xg~3 - - - - - -program~example_ppm3 - - -example_ppm3 - - - - - -program~example_ppm3->none~get_xg~3 - - - - - -
    - Help -
    - -
    -
    -
    @@ -408,7 +242,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_xgi~2.html b/proc/get_xgi~2.html index dbf99cc09..a2a3f0c6f 100644 --- a/proc/get_xgi~2.html +++ b/proc/get_xgi~2.html @@ -83,15 +83,15 @@

    get_Xgi
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_Xgi(this, n) result(Xg)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -188,7 +188,7 @@

    Arguments

    - + integer, intent(in)
    @@ -159,7 +159,7 @@

    Arguments

    - class(nurbs_curve), + class(nurbs_surface), intent(in) @@ -197,6 +197,172 @@

    Return Value


    +
    +
    +

    Called by

    +
    +
    +
    + + + + + +proc~~get_xgi~2~~CalledByGraph + + + +proc~get_xgi~2 + +nurbs_surface%get_Xgi + + + +none~get_xg~2 + + +nurbs_surface%get_Xg + + + + + +none~get_xg~2->proc~get_xgi~2 + + + + + +program~example_ppm1 + + +example_ppm1 + + + + + +program~example_ppm1->none~get_xg~2 + + + + + +program~example_ppm2 + + +example_ppm2 + + + + + +program~example_ppm2->none~get_xg~2 + + + + + +program~example_ppm3 + + +example_ppm3 + + + + + +program~example_ppm3->none~get_xg~2 + + + + + +
    + Help +
    + +
    +
    +
    @@ -227,7 +393,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_xgi~3.html b/proc/get_xgi~3.html index 9877f25ce..f8cf785d6 100644 --- a/proc/get_xgi~3.html +++ b/proc/get_xgi~3.html @@ -83,15 +83,15 @@

    get_Xgi
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function get_Xgi(this, n) result(Xg)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -197,172 +197,6 @@

    Return Value


    -
    -
    -

    Called by

    -
    -
    -
    - - - - - -proc~~get_xgi~3~~CalledByGraph - - - -proc~get_xgi~3 - -nurbs_surface%get_Xgi - - - -none~get_xg~3 - - -nurbs_surface%get_Xg - - - - - -none~get_xg~3->proc~get_xgi~3 - - - - - -program~example_ppm1 - - -example_ppm1 - - - - - -program~example_ppm1->none~get_xg~3 - - - - - -program~example_ppm2 - - -example_ppm2 - - - - - -program~example_ppm2->none~get_xg~3 - - - - - -program~example_ppm3 - - -example_ppm3 - - - - - -program~example_ppm3->none~get_xg~3 - - - - - -
    - Help -
    - -
    -
    -
    @@ -393,7 +227,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_xt.html b/proc/get_xt.html index 51788bd72..0283cf51e 100644 --- a/proc/get_xt.html +++ b/proc/get_xt.html @@ -191,7 +191,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:)

    @@ -227,7 +227,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_xt~2.html b/proc/get_xt~2.html index 0ac679bf3..b9ba45bda 100644 --- a/proc/get_xt~2.html +++ b/proc/get_xt~2.html @@ -78,20 +78,20 @@

    get_Xt
  • 9 statements + title=" 0.4% of total for procedures.">20 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure function get_Xt(this) result(Xt) +

    private pure function get_Xt(this, dir) result(Xt)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    @@ -159,7 +159,7 @@

    Arguments

    + + + + + + + + @@ -212,7 +227,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/get_xt~3.html b/proc/get_xt~3.html index 6560f4973..5edbb92df 100644 --- a/proc/get_xt~3.html +++ b/proc/get_xt~3.html @@ -78,20 +78,20 @@

    get_Xt
  • 20 statements + title=" 0.2% of total for procedures.">9 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure function get_Xt(this, dir) result(Xt) +

    private pure function get_Xt(this) result(Xt)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    - class(nurbs_curve), + class(nurbs_surface), intent(in) @@ -169,6 +169,21 @@

    Arguments

    		this +
    + + integer, + intent(in) + + ::dir +
    @@ -158,8 +158,8 @@

    Arguments

    - - - - - - - - @@ -227,7 +212,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/hexahedron_xc.html b/proc/hexahedron_xc.html index b3d0e4569..af76ea523 100644 --- a/proc/hexahedron_xc.html +++ b/proc/hexahedron_xc.html @@ -156,7 +156,7 @@

    Arguments

    @@ -171,7 +171,7 @@

    Arguments

    @@ -189,7 +189,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:,:)

    @@ -391,7 +391,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/insert_knot_a_5_1.html b/proc/insert_knot_a_5_1.html index 987fadca0..8c36d3343 100644 --- a/proc/insert_knot_a_5_1.html +++ b/proc/insert_knot_a_5_1.html @@ -156,7 +156,7 @@

    Arguments

    @@ -216,7 +216,7 @@

    Arguments

    @@ -231,7 +231,7 @@

    Arguments

    @@ -246,7 +246,7 @@

    Arguments

    @@ -348,24 +348,24 @@

    Called by

    proc~insert_knots~2 - - -nurbs_curve%insert_knots + + +nurbs_surface%insert_knots proc~insert_knots~2->proc~insert_knot_a_5_1 - - + + proc~insert_knots~3 - - -nurbs_surface%insert_knots + + +nurbs_curve%insert_knots @@ -379,31 +379,31 @@

    Called by

    program~example1_curve - -example1_curve + +example1_curve - - -program~example1_curve->proc~insert_knots~2 - - + + +program~example1_curve->proc~insert_knots~3 + + program~example3_surface - -example3_surface + +example3_surface - - -program~example3_surface->proc~insert_knots~3 - - + + +program~example3_surface->proc~insert_knots~2 + + @@ -534,7 +534,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/insert_knots.html b/proc/insert_knots.html index 3f7cfccf4..6146b29ef 100644 --- a/proc/insert_knots.html +++ b/proc/insert_knots.html @@ -188,7 +188,7 @@

    Arguments

     @@ -203,7 +203,7 @@

    Arguments

    @@ -759,7 +759,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/insert_knots~2.html b/proc/insert_knots~2.html index 79931e1bb..82053f569 100644 --- a/proc/insert_knots~2.html +++ b/proc/insert_knots~2.html @@ -78,20 +78,20 @@

    insert_knots
  • 43 statements + title=" 2.2% of total for procedures.">104 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure subroutine insert_knots(this, Xth, r) +

    private pure subroutine insert_knots(this, dir, Xth, r)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -169,21 +169,6 @@

    Arguments

    		this -
    - - integer, - intent(in) - - ::dir -
    - + real(kind=rk), intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + integer, intent(in),
    @@ -158,8 +158,8 @@

    Arguments

    + + + + + + + +
    - - class(nurbs_curve), + + class(nurbs_surface), intent(inout) @@ -171,6 +171,21 @@

    Arguments
    + + integer, + intent(in) + + ::dir + +
    @@ -216,238 +231,310 @@

    Calls

    - - + + proc~~insert_knots~2~~CallsGraph - + proc~insert_knots~2 - -nurbs_curve%insert_knots + +nurbs_surface%insert_knots interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity proc~insert_knots~2->interface~compute_multiplicity - - + + - + +none~get_knot~2 + + +nurbs_surface%get_knot + + + + + +proc~insert_knots~2->none~get_knot~2 + + + + + none~set~2 - - -nurbs_curve%set + + +nurbs_surface%set - + proc~insert_knots~2->none~set~2 - - + + - + proc~findspan - - -findspan + + +findspan - + proc~insert_knots~2->proc~findspan - - + + - + proc~insert_knot_a_5_1 - - -insert_knot_A_5_1 + + +insert_knot_A_5_1 - + proc~insert_knots~2->proc~insert_knot_a_5_1 - - + + - + proc~is_rational~2 - - -nurbs_curve%is_rational + + +nurbs_surface%is_rational - + proc~insert_knots~2->proc~is_rational~2 - - + + - + proc~compute_multiplicity1 - - -compute_multiplicity1 + + +compute_multiplicity1 - + interface~compute_multiplicity->proc~compute_multiplicity1 - - + + - + proc~compute_multiplicity2 - - -compute_multiplicity2 + + +compute_multiplicity2 - + interface~compute_multiplicity->proc~compute_multiplicity2 - - + + + + + +proc~get_knot_all~2 + + +nurbs_surface%get_knot_all + + + + + +none~get_knot~2->proc~get_knot_all~2 + + + + + +proc~get_knoti~2 + + +nurbs_surface%get_knoti + + + + + +none~get_knot~2->proc~get_knoti~2 + + - + proc~set1~2 - - -nurbs_curve%set1 + + +nurbs_surface%set1 - + none~set~2->proc~set1~2 - - + + - + proc~set2~2 - - -nurbs_curve%set2 + + +nurbs_surface%set2 - + none~set~2->proc~set2~2 - - + + - + proc~set3~2 - - -nurbs_curve%set3 + + +nurbs_surface%set3 - + none~set~2->proc~set3~2 - - + + - + proc~cmp_degree~2 - - -nurbs_curve%cmp_degree + + +nurbs_surface%cmp_degree - + proc~set1~2->proc~cmp_degree~2 - - + + + + + +proc~cmp_nc~2 + + +nurbs_surface%cmp_nc + + + + + +proc~set1~2->proc~cmp_nc~2 + + + + + +proc~set2~2->proc~cmp_nc~2 + + - + proc~compute_knot_vector - - -compute_knot_vector + + +compute_knot_vector - + proc~set2~2->proc~compute_knot_vector - - + + - + proc~set3~2->proc~cmp_degree~2 - - + + - + proc~get_multiplicity~2 - - -nurbs_curve%get_multiplicity + + +nurbs_surface%get_multiplicity - + proc~cmp_degree~2->proc~get_multiplicity~2 - - + + + + + +proc~cmp_nc~2->interface~compute_multiplicity + + - + proc~repelem - - -repelem + + +repelem - + proc~compute_knot_vector->proc~repelem - - + + - + proc~get_multiplicity~2->interface~compute_multiplicity - - + + @@ -547,31 +634,31 @@

    Called by

    - + proc~~insert_knots~2~~CalledByGraph - + proc~insert_knots~2 - -nurbs_curve%insert_knots + +nurbs_surface%insert_knots - + -program~example1_curve - - -example1_curve +program~example3_surface + + +example3_surface - + -program~example1_curve->proc~insert_knots~2 - - +program~example3_surface->proc~insert_knots~2 + + @@ -687,7 +774,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/insert_knots~3.html b/proc/insert_knots~3.html index 2f4462aad..22d964390 100644 --- a/proc/insert_knots~3.html +++ b/proc/insert_knots~3.html @@ -78,20 +78,20 @@

    insert_knots
  • 104 statements + title=" 0.9% of total for procedures.">43 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure subroutine insert_knots(this, dir, Xth, r) +

    private pure subroutine insert_knots(this, Xth, r)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    - - - - - - - -
    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -171,21 +171,6 @@

    Arguments
    - - integer, - intent(in) - - ::dir - -
    @@ -231,310 +216,238 @@

    Calls

    - - + + proc~~insert_knots~3~~CallsGraph - + proc~insert_knots~3 - -nurbs_surface%insert_knots + +nurbs_curve%insert_knots interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity proc~insert_knots~3->interface~compute_multiplicity - - - - - -none~get_knot~3 - - -nurbs_surface%get_knot - - - - - -proc~insert_knots~3->none~get_knot~3 - - + + - + none~set~3 - - -nurbs_surface%set + + +nurbs_curve%set - + proc~insert_knots~3->none~set~3 - - + + - + proc~findspan - - -findspan + + +findspan - + proc~insert_knots~3->proc~findspan - - + + - + proc~insert_knot_a_5_1 - - -insert_knot_A_5_1 + + +insert_knot_A_5_1 - + proc~insert_knots~3->proc~insert_knot_a_5_1 - - + + - + proc~is_rational~3 - - -nurbs_surface%is_rational + + +nurbs_curve%is_rational - + proc~insert_knots~3->proc~is_rational~3 - - + + - + proc~compute_multiplicity1 - - -compute_multiplicity1 + + +compute_multiplicity1 - + interface~compute_multiplicity->proc~compute_multiplicity1 - - + + - + proc~compute_multiplicity2 - - -compute_multiplicity2 + + +compute_multiplicity2 - + interface~compute_multiplicity->proc~compute_multiplicity2 - - - - - -proc~get_knot_all~3 - - -nurbs_surface%get_knot_all - - - - - -none~get_knot~3->proc~get_knot_all~3 - - - - - -proc~get_knoti~3 - - -nurbs_surface%get_knoti - - - - - -none~get_knot~3->proc~get_knoti~3 - - + + - + proc~set1~3 - - -nurbs_surface%set1 + + +nurbs_curve%set1 - + none~set~3->proc~set1~3 - - + + - + proc~set2~3 - - -nurbs_surface%set2 + + +nurbs_curve%set2 - + none~set~3->proc~set2~3 - - + + - + proc~set3~3 - - -nurbs_surface%set3 + + +nurbs_curve%set3 - + none~set~3->proc~set3~3 - - + + - + proc~cmp_degree~3 - - -nurbs_surface%cmp_degree + + +nurbs_curve%cmp_degree - + proc~set1~3->proc~cmp_degree~3 - - - - - -proc~cmp_nc~3 - - -nurbs_surface%cmp_nc - - - - - -proc~set1~3->proc~cmp_nc~3 - - - - - -proc~set2~3->proc~cmp_nc~3 - - + + - + proc~compute_knot_vector - - -compute_knot_vector + + +compute_knot_vector - + proc~set2~3->proc~compute_knot_vector - - + + - + proc~set3~3->proc~cmp_degree~3 - - + + - + proc~get_multiplicity~3 - - -nurbs_surface%get_multiplicity + + +nurbs_curve%get_multiplicity - + proc~cmp_degree~3->proc~get_multiplicity~3 - - - - - -proc~cmp_nc~3->interface~compute_multiplicity - - + + - + proc~repelem - - -repelem + + +repelem - + proc~compute_knot_vector->proc~repelem - - + + - + proc~get_multiplicity~3->interface~compute_multiplicity - - + + @@ -634,31 +547,31 @@

    Called by

    - + proc~~insert_knots~3~~CalledByGraph - + proc~insert_knots~3 - -nurbs_surface%insert_knots + +nurbs_curve%insert_knots - + -program~example3_surface - - -example3_surface +program~example1_curve + + +example1_curve - + -program~example3_surface->proc~insert_knots~3 - - +program~example1_curve->proc~insert_knots~3 + + @@ -774,7 +687,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/is_rational.html b/proc/is_rational.html index f3454ac30..d22037a31 100644 --- a/proc/is_rational.html +++ b/proc/is_rational.html @@ -176,7 +176,7 @@

    Arguments

    Return Value - + logical

    @@ -333,7 +333,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/is_rational~2.html b/proc/is_rational~2.html index 29a52c8ff..558d04365 100644 --- a/proc/is_rational~2.html +++ b/proc/is_rational~2.html @@ -83,15 +83,15 @@

    is_rational
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function is_rational(this) result(r)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(in) @@ -193,214 +193,289 @@

    Called by

    - - + + proc~~is_rational~2~~CalledByGraph - + proc~is_rational~2 - -nurbs_curve%is_rational + +nurbs_surface%is_rational proc~basis~2 - - -nurbs_curve%basis + + +nurbs_surface%basis proc~basis~2->proc~is_rational~2 - - + + proc~create~2 - - -nurbs_curve%create + + +nurbs_surface%create proc~create~2->proc~is_rational~2 - - + + proc~derivative~2 - - -nurbs_curve%derivative + + +nurbs_surface%derivative proc~derivative~2->proc~is_rational~2 - - + + proc~elevate_degree~2 - - -nurbs_curve%elevate_degree + + +nurbs_surface%elevate_degree proc~elevate_degree~2->proc~is_rational~2 - - + + proc~insert_knots~2 - - -nurbs_curve%insert_knots + + +nurbs_surface%insert_knots proc~insert_knots~2->proc~is_rational~2 - - + + proc~remove_knots~2 - - -nurbs_curve%remove_knots + + +nurbs_surface%remove_knots proc~remove_knots~2->proc~is_rational~2 - - + + - + -program~example1_curve - - -example1_curve +program~example3_surface + + +example3_surface - + -program~example1_curve->proc~create~2 - - - - - -program~example1_curve->proc~elevate_degree~2 - - - - - -program~example1_curve->proc~insert_knots~2 - - - - - -program~example1_curve->proc~remove_knots~2 - - - - +program~example3_surface->proc~create~2 + + + + + +program~example3_surface->proc~elevate_degree~2 + + + + + +program~example3_surface->proc~insert_knots~2 + + + + + +program~example3_surface->proc~remove_knots~2 + + + + -program~example_nurbs_curve - - -example_nurbs_curve +program~example_nurbs_surface + + +example_nurbs_surface - + -program~example_nurbs_curve->proc~create~2 - - +program~example_nurbs_surface->proc~create~2 + + - + -program~nearest_point_1d - - -nearest_point_1d +program~example_ppm1 + + +example_ppm1 - + -program~nearest_point_1d->proc~create~2 - - +program~example_ppm1->proc~create~2 + + - + -program~shape_c_1d - - -shape_C_1d +program~example_ppm2 + + +example_ppm2 - + -program~shape_c_1d->proc~create~2 - - +program~example_ppm2->proc~create~2 + + - + -program~shape_circle - - -shape_circle +program~example_ppm3 + + +example_ppm3 - + -program~shape_circle->proc~create~2 - - +program~example_ppm3->proc~create~2 + + - + -program~shape_half_circle - - -shape_half_circle +program~nearest_point_2d + + +nearest_point_2d - + -program~shape_half_circle->proc~create~2 - - +program~nearest_point_2d->proc~create~2 + + + + + +program~nearest_point_2d_bench + + +nearest_point_2d_bench + + + + + +program~nearest_point_2d_bench->proc~create~2 + + + + + +program~shape_c_2d + + +shape_C_2d + + + + + +program~shape_c_2d->proc~create~2 + + + + + +program~shape_half_ring_2d + + +shape_half_ring_2d + + + + + +program~shape_half_ring_2d->proc~create~2 + + + + + +program~shape_ring_2d + + +shape_ring_2d + + + + + +program~shape_ring_2d->proc~create~2 + + + + + +program~shape_tetragon + + +shape_tetragon + + + + + +program~shape_tetragon->proc~create~2 + + @@ -516,7 +591,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/is_rational~3.html b/proc/is_rational~3.html index 67f9426c0..4f4d1bf66 100644 --- a/proc/is_rational~3.html +++ b/proc/is_rational~3.html @@ -83,15 +83,15 @@

    is_rational
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure function is_rational(this) result(r)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    @@ -693,7 +693,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/modify_wc~2.html b/proc/modify_wc~2.html index cfe517dbf..f8bbfca6b 100644 --- a/proc/modify_wc~2.html +++ b/proc/modify_wc~2.html @@ -83,15 +83,15 @@

    modify_Wc
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure subroutine modify_Wc(this, W, num)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(in) @@ -193,289 +193,214 @@

    Called by

    - - + + proc~~is_rational~3~~CalledByGraph - + proc~is_rational~3 - -nurbs_surface%is_rational + +nurbs_curve%is_rational proc~basis~3 - - -nurbs_surface%basis + + +nurbs_curve%basis proc~basis~3->proc~is_rational~3 - - + + proc~create~3 - - -nurbs_surface%create + + +nurbs_curve%create proc~create~3->proc~is_rational~3 - - + + proc~derivative~3 - - -nurbs_surface%derivative + + +nurbs_curve%derivative proc~derivative~3->proc~is_rational~3 - - + + proc~elevate_degree~3 - - -nurbs_surface%elevate_degree + + +nurbs_curve%elevate_degree proc~elevate_degree~3->proc~is_rational~3 - - + + proc~insert_knots~3 - - -nurbs_surface%insert_knots + + +nurbs_curve%insert_knots proc~insert_knots~3->proc~is_rational~3 - - + + proc~remove_knots~3 - - -nurbs_surface%remove_knots + + +nurbs_curve%remove_knots proc~remove_knots~3->proc~is_rational~3 - - + + - + -program~example3_surface - - -example3_surface +program~example1_curve + + +example1_curve - + -program~example3_surface->proc~create~3 - - - - - -program~example3_surface->proc~elevate_degree~3 - - - - - -program~example3_surface->proc~insert_knots~3 - - - - - -program~example3_surface->proc~remove_knots~3 - - - - +program~example1_curve->proc~create~3 + + + + + +program~example1_curve->proc~elevate_degree~3 + + + + + +program~example1_curve->proc~insert_knots~3 + + + + + +program~example1_curve->proc~remove_knots~3 + + + + -program~example_nurbs_surface - - -example_nurbs_surface +program~example_nurbs_curve + + +example_nurbs_curve - + -program~example_nurbs_surface->proc~create~3 - - +program~example_nurbs_curve->proc~create~3 + + - + -program~example_ppm1 - - -example_ppm1 +program~nearest_point_1d + + +nearest_point_1d - + -program~example_ppm1->proc~create~3 - - +program~nearest_point_1d->proc~create~3 + + - + -program~example_ppm2 - - -example_ppm2 +program~shape_c_1d + + +shape_C_1d - + -program~example_ppm2->proc~create~3 - - +program~shape_c_1d->proc~create~3 + + - + -program~example_ppm3 - - -example_ppm3 +program~shape_circle + + +shape_circle - + -program~example_ppm3->proc~create~3 - - +program~shape_circle->proc~create~3 + + - + -program~nearest_point_2d - - -nearest_point_2d +program~shape_half_circle + + +shape_half_circle - + -program~nearest_point_2d->proc~create~3 - - - - - -program~nearest_point_2d_bench - - -nearest_point_2d_bench - - - - - -program~nearest_point_2d_bench->proc~create~3 - - - - - -program~shape_c_2d - - -shape_C_2d - - - - - -program~shape_c_2d->proc~create~3 - - - - - -program~shape_half_ring_2d - - -shape_half_ring_2d - - - - - -program~shape_half_ring_2d->proc~create~3 - - - - - -program~shape_ring_2d - - -shape_ring_2d - - - - - -program~shape_ring_2d->proc~create~3 - - - - - -program~shape_tetragon - - -shape_tetragon - - - - - -program~shape_tetragon->proc~create~3 - - +program~shape_half_circle->proc~create~3 + + @@ -591,7 +516,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/isinf.html b/proc/isinf.html index ce381a005..5004062af 100644 --- a/proc/isinf.html +++ b/proc/isinf.html @@ -421,7 +421,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/isnan.html b/proc/isnan.html index 5f2380c21..af69a821c 100644 --- a/proc/isnan.html +++ b/proc/isnan.html @@ -210,7 +210,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/kron.html b/proc/kron.html index 0a200d92e..c3826edff 100644 --- a/proc/kron.html +++ b/proc/kron.html @@ -541,7 +541,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/modify_wc.html b/proc/modify_wc.html index 25f5fae7c..21a436b93 100644 --- a/proc/modify_wc.html +++ b/proc/modify_wc.html @@ -188,7 +188,7 @@

    Arguments

    - + integer, intent(in)
    @@ -158,8 +158,8 @@

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(inout) @@ -216,337 +216,364 @@

    Calls

    - - + + proc~~modify_wc~2~~CallsGraph - + proc~modify_wc~2 - -nurbs_curve%modify_Wc + +nurbs_surface%modify_Wc none~get_knot~2 - - -nurbs_curve%get_knot + + +nurbs_surface%get_knot proc~modify_wc~2->none~get_knot~2 - - + + none~get_wc~2 - - -nurbs_curve%get_Wc + + +nurbs_surface%get_Wc proc~modify_wc~2->none~get_wc~2 - - + + none~get_xc~2 - - -nurbs_curve%get_Xc + + +nurbs_surface%get_Xc proc~modify_wc~2->none~get_xc~2 - - + + none~set~2 - - -nurbs_curve%set + + +nurbs_surface%set proc~modify_wc~2->none~set~2 - - + + proc~get_knot_all~2 - - -nurbs_curve%get_knot_all + + +nurbs_surface%get_knot_all none~get_knot~2->proc~get_knot_all~2 - - + + proc~get_knoti~2 - - -nurbs_curve%get_knoti + + +nurbs_surface%get_knoti none~get_knot~2->proc~get_knoti~2 - - + + proc~get_wc_all~2 - - -nurbs_curve%get_Wc_all + + +nurbs_surface%get_Wc_all none~get_wc~2->proc~get_wc_all~2 - - + + proc~get_wci~2 - - -nurbs_curve%get_Wci + + +nurbs_surface%get_Wci none~get_wc~2->proc~get_wci~2 - - + + proc~get_xc_all~2 - - -nurbs_curve%get_Xc_all + + +nurbs_surface%get_Xc_all none~get_xc~2->proc~get_xc_all~2 - - + + proc~get_xcid~2 - - -nurbs_curve%get_Xcid + + +nurbs_surface%get_Xcid none~get_xc~2->proc~get_xcid~2 - - + + proc~get_xci~2 - - -nurbs_curve%get_Xci + + +nurbs_surface%get_Xci none~get_xc~2->proc~get_xci~2 - - + + proc~set1~2 - - -nurbs_curve%set1 + + +nurbs_surface%set1 none~set~2->proc~set1~2 - - + + proc~set2~2 - - -nurbs_curve%set2 + + +nurbs_surface%set2 none~set~2->proc~set2~2 - - + + proc~set3~2 - - -nurbs_curve%set3 + + +nurbs_surface%set3 none~set~2->proc~set3~2 - - + + proc~cmp_degree~2 - - -nurbs_curve%cmp_degree + + +nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 - - + + - + +proc~cmp_nc~2 + + +nurbs_surface%cmp_nc + + + + + +proc~set1~2->proc~cmp_nc~2 + + + + + +proc~set2~2->proc~cmp_nc~2 + + + + + proc~compute_knot_vector - - -compute_knot_vector + + +compute_knot_vector - + proc~set2~2->proc~compute_knot_vector - - + + - + proc~set3~2->proc~cmp_degree~2 - - + + - + proc~get_multiplicity~2 - - -nurbs_curve%get_multiplicity + + +nurbs_surface%get_multiplicity - + proc~cmp_degree~2->proc~get_multiplicity~2 - - + + - + -proc~repelem - - -repelem +interface~compute_multiplicity + + +compute_multiplicity - - -proc~compute_knot_vector->proc~repelem - - + + +proc~cmp_nc~2->interface~compute_multiplicity + + - - -interface~compute_multiplicity - - -compute_multiplicity + + +proc~repelem + + +repelem - - -proc~get_multiplicity~2->interface~compute_multiplicity - - + + +proc~compute_knot_vector->proc~repelem + + - + proc~compute_multiplicity1 - - -compute_multiplicity1 + + +compute_multiplicity1 - + interface~compute_multiplicity->proc~compute_multiplicity1 - - + + - + proc~compute_multiplicity2 - - -compute_multiplicity2 + + +compute_multiplicity2 - + interface~compute_multiplicity->proc~compute_multiplicity2 - - + + + + + +proc~get_multiplicity~2->interface~compute_multiplicity + + @@ -666,7 +693,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/modify_wc~3.html b/proc/modify_wc~3.html index 90c52f937..857b447f4 100644 --- a/proc/modify_wc~3.html +++ b/proc/modify_wc~3.html @@ -83,15 +83,15 @@

    modify_Wc
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure subroutine modify_Wc(this, W, num)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    @@ -708,7 +708,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/modify_xc~2.html b/proc/modify_xc~2.html index 44e238681..55edc5cea 100644 --- a/proc/modify_xc~2.html +++ b/proc/modify_xc~2.html @@ -83,15 +83,15 @@

    modify_Xc
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure subroutine modify_Xc(this, X, num, dir)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -216,364 +216,337 @@

    Calls

    - - + + proc~~modify_wc~3~~CallsGraph - + proc~modify_wc~3 - -nurbs_surface%modify_Wc + +nurbs_curve%modify_Wc none~get_knot~3 - - -nurbs_surface%get_knot + + +nurbs_curve%get_knot proc~modify_wc~3->none~get_knot~3 - - + + none~get_wc~3 - - -nurbs_surface%get_Wc + + +nurbs_curve%get_Wc proc~modify_wc~3->none~get_wc~3 - - + + none~get_xc~3 - - -nurbs_surface%get_Xc + + +nurbs_curve%get_Xc proc~modify_wc~3->none~get_xc~3 - - + + none~set~3 - - -nurbs_surface%set + + +nurbs_curve%set proc~modify_wc~3->none~set~3 - - + + proc~get_knot_all~3 - - -nurbs_surface%get_knot_all + + +nurbs_curve%get_knot_all none~get_knot~3->proc~get_knot_all~3 - - + + proc~get_knoti~3 - - -nurbs_surface%get_knoti + + +nurbs_curve%get_knoti none~get_knot~3->proc~get_knoti~3 - - + + proc~get_wc_all~3 - - -nurbs_surface%get_Wc_all + + +nurbs_curve%get_Wc_all none~get_wc~3->proc~get_wc_all~3 - - + + proc~get_wci~3 - - -nurbs_surface%get_Wci + + +nurbs_curve%get_Wci none~get_wc~3->proc~get_wci~3 - - + + proc~get_xc_all~3 - - -nurbs_surface%get_Xc_all + + +nurbs_curve%get_Xc_all none~get_xc~3->proc~get_xc_all~3 - - + + proc~get_xcid~3 - - -nurbs_surface%get_Xcid + + +nurbs_curve%get_Xcid none~get_xc~3->proc~get_xcid~3 - - + + proc~get_xci~3 - - -nurbs_surface%get_Xci + + +nurbs_curve%get_Xci none~get_xc~3->proc~get_xci~3 - - + + proc~set1~3 - - -nurbs_surface%set1 + + +nurbs_curve%set1 none~set~3->proc~set1~3 - - + + proc~set2~3 - - -nurbs_surface%set2 + + +nurbs_curve%set2 none~set~3->proc~set2~3 - - + + proc~set3~3 - - -nurbs_surface%set3 + + +nurbs_curve%set3 none~set~3->proc~set3~3 - - + + proc~cmp_degree~3 - - -nurbs_surface%cmp_degree + + +nurbs_curve%cmp_degree proc~set1~3->proc~cmp_degree~3 - - - - - -proc~cmp_nc~3 - - -nurbs_surface%cmp_nc - - - - - -proc~set1~3->proc~cmp_nc~3 - - - - - -proc~set2~3->proc~cmp_nc~3 - - + + - + proc~compute_knot_vector - - -compute_knot_vector + + +compute_knot_vector - + proc~set2~3->proc~compute_knot_vector - - + + - + proc~set3~3->proc~cmp_degree~3 - - + + - + proc~get_multiplicity~3 - - -nurbs_surface%get_multiplicity + + +nurbs_curve%get_multiplicity - + proc~cmp_degree~3->proc~get_multiplicity~3 - - + + - + -interface~compute_multiplicity - - -compute_multiplicity +proc~repelem + + +repelem - - -proc~cmp_nc~3->interface~compute_multiplicity - - + + +proc~compute_knot_vector->proc~repelem + + - - -proc~repelem - - -repelem + + +interface~compute_multiplicity + + +compute_multiplicity - - -proc~compute_knot_vector->proc~repelem - - + + +proc~get_multiplicity~3->interface~compute_multiplicity + + - + proc~compute_multiplicity1 - - -compute_multiplicity1 + + +compute_multiplicity1 - + interface~compute_multiplicity->proc~compute_multiplicity1 - - + + - + proc~compute_multiplicity2 - - -compute_multiplicity2 + + +compute_multiplicity2 - + interface~compute_multiplicity->proc~compute_multiplicity2 - - - - - -proc~get_multiplicity~3->interface~compute_multiplicity - - + + @@ -693,7 +666,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/modify_xc.html b/proc/modify_xc.html index 50ecf0c22..f47e86400 100644 --- a/proc/modify_xc.html +++ b/proc/modify_xc.html @@ -188,7 +188,7 @@

    Arguments

    - + integer, intent(in)
    @@ -158,8 +158,8 @@

    Arguments

    @@ -231,337 +231,364 @@

    Calls

    - - + + proc~~modify_xc~2~~CallsGraph - + proc~modify_xc~2 - -nurbs_curve%modify_Xc + +nurbs_surface%modify_Xc none~get_knot~2 - - -nurbs_curve%get_knot + + +nurbs_surface%get_knot proc~modify_xc~2->none~get_knot~2 - - + + none~get_wc~2 - - -nurbs_curve%get_Wc + + +nurbs_surface%get_Wc proc~modify_xc~2->none~get_wc~2 - - + + none~get_xc~2 - - -nurbs_curve%get_Xc + + +nurbs_surface%get_Xc proc~modify_xc~2->none~get_xc~2 - - + + none~set~2 - - -nurbs_curve%set + + +nurbs_surface%set proc~modify_xc~2->none~set~2 - - + + proc~get_knot_all~2 - - -nurbs_curve%get_knot_all + + +nurbs_surface%get_knot_all none~get_knot~2->proc~get_knot_all~2 - - + + proc~get_knoti~2 - - -nurbs_curve%get_knoti + + +nurbs_surface%get_knoti none~get_knot~2->proc~get_knoti~2 - - + + proc~get_wc_all~2 - - -nurbs_curve%get_Wc_all + + +nurbs_surface%get_Wc_all none~get_wc~2->proc~get_wc_all~2 - - + + proc~get_wci~2 - - -nurbs_curve%get_Wci + + +nurbs_surface%get_Wci none~get_wc~2->proc~get_wci~2 - - + + proc~get_xc_all~2 - - -nurbs_curve%get_Xc_all + + +nurbs_surface%get_Xc_all none~get_xc~2->proc~get_xc_all~2 - - + + proc~get_xcid~2 - - -nurbs_curve%get_Xcid + + +nurbs_surface%get_Xcid none~get_xc~2->proc~get_xcid~2 - - + + proc~get_xci~2 - - -nurbs_curve%get_Xci + + +nurbs_surface%get_Xci none~get_xc~2->proc~get_xci~2 - - + + proc~set1~2 - - -nurbs_curve%set1 + + +nurbs_surface%set1 none~set~2->proc~set1~2 - - + + proc~set2~2 - - -nurbs_curve%set2 + + +nurbs_surface%set2 none~set~2->proc~set2~2 - - + + proc~set3~2 - - -nurbs_curve%set3 + + +nurbs_surface%set3 none~set~2->proc~set3~2 - - + + proc~cmp_degree~2 - - -nurbs_curve%cmp_degree + + +nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 - - + + - + +proc~cmp_nc~2 + + +nurbs_surface%cmp_nc + + + + + +proc~set1~2->proc~cmp_nc~2 + + + + + +proc~set2~2->proc~cmp_nc~2 + + + + + proc~compute_knot_vector - - -compute_knot_vector + + +compute_knot_vector - + proc~set2~2->proc~compute_knot_vector - - + + - + proc~set3~2->proc~cmp_degree~2 - - + + - + proc~get_multiplicity~2 - - -nurbs_curve%get_multiplicity + + +nurbs_surface%get_multiplicity - + proc~cmp_degree~2->proc~get_multiplicity~2 - - + + - + -proc~repelem - - -repelem +interface~compute_multiplicity + + +compute_multiplicity - - -proc~compute_knot_vector->proc~repelem - - + + +proc~cmp_nc~2->interface~compute_multiplicity + + - - -interface~compute_multiplicity - - -compute_multiplicity + + +proc~repelem + + +repelem - - -proc~get_multiplicity~2->interface~compute_multiplicity - - + + +proc~compute_knot_vector->proc~repelem + + - + proc~compute_multiplicity1 - - -compute_multiplicity1 + + +compute_multiplicity1 - + interface~compute_multiplicity->proc~compute_multiplicity1 - - + + - + proc~compute_multiplicity2 - - -compute_multiplicity2 + + +compute_multiplicity2 - + interface~compute_multiplicity->proc~compute_multiplicity2 - - + + + + + +proc~get_multiplicity~2->interface~compute_multiplicity + + @@ -637,6 +664,126 @@

    Graph Key

    +

    Solid arrows point from a procedure to one which it calls. Dashed +arrows point from an interface to procedures which implement that interface. +This could include the module procedures in a generic interface or the +implementation in a submodule of an interface in a parent module. +

    + Where possible, edges connecting nodes are +given different colours to make them easier to distinguish in +large graphs. + + + + + +
    +
    +

    Called by

    +
    +
    +
    + + + + + +proc~~modify_xc~2~~CalledByGraph + + + +proc~modify_xc~2 + +nurbs_surface%modify_Xc + + + +program~example_ppm3 + + +example_ppm3 + + + + + +program~example_ppm3->proc~modify_xc~2 + + + + + +
    + Help +
    +
    - - class(nurbs_curve), + + class(nurbs_surface), intent(inout) @@ -203,7 +203,7 @@

    Arguments

    - + integer, intent(in)
    @@ -158,8 +158,8 @@

    Arguments

    @@ -203,7 +203,7 @@

    Arguments

    @@ -231,364 +231,337 @@

    Calls

    - - + + proc~~modify_xc~3~~CallsGraph - + proc~modify_xc~3 - -nurbs_surface%modify_Xc + +nurbs_curve%modify_Xc none~get_knot~3 - - -nurbs_surface%get_knot + + +nurbs_curve%get_knot proc~modify_xc~3->none~get_knot~3 - - + + none~get_wc~3 - - -nurbs_surface%get_Wc + + +nurbs_curve%get_Wc proc~modify_xc~3->none~get_wc~3 - - + + none~get_xc~3 - - -nurbs_surface%get_Xc + + +nurbs_curve%get_Xc proc~modify_xc~3->none~get_xc~3 - - + + none~set~3 - - -nurbs_surface%set + + +nurbs_curve%set proc~modify_xc~3->none~set~3 - - + + proc~get_knot_all~3 - - -nurbs_surface%get_knot_all + + +nurbs_curve%get_knot_all none~get_knot~3->proc~get_knot_all~3 - - + + proc~get_knoti~3 - - -nurbs_surface%get_knoti + + +nurbs_curve%get_knoti none~get_knot~3->proc~get_knoti~3 - - + + proc~get_wc_all~3 - - -nurbs_surface%get_Wc_all + + +nurbs_curve%get_Wc_all none~get_wc~3->proc~get_wc_all~3 - - + + proc~get_wci~3 - - -nurbs_surface%get_Wci + + +nurbs_curve%get_Wci none~get_wc~3->proc~get_wci~3 - - + + proc~get_xc_all~3 - - -nurbs_surface%get_Xc_all + + +nurbs_curve%get_Xc_all none~get_xc~3->proc~get_xc_all~3 - - + + proc~get_xcid~3 - - -nurbs_surface%get_Xcid + + +nurbs_curve%get_Xcid none~get_xc~3->proc~get_xcid~3 - - + + proc~get_xci~3 - - -nurbs_surface%get_Xci + + +nurbs_curve%get_Xci none~get_xc~3->proc~get_xci~3 - - + + proc~set1~3 - - -nurbs_surface%set1 + + +nurbs_curve%set1 none~set~3->proc~set1~3 - - + + proc~set2~3 - - -nurbs_surface%set2 + + +nurbs_curve%set2 none~set~3->proc~set2~3 - - + + proc~set3~3 - - -nurbs_surface%set3 + + +nurbs_curve%set3 none~set~3->proc~set3~3 - - + + proc~cmp_degree~3 - - -nurbs_surface%cmp_degree + + +nurbs_curve%cmp_degree proc~set1~3->proc~cmp_degree~3 - - - - - -proc~cmp_nc~3 - - -nurbs_surface%cmp_nc - - - - - -proc~set1~3->proc~cmp_nc~3 - - - - - -proc~set2~3->proc~cmp_nc~3 - - + + - + proc~compute_knot_vector - - -compute_knot_vector + + +compute_knot_vector - + proc~set2~3->proc~compute_knot_vector - - + + - + proc~set3~3->proc~cmp_degree~3 - - + + - + proc~get_multiplicity~3 - - -nurbs_surface%get_multiplicity + + +nurbs_curve%get_multiplicity - + proc~cmp_degree~3->proc~get_multiplicity~3 - - + + - + -interface~compute_multiplicity - - -compute_multiplicity +proc~repelem + + +repelem - - -proc~cmp_nc~3->interface~compute_multiplicity - - + + +proc~compute_knot_vector->proc~repelem + + - - -proc~repelem - - -repelem + + +interface~compute_multiplicity + + +compute_multiplicity - - -proc~compute_knot_vector->proc~repelem - - + + +proc~get_multiplicity~3->interface~compute_multiplicity + + - + proc~compute_multiplicity1 - - -compute_multiplicity1 + + +compute_multiplicity1 - + interface~compute_multiplicity->proc~compute_multiplicity1 - - + + - + proc~compute_multiplicity2 - - -compute_multiplicity2 + + +compute_multiplicity2 - + interface~compute_multiplicity->proc~compute_multiplicity2 - - - - - -proc~get_multiplicity~3->interface~compute_multiplicity - - + + @@ -664,126 +637,6 @@

    Graph Key

    -

    Solid arrows point from a procedure to one which it calls. Dashed -arrows point from an interface to procedures which implement that interface. -This could include the module procedures in a generic interface or the -implementation in a submodule of an interface in a parent module. -

    - Where possible, edges connecting nodes are -given different colours to make them easier to distinguish in -large graphs. - - - - - -
    -
    -

    Called by

    -
    -
    -
    - - - - - -proc~~modify_xc~3~~CalledByGraph - - - -proc~modify_xc~3 - -nurbs_surface%modify_Xc - - - -program~example_ppm3 - - -example_ppm3 - - - - - -program~example_ppm3->proc~modify_xc~3 - - - - - -
    - Help -
    -
    @@ -255,18 +255,18 @@

    Called by

    - + -proc~basis~3 - +proc~basis~2 + nurbs_surface%basis - + -proc~basis~3->interface~ndgrid +proc~basis~2->interface~ndgrid @@ -285,18 +285,18 @@

    Called by

    - + -proc~create~3 - +proc~create~2 + nurbs_surface%create - + -proc~create~3->interface~ndgrid +proc~create~2->interface~ndgrid @@ -315,18 +315,18 @@

    Called by

    - + -proc~derivative~3 - +proc~derivative~2 + nurbs_surface%derivative - + -proc~derivative~3->interface~ndgrid +proc~derivative~2->interface~ndgrid @@ -339,9 +339,9 @@

    Called by

    - + -program~example3_surface->proc~create~3 +program~example3_surface->proc~create~2 @@ -369,9 +369,9 @@

    Called by

    - + -program~example_nurbs_surface->proc~create~3 +program~example_nurbs_surface->proc~create~2 @@ -399,9 +399,9 @@

    Called by

    - + -program~example_ppm1->proc~create~3 +program~example_ppm1->proc~create~2 @@ -414,9 +414,9 @@

    Called by

    - + -program~example_ppm2->proc~create~3 +program~example_ppm2->proc~create~2 @@ -429,9 +429,9 @@

    Called by

    - + -program~example_ppm3->proc~create~3 +program~example_ppm3->proc~create~2 @@ -444,9 +444,9 @@

    Called by

    - + -program~nearest_point_2d->proc~create~3 +program~nearest_point_2d->proc~create~2 @@ -459,9 +459,9 @@

    Called by

    - + -program~nearest_point_2d_bench->proc~create~3 +program~nearest_point_2d_bench->proc~create~2 @@ -489,9 +489,9 @@

    Called by

    - + -program~shape_c_2d->proc~create~3 +program~shape_c_2d->proc~create~2 @@ -519,9 +519,9 @@

    Called by

    - + -program~shape_half_ring_2d->proc~create~3 +program~shape_half_ring_2d->proc~create~2 @@ -564,9 +564,9 @@

    Called by

    - + -program~shape_ring_2d->proc~create~3 +program~shape_ring_2d->proc~create~2 @@ -594,9 +594,9 @@

    Called by

    - + -program~shape_tetragon->proc~create~3 +program~shape_tetragon->proc~create~2 @@ -714,7 +714,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/ndgrid3.html b/proc/ndgrid3.html index ff93a6226..c54896425 100644 --- a/proc/ndgrid3.html +++ b/proc/ndgrid3.html @@ -201,7 +201,7 @@

    Arguments

     @@ -270,18 +270,18 @@

    Called by

    - + -proc~basis~3 - +proc~basis~2 + nurbs_surface%basis - + -proc~basis~3->interface~ndgrid +proc~basis~2->interface~ndgrid @@ -300,18 +300,18 @@

    Called by

    - + -proc~create~3 - +proc~create~2 + nurbs_surface%create - + -proc~create~3->interface~ndgrid +proc~create~2->interface~ndgrid @@ -330,18 +330,18 @@

    Called by

    - + -proc~derivative~3 - +proc~derivative~2 + nurbs_surface%derivative - + -proc~derivative~3->interface~ndgrid +proc~derivative~2->interface~ndgrid @@ -354,9 +354,9 @@

    Called by

    - + -program~example3_surface->proc~create~3 +program~example3_surface->proc~create~2 @@ -384,9 +384,9 @@

    Called by

    - + -program~example_nurbs_surface->proc~create~3 +program~example_nurbs_surface->proc~create~2 @@ -414,9 +414,9 @@

    Called by

    - + -program~example_ppm1->proc~create~3 +program~example_ppm1->proc~create~2 @@ -429,9 +429,9 @@

    Called by

    - + -program~example_ppm2->proc~create~3 +program~example_ppm2->proc~create~2 @@ -444,9 +444,9 @@

    Called by

    - + -program~example_ppm3->proc~create~3 +program~example_ppm3->proc~create~2 @@ -459,9 +459,9 @@

    Called by

    - + -program~nearest_point_2d->proc~create~3 +program~nearest_point_2d->proc~create~2 @@ -474,9 +474,9 @@

    Called by

    - + -program~nearest_point_2d_bench->proc~create~3 +program~nearest_point_2d_bench->proc~create~2 @@ -504,9 +504,9 @@

    Called by

    - + -program~shape_c_2d->proc~create~3 +program~shape_c_2d->proc~create~2 @@ -534,9 +534,9 @@

    Called by

    - + -program~shape_half_ring_2d->proc~create~3 +program~shape_half_ring_2d->proc~create~2 @@ -579,9 +579,9 @@

    Called by

    - + -program~shape_ring_2d->proc~create~3 +program~shape_ring_2d->proc~create~2 @@ -609,9 +609,9 @@

    Called by

    - + -program~shape_tetragon->proc~create~3 +program~shape_tetragon->proc~create~2 @@ -729,7 +729,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/nearest_point.html b/proc/nearest_point.html index d882a7330..d2304e929 100644 --- a/proc/nearest_point.html +++ b/proc/nearest_point.html @@ -188,7 +188,7 @@

    Arguments

     @@ -203,7 +203,7 @@

    Arguments

    @@ -218,7 +218,7 @@

    Arguments

    @@ -386,7 +386,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/nearest_point_help_1d.html b/proc/nearest_point_help_1d.html index 99eb08693..e04b6ef0e 100644 --- a/proc/nearest_point_help_1d.html +++ b/proc/nearest_point_help_1d.html @@ -275,7 +275,7 @@

    Arguments

    @@ -290,7 +290,7 @@

    Arguments

    @@ -305,7 +305,7 @@

    Arguments

    @@ -323,7 +323,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:)

    @@ -359,7 +359,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/nearest_point_help_2d.html b/proc/nearest_point_help_2d.html index 156c56f1b..f441ba144 100644 --- a/proc/nearest_point_help_2d.html +++ b/proc/nearest_point_help_2d.html @@ -275,7 +275,7 @@

    Arguments

    @@ -290,7 +290,7 @@

    Arguments

    @@ -305,7 +305,7 @@

    Arguments

    @@ -323,7 +323,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:)

    @@ -359,7 +359,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/nearest_point_help_3d.html b/proc/nearest_point_help_3d.html index 463110b7f..e9b8b1e2c 100644 --- a/proc/nearest_point_help_3d.html +++ b/proc/nearest_point_help_3d.html @@ -275,7 +275,7 @@

    Arguments

    @@ -290,7 +290,7 @@

    Arguments

    @@ -359,7 +359,7 @@

    Return Value

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/nearest_point~2.html b/proc/nearest_point~2.html index 3c1ae6ce2..9b9d16f63 100644 --- a/proc/nearest_point~2.html +++ b/proc/nearest_point~2.html @@ -83,15 +83,15 @@

    nearest_point
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure subroutine nearest_point(this, point_Xg, nearest_Xg, nearest_Xt

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -173,7 +173,7 @@

    Arguments

    - + real(kind=rk), intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(out),
    - + real(kind=rk), intent(out),
    - + real(kind=rk), intent(out),
    - + real(kind=rk), intent(out),
    - + integer, intent(out),
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    @@ -158,8 +158,8 @@

    Arguments

    @@ -203,22 +203,22 @@

    Arguments

    - - + @@ -246,31 +246,46 @@

    Called by

    - - + + proc~~nearest_point~2~~CalledByGraph - + proc~nearest_point~2 - -nurbs_curve%nearest_point + +nurbs_surface%nearest_point - + -program~nearest_point_1d - - -nearest_point_1d +program~nearest_point_2d + + +nearest_point_2d - + -program~nearest_point_1d->proc~nearest_point~2 - - +program~nearest_point_2d->proc~nearest_point~2 + + + + + +program~nearest_point_2d_bench + + +nearest_point_2d_bench + + + + + +program~nearest_point_2d_bench->proc~nearest_point~2 + + @@ -386,7 +401,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/nearest_point~3.html b/proc/nearest_point~3.html index a61e22ad7..f33c1c18c 100644 --- a/proc/nearest_point~3.html +++ b/proc/nearest_point~3.html @@ -83,15 +83,15 @@

    nearest_point
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure subroutine nearest_point(this, point_Xg, nearest_Xg, nearest_Xt

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(in) @@ -188,7 +188,7 @@

    Arguments

    - + real(kind=rk), intent(out),
    - + real(kind=rk), intent(out),optional - + optional, + allocatable ::nearest_Xtnearest_Xt(:)
    - + integer, intent(out),
    @@ -159,7 +159,7 @@

    Arguments

    @@ -203,22 +203,22 @@

    Arguments

    - - + @@ -246,46 +246,31 @@

    Called by

    - - + + proc~~nearest_point~3~~CalledByGraph - + proc~nearest_point~3 - -nurbs_surface%nearest_point + +nurbs_curve%nearest_point - + -program~nearest_point_2d - - -nearest_point_2d +program~nearest_point_1d + + +nearest_point_1d - + -program~nearest_point_2d->proc~nearest_point~3 - - - - - -program~nearest_point_2d_bench - - -nearest_point_2d_bench - - - - - -program~nearest_point_2d_bench->proc~nearest_point~3 - - +program~nearest_point_1d->proc~nearest_point~3 + + @@ -401,7 +386,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/put_to_nurbs.html b/proc/put_to_nurbs.html index a03d6ae48..6fbc50808 100644 --- a/proc/put_to_nurbs.html +++ b/proc/put_to_nurbs.html @@ -188,7 +188,7 @@

    Arguments

    @@ -506,7 +506,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/remove_knots.html b/proc/remove_knots.html index 9291a7962..249dec8d9 100644 --- a/proc/remove_knots.html +++ b/proc/remove_knots.html @@ -188,7 +188,7 @@

    Arguments

    @@ -203,7 +203,7 @@

    Arguments

    @@ -759,7 +759,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/remove_knots_a_5_8.html b/proc/remove_knots_a_5_8.html index 999a9145a..9c2c787ec 100644 --- a/proc/remove_knots_a_5_8.html +++ b/proc/remove_knots_a_5_8.html @@ -156,7 +156,7 @@

    Arguments

    @@ -171,7 +171,7 @@

    Arguments

    @@ -216,7 +216,7 @@

    Arguments

    @@ -231,7 +231,7 @@

    Arguments

    @@ -246,7 +246,7 @@

    Arguments

    @@ -261,7 +261,7 @@

    Arguments

    @@ -276,7 +276,7 @@

    Arguments

    @@ -348,24 +348,24 @@

    Called by

    proc~remove_knots~2 - - -nurbs_curve%remove_knots + + +nurbs_surface%remove_knots proc~remove_knots~2->proc~remove_knots_a_5_8 - - + + proc~remove_knots~3 - - -nurbs_surface%remove_knots + + +nurbs_curve%remove_knots @@ -379,31 +379,31 @@

    Called by

    program~example1_curve - -example1_curve + +example1_curve - - -program~example1_curve->proc~remove_knots~2 - - + + +program~example1_curve->proc~remove_knots~3 + + program~example3_surface - -example3_surface + +example3_surface - - -program~example3_surface->proc~remove_knots~3 - - + + +program~example3_surface->proc~remove_knots~2 + + @@ -534,7 +534,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/remove_knots~2.html b/proc/remove_knots~2.html index df066b764..b5a563daf 100644 --- a/proc/remove_knots~2.html +++ b/proc/remove_knots~2.html @@ -78,20 +78,20 @@

    remove_knots
  • 55 statements + title=" 2.7% of total for procedures.">128 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure subroutine remove_knots(this, Xth, r) +

    private pure subroutine remove_knots(this, dir, Xth, r)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - class(nurbs_surface), + class(nurbs_curve), intent(in) @@ -188,7 +188,7 @@

    Arguments

    - + real(kind=rk), intent(out),
    - + real(kind=rk), intent(out),optional, - allocatable + optional + ::nearest_Xt(:)nearest_Xt
    - + integer, intent(out),
    - + integer, intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in),
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(in)
    - + integer, intent(out)
    - + real(kind=rk), intent(out),
    @@ -158,8 +158,8 @@

    Arguments

    + + + + + + + +
    - - class(nurbs_curve), + + class(nurbs_surface), intent(inout) @@ -171,6 +171,21 @@

    Arguments
    + + integer, + intent(in) + + ::dir + +
    @@ -216,238 +231,310 @@

    Calls

    - - + + proc~~remove_knots~2~~CallsGraph - + proc~remove_knots~2 - -nurbs_curve%remove_knots + +nurbs_surface%remove_knots interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity proc~remove_knots~2->interface~compute_multiplicity - - + + - + +none~get_knot~2 + + +nurbs_surface%get_knot + + + + + +proc~remove_knots~2->none~get_knot~2 + + + + + none~set~2 - - -nurbs_curve%set + + +nurbs_surface%set - + proc~remove_knots~2->none~set~2 - - + + - + proc~findspan - - -findspan + + +findspan - + proc~remove_knots~2->proc~findspan - - + + - + proc~is_rational~2 - - -nurbs_curve%is_rational + + +nurbs_surface%is_rational - + proc~remove_knots~2->proc~is_rational~2 - - + + - + proc~remove_knots_a_5_8 - - -remove_knots_A_5_8 + + +remove_knots_A_5_8 - + proc~remove_knots~2->proc~remove_knots_a_5_8 - - + + - + proc~compute_multiplicity1 - - -compute_multiplicity1 + + +compute_multiplicity1 - + interface~compute_multiplicity->proc~compute_multiplicity1 - - + + - + proc~compute_multiplicity2 - - -compute_multiplicity2 + + +compute_multiplicity2 - + interface~compute_multiplicity->proc~compute_multiplicity2 - - + + + + + +proc~get_knot_all~2 + + +nurbs_surface%get_knot_all + + + + + +none~get_knot~2->proc~get_knot_all~2 + + + + + +proc~get_knoti~2 + + +nurbs_surface%get_knoti + + + + + +none~get_knot~2->proc~get_knoti~2 + + - + proc~set1~2 - - -nurbs_curve%set1 + + +nurbs_surface%set1 - + none~set~2->proc~set1~2 - - + + - + proc~set2~2 - - -nurbs_curve%set2 + + +nurbs_surface%set2 - + none~set~2->proc~set2~2 - - + + - + proc~set3~2 - - -nurbs_curve%set3 + + +nurbs_surface%set3 - + none~set~2->proc~set3~2 - - + + - + proc~cmp_degree~2 - - -nurbs_curve%cmp_degree + + +nurbs_surface%cmp_degree - + proc~set1~2->proc~cmp_degree~2 - - + + + + + +proc~cmp_nc~2 + + +nurbs_surface%cmp_nc + + + + + +proc~set1~2->proc~cmp_nc~2 + + + + + +proc~set2~2->proc~cmp_nc~2 + + - + proc~compute_knot_vector - - -compute_knot_vector + + +compute_knot_vector - + proc~set2~2->proc~compute_knot_vector - - + + - + proc~set3~2->proc~cmp_degree~2 - - + + - + proc~get_multiplicity~2 - - -nurbs_curve%get_multiplicity + + +nurbs_surface%get_multiplicity - + proc~cmp_degree~2->proc~get_multiplicity~2 - - + + + + + +proc~cmp_nc~2->interface~compute_multiplicity + + - + proc~repelem - - -repelem + + +repelem - + proc~compute_knot_vector->proc~repelem - - + + - + proc~get_multiplicity~2->interface~compute_multiplicity - - + + @@ -547,31 +634,31 @@

    Called by

    - + proc~~remove_knots~2~~CalledByGraph - + proc~remove_knots~2 - -nurbs_curve%remove_knots + +nurbs_surface%remove_knots - + -program~example1_curve - - -example1_curve +program~example3_surface + + +example3_surface - + -program~example1_curve->proc~remove_knots~2 - - +program~example3_surface->proc~remove_knots~2 + + @@ -687,7 +774,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/remove_knots~3.html b/proc/remove_knots~3.html index 0e4565188..f42f134c8 100644 --- a/proc/remove_knots~3.html +++ b/proc/remove_knots~3.html @@ -78,20 +78,20 @@

    remove_knots
  • 128 statements + title=" 1.2% of total for procedures.">55 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure subroutine remove_knots(this, dir, Xth, r) +

    private pure subroutine remove_knots(this, Xth, r)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    - - - - - - - - @@ -188,7 +188,7 @@

    Arguments

    @@ -203,7 +203,7 @@

    Arguments

    @@ -515,7 +515,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/rotate_xc~2.html b/proc/rotate_xc~2.html index c1305d147..374eba055 100644 --- a/proc/rotate_xc~2.html +++ b/proc/rotate_xc~2.html @@ -83,15 +83,15 @@

    rotate_Xc
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure subroutine rotate_Xc(this, alpha, beta, theta)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -171,21 +171,6 @@

    Arguments
    - - integer, - intent(in) - - ::dir - -
    @@ -231,310 +216,238 @@

    Calls

    - - + + proc~~remove_knots~3~~CallsGraph - + proc~remove_knots~3 - -nurbs_surface%remove_knots + +nurbs_curve%remove_knots interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity proc~remove_knots~3->interface~compute_multiplicity - - - - - -none~get_knot~3 - - -nurbs_surface%get_knot - - - - - -proc~remove_knots~3->none~get_knot~3 - - + + - + none~set~3 - - -nurbs_surface%set + + +nurbs_curve%set - + proc~remove_knots~3->none~set~3 - - + + - + proc~findspan - - -findspan + + +findspan - + proc~remove_knots~3->proc~findspan - - + + - + proc~is_rational~3 - - -nurbs_surface%is_rational + + +nurbs_curve%is_rational - + proc~remove_knots~3->proc~is_rational~3 - - + + - + proc~remove_knots_a_5_8 - - -remove_knots_A_5_8 + + +remove_knots_A_5_8 - + proc~remove_knots~3->proc~remove_knots_a_5_8 - - + + - + proc~compute_multiplicity1 - - -compute_multiplicity1 + + +compute_multiplicity1 - + interface~compute_multiplicity->proc~compute_multiplicity1 - - + + - + proc~compute_multiplicity2 - - -compute_multiplicity2 + + +compute_multiplicity2 - + interface~compute_multiplicity->proc~compute_multiplicity2 - - - - - -proc~get_knot_all~3 - - -nurbs_surface%get_knot_all - - - - - -none~get_knot~3->proc~get_knot_all~3 - - - - - -proc~get_knoti~3 - - -nurbs_surface%get_knoti - - - - - -none~get_knot~3->proc~get_knoti~3 - - + + - + proc~set1~3 - - -nurbs_surface%set1 + + +nurbs_curve%set1 - + none~set~3->proc~set1~3 - - + + - + proc~set2~3 - - -nurbs_surface%set2 + + +nurbs_curve%set2 - + none~set~3->proc~set2~3 - - + + - + proc~set3~3 - - -nurbs_surface%set3 + + +nurbs_curve%set3 - + none~set~3->proc~set3~3 - - + + - + proc~cmp_degree~3 - - -nurbs_surface%cmp_degree + + +nurbs_curve%cmp_degree - + proc~set1~3->proc~cmp_degree~3 - - - - - -proc~cmp_nc~3 - - -nurbs_surface%cmp_nc - - - - - -proc~set1~3->proc~cmp_nc~3 - - - - - -proc~set2~3->proc~cmp_nc~3 - - + + - + proc~compute_knot_vector - - -compute_knot_vector + + +compute_knot_vector - + proc~set2~3->proc~compute_knot_vector - - + + - + proc~set3~3->proc~cmp_degree~3 - - + + - + proc~get_multiplicity~3 - - -nurbs_surface%get_multiplicity + + +nurbs_curve%get_multiplicity - + proc~cmp_degree~3->proc~get_multiplicity~3 - - - - - -proc~cmp_nc~3->interface~compute_multiplicity - - + + - + proc~repelem - - -repelem + + +repelem - + proc~compute_knot_vector->proc~repelem - - + + - + proc~get_multiplicity~3->interface~compute_multiplicity - - + + @@ -634,31 +547,31 @@

    Called by

    - + proc~~remove_knots~3~~CalledByGraph - + proc~remove_knots~3 - -nurbs_surface%remove_knots + +nurbs_curve%remove_knots - + -program~example3_surface - - -example3_surface +program~example1_curve + + +example1_curve - + -program~example3_surface->proc~remove_knots~3 - - +program~example1_curve->proc~remove_knots~3 + + @@ -774,7 +687,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/repelem.html b/proc/repelem.html index 57d0ea243..3cc996201 100644 --- a/proc/repelem.html +++ b/proc/repelem.html @@ -189,7 +189,7 @@

    Arguments

    Return Value - + real(kind=rk), (sum(b))

    @@ -206,958 +206,958 @@

    Called by

    - - + + proc~~repelem~~CalledByGraph - + proc~repelem - -repelem + +repelem proc~compute_knot_vector - -compute_knot_vector + +compute_knot_vector proc~compute_knot_vector->proc~repelem - - + + proc~set2 - -nurbs_volume%set2 + +nurbs_volume%set2 proc~set2->proc~compute_knot_vector - - + + proc~set2~2 - - -nurbs_curve%set2 + + +nurbs_surface%set2 proc~set2~2->proc~compute_knot_vector - - + + proc~set2~3 - - -nurbs_surface%set2 + + +nurbs_curve%set2 proc~set2~3->proc~compute_knot_vector - - + + none~set - -nurbs_volume%set + +nurbs_volume%set none~set->proc~set2 - - + + none~set~2 - - -nurbs_curve%set + + +nurbs_surface%set none~set~2->proc~set2~2 - - + + none~set~3 - - -nurbs_surface%set + + +nurbs_curve%set none~set~3->proc~set2~3 - - + + proc~elevate_degree - -nurbs_volume%elevate_degree + +nurbs_volume%elevate_degree proc~elevate_degree->none~set - - + + proc~elevate_degree~2 - - -nurbs_curve%elevate_degree + + +nurbs_surface%elevate_degree proc~elevate_degree~2->none~set~2 - - + + proc~elevate_degree~3 - - -nurbs_surface%elevate_degree + + +nurbs_curve%elevate_degree - + proc~elevate_degree~3->none~set~3 - - + + proc~insert_knots - -nurbs_volume%insert_knots + +nurbs_volume%insert_knots proc~insert_knots->none~set - - + + proc~insert_knots~2 - - -nurbs_curve%insert_knots + + +nurbs_surface%insert_knots proc~insert_knots~2->none~set~2 - - + + proc~insert_knots~3 - - -nurbs_surface%insert_knots + + +nurbs_curve%insert_knots - + proc~insert_knots~3->none~set~3 - - + + proc~modify_wc - -nurbs_volume%modify_Wc + +nurbs_volume%modify_Wc proc~modify_wc->none~set - - + + proc~modify_wc~2 - - -nurbs_curve%modify_Wc + + +nurbs_surface%modify_Wc proc~modify_wc~2->none~set~2 - - + + proc~modify_wc~3 - - -nurbs_surface%modify_Wc + + +nurbs_curve%modify_Wc - + proc~modify_wc~3->none~set~3 - - + + proc~modify_xc - -nurbs_volume%modify_Xc + +nurbs_volume%modify_Xc proc~modify_xc->none~set - - + + proc~modify_xc~2 - - -nurbs_curve%modify_Xc + + +nurbs_surface%modify_Xc proc~modify_xc~2->none~set~2 - - + + proc~modify_xc~3 - - -nurbs_surface%modify_Xc + + +nurbs_curve%modify_Xc - + proc~modify_xc~3->none~set~3 - - + + proc~remove_knots - -nurbs_volume%remove_knots + +nurbs_volume%remove_knots proc~remove_knots->none~set - - + + proc~remove_knots~2 - - -nurbs_curve%remove_knots + + +nurbs_surface%remove_knots proc~remove_knots~2->none~set~2 - - + + proc~remove_knots~3 - - -nurbs_surface%remove_knots + + +nurbs_curve%remove_knots - + proc~remove_knots~3->none~set~3 - - + + proc~set_c - -nurbs_volume%set_C + +nurbs_volume%set_C proc~set_c->none~set - - + + proc~set_circle - -nurbs_curve%set_circle + +nurbs_curve%set_circle - - -proc~set_circle->none~set~2 - - + + +proc~set_circle->none~set~3 + + proc~set_c~2 - - -nurbs_curve%set_C + + +nurbs_surface%set_C - + proc~set_c~2->none~set~2 - - + + proc~set_c~3 - - -nurbs_surface%set_C + + +nurbs_curve%set_C - + proc~set_c~3->none~set~3 - - + + proc~set_half_circle - -nurbs_curve%set_half_circle + +nurbs_curve%set_half_circle - - -proc~set_half_circle->none~set~2 - - + + +proc~set_half_circle->none~set~3 + + proc~set_half_ring - -nurbs_volume%set_half_ring + +nurbs_volume%set_half_ring proc~set_half_ring->none~set - - + + proc~set_half_ring~2 - -nurbs_surface%set_half_ring + +nurbs_surface%set_half_ring - - -proc~set_half_ring~2->none~set~3 - - + + +proc~set_half_ring~2->none~set~2 + + proc~set_hexahedron - -nurbs_volume%set_hexahedron + +nurbs_volume%set_hexahedron proc~set_hexahedron->none~set - - + + proc~set_ring - -nurbs_volume%set_ring + +nurbs_volume%set_ring proc~set_ring->none~set - - + + proc~set_ring~2 - -nurbs_surface%set_ring + +nurbs_surface%set_ring - - -proc~set_ring~2->none~set~3 - - + + +proc~set_ring~2->none~set~2 + + proc~set_tetragon - -nurbs_surface%set_tetragon + +nurbs_surface%set_tetragon - - -proc~set_tetragon->none~set~3 - - + + +proc~set_tetragon->none~set~2 + + program~example1_curve - -example1_curve + +example1_curve - - -program~example1_curve->none~set~2 - - + + +program~example1_curve->none~set~3 + + - - -program~example1_curve->proc~elevate_degree~2 - - + + +program~example1_curve->proc~elevate_degree~3 + + - - -program~example1_curve->proc~insert_knots~2 - - + + +program~example1_curve->proc~insert_knots~3 + + - - -program~example1_curve->proc~remove_knots~2 - - + + +program~example1_curve->proc~remove_knots~3 + + program~example3_surface - -example3_surface + +example3_surface - - -program~example3_surface->none~set~3 - - + + +program~example3_surface->none~set~2 + + - - -program~example3_surface->proc~elevate_degree~3 - - + + +program~example3_surface->proc~elevate_degree~2 + + - - -program~example3_surface->proc~insert_knots~3 - - + + +program~example3_surface->proc~insert_knots~2 + + - - -program~example3_surface->proc~remove_knots~3 - - + + +program~example3_surface->proc~remove_knots~2 + + program~example3_volume - -example3_volume + +example3_volume program~example3_volume->none~set - - + + program~example3_volume->proc~elevate_degree - - + + program~example3_volume->proc~insert_knots - - + + program~example3_volume->proc~remove_knots - - + + program~example_nurbs_curve - -example_nurbs_curve + +example_nurbs_curve - - -program~example_nurbs_curve->none~set~2 - - + + +program~example_nurbs_curve->none~set~3 + + program~example_nurbs_surface - -example_nurbs_surface + +example_nurbs_surface - - -program~example_nurbs_surface->none~set~3 - - + + +program~example_nurbs_surface->none~set~2 + + program~example_nurbs_volume - -example_nurbs_volume + +example_nurbs_volume program~example_nurbs_volume->none~set - - + + program~example_put_to_nurbs - -example_put_to_nurbs + +example_put_to_nurbs program~example_put_to_nurbs->none~set - - + + program~example_ppm1 - -example_ppm1 + +example_ppm1 program~example_ppm1->proc~set_ring~2 - - + + program~example_ppm1->proc~set_tetragon - - + + program~example_ppm2 - -example_ppm2 + +example_ppm2 program~example_ppm2->proc~set_half_ring~2 - - + + program~example_ppm2->proc~set_tetragon - - + + program~example_ppm3 - -example_ppm3 + +example_ppm3 - + -program~example_ppm3->proc~modify_xc~3 - - +program~example_ppm3->proc~modify_xc~2 + + program~example_ppm3->proc~set_tetragon - - + + program~nearest_point_1d - -nearest_point_1d + +nearest_point_1d program~nearest_point_1d->proc~set_circle - - + + program~nearest_point_2d - -nearest_point_2d + +nearest_point_2d program~nearest_point_2d->proc~set_tetragon - - + + program~nearest_point_2d_bench - -nearest_point_2d_bench + +nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon - - + + program~nearest_point_3d - -nearest_point_3d + +nearest_point_3d program~nearest_point_3d->proc~set_hexahedron - - + + program~shape_c_1d - -shape_C_1d + +shape_C_1d - - -program~shape_c_1d->proc~set_c~2 - - + + +program~shape_c_1d->proc~set_c~3 + + program~shape_c_2d - -shape_C_2d + +shape_C_2d - - -program~shape_c_2d->proc~set_c~3 - - + + +program~shape_c_2d->proc~set_c~2 + + program~shape_c_3d - -shape_C_3d + +shape_C_3d program~shape_c_3d->proc~set_c - - + + program~shape_circle - -shape_circle + +shape_circle program~shape_circle->proc~set_circle - - + + program~shape_half_circle - -shape_half_circle + +shape_half_circle program~shape_half_circle->proc~set_half_circle - - + + program~shape_half_ring_2d - -shape_half_ring_2d + +shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 - - + + program~shape_half_ring_3d - -shape_half_ring_3d + +shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring - - + + program~shape_hexahedron - -shape_hexahedron + +shape_hexahedron program~shape_hexahedron->proc~set_hexahedron - - + + program~shape_ring_2d - -shape_ring_2d + +shape_ring_2d program~shape_ring_2d->proc~set_ring~2 - - + + program~shape_ring_3d - -shape_ring_3d + +shape_ring_3d program~shape_ring_3d->proc~set_ring - - + + program~shape_tetragon - -shape_tetragon + +shape_tetragon program~shape_tetragon->proc~set_tetragon - - + + @@ -1277,7 +1277,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/rotate_xc.html b/proc/rotate_xc.html index 01f58abcc..6820fbbf2 100644 --- a/proc/rotate_xc.html +++ b/proc/rotate_xc.html @@ -173,7 +173,7 @@

    Arguments

    - + real(kind=rk), intent(in)
    - + real(kind=rk), intent(in)
    - + real(kind=rk), intent(in)
    @@ -159,7 +159,7 @@

    Arguments

    - class(nurbs_curve), + class(nurbs_surface), intent(inout) @@ -231,55 +231,55 @@

    Calls

    - + proc~~rotate_xc~2~~CallsGraph - + proc~rotate_xc~2 - -nurbs_curve%rotate_Xc + +nurbs_surface%rotate_Xc proc~rotation - -rotation + +rotation proc~rotate_xc~2->proc~rotation - - + + cosd - -cosd + +cosd proc~rotation->cosd - - + + sind - -sind + +sind proc~rotation->sind - - + + @@ -375,31 +375,46 @@

    Called by

    - - + + proc~~rotate_xc~2~~CalledByGraph - + proc~rotate_xc~2 - -nurbs_curve%rotate_Xc + +nurbs_surface%rotate_Xc - + -program~example1_curve - - -example1_curve +program~example3_surface + + +example3_surface - + -program~example1_curve->proc~rotate_xc~2 - - +program~example3_surface->proc~rotate_xc~2 + + + + + +program~example_ppm2 + + +example_ppm2 + + + + + +program~example_ppm2->proc~rotate_xc~2 + + @@ -515,7 +530,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/rotate_xc~3.html b/proc/rotate_xc~3.html index eee9ce564..113bae1b0 100644 --- a/proc/rotate_xc~3.html +++ b/proc/rotate_xc~3.html @@ -83,15 +83,15 @@

    rotate_Xc
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure subroutine rotate_Xc(this, alpha, beta, theta)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    @@ -188,7 +188,7 @@

    Arguments

    @@ -203,7 +203,7 @@

    Arguments

    @@ -515,7 +515,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/rotate_xg~2.html b/proc/rotate_xg~2.html index 608a5c9b6..dee429a8a 100644 --- a/proc/rotate_xg~2.html +++ b/proc/rotate_xg~2.html @@ -83,15 +83,15 @@

    rotate_Xg
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure subroutine rotate_Xg(this, alpha, beta, theta)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -231,55 +231,55 @@

    Calls

    - + proc~~rotate_xc~3~~CallsGraph - + proc~rotate_xc~3 - -nurbs_surface%rotate_Xc + +nurbs_curve%rotate_Xc proc~rotation - -rotation + +rotation proc~rotate_xc~3->proc~rotation - - + + cosd - -cosd + +cosd proc~rotation->cosd - - + + sind - -sind + +sind proc~rotation->sind - - + + @@ -375,46 +375,31 @@

    Called by

    - - + + proc~~rotate_xc~3~~CalledByGraph - + proc~rotate_xc~3 - -nurbs_surface%rotate_Xc + +nurbs_curve%rotate_Xc - + -program~example3_surface - - -example3_surface +program~example1_curve + + +example1_curve - + -program~example3_surface->proc~rotate_xc~3 - - - - - -program~example_ppm2 - - -example_ppm2 - - - - - -program~example_ppm2->proc~rotate_xc~3 - - +program~example1_curve->proc~rotate_xc~3 + + @@ -530,7 +515,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/rotate_xg.html b/proc/rotate_xg.html index a1525dfdb..a4d7daff0 100644 --- a/proc/rotate_xg.html +++ b/proc/rotate_xg.html @@ -173,7 +173,7 @@

    Arguments

    - + real(kind=rk), intent(in)
    - + real(kind=rk), intent(in)
    - + real(kind=rk), intent(in)
    @@ -159,7 +159,7 @@

    Arguments

    - class(nurbs_curve), + class(nurbs_surface), intent(inout) @@ -231,55 +231,55 @@

    Calls

    - + proc~~rotate_xg~2~~CallsGraph - + proc~rotate_xg~2 - -nurbs_curve%rotate_Xg + +nurbs_surface%rotate_Xg proc~rotation - -rotation + +rotation proc~rotate_xg~2->proc~rotation - - + + cosd - -cosd + +cosd proc~rotation->cosd - - + + sind - -sind + +sind proc~rotation->sind - - + + @@ -375,31 +375,31 @@

    Called by

    - + proc~~rotate_xg~2~~CalledByGraph - + proc~rotate_xg~2 - -nurbs_curve%rotate_Xg + +nurbs_surface%rotate_Xg - + -program~example1_curve - - -example1_curve +program~example3_surface + + +example3_surface - + -program~example1_curve->proc~rotate_xg~2 - - +program~example3_surface->proc~rotate_xg~2 + + @@ -515,7 +515,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/rotate_xg~3.html b/proc/rotate_xg~3.html index bd743ff14..faa70b9e2 100644 --- a/proc/rotate_xg~3.html +++ b/proc/rotate_xg~3.html @@ -83,15 +83,15 @@

    rotate_Xg
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure subroutine rotate_Xg(this, alpha, beta, theta)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    @@ -171,7 +171,7 @@

    Arguments

    @@ -186,7 +186,7 @@

    Arguments

    @@ -379,24 +379,24 @@

    Called by

    proc~rotate_xc~2 - - -nurbs_curve%rotate_Xc + + +nurbs_surface%rotate_Xc proc~rotate_xc~2->proc~rotation - - + + proc~rotate_xc~3 - - -nurbs_surface%rotate_Xc + + +nurbs_curve%rotate_Xc @@ -424,24 +424,24 @@

    Called by

    proc~rotate_xg~2 - - -nurbs_curve%rotate_Xg + + +nurbs_surface%rotate_Xg proc~rotate_xg~2->proc~rotation - - + + proc~rotate_xg~3 - - -nurbs_surface%rotate_Xg + + +nurbs_curve%rotate_Xg @@ -455,79 +455,79 @@

    Called by

    program~example1_curve - -example1_curve + +example1_curve - - -program~example1_curve->proc~rotate_xc~2 - - + + +program~example1_curve->proc~rotate_xc~3 + + - - -program~example1_curve->proc~rotate_xg~2 - - + + +program~example1_curve->proc~rotate_xg~3 + + program~example3_surface - -example3_surface + +example3_surface - - -program~example3_surface->proc~rotate_xc~3 - - + + +program~example3_surface->proc~rotate_xc~2 + + - - -program~example3_surface->proc~rotate_xg~3 - - + + +program~example3_surface->proc~rotate_xg~2 + + program~example3_volume - -example3_volume + +example3_volume program~example3_volume->proc~rotate_xc - - + + program~example3_volume->proc~rotate_xg - - + + program~example_ppm2 - -example_ppm2 + +example_ppm2 - - -program~example_ppm2->proc~rotate_xc~3 - - + + +program~example_ppm2->proc~rotate_xc~2 + + @@ -643,7 +643,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set1.html b/proc/set1.html index d030816a1..1989fad55 100644 --- a/proc/set1.html +++ b/proc/set1.html @@ -204,7 +204,7 @@

    Arguments

     @@ -219,7 +219,7 @@

    Arguments

    @@ -234,7 +234,7 @@

    Arguments

    @@ -884,7 +884,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set1~2.html b/proc/set1~2.html index 1bf6f9d82..df1f348d7 100644 --- a/proc/set1~2.html +++ b/proc/set1~2.html @@ -78,20 +78,20 @@

    set1
  • 20 statements + title=" 0.5% of total for procedures.">23 statements
  • - Source File + Source File
    • @@ -137,14 +137,14 @@

    Contents

    -

    private pure subroutine set1(this, knot, Xc, Wc) +

    private pure subroutine set1(this, knot1, knot2, Xc, Wc)

    -

    Set knot vector, control points and weights for the NURBS curve object.

    +

    Set knot vectors, control points and weights for the NURBS surface object.

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -231,55 +231,55 @@

    Calls

    - + proc~~rotate_xg~3~~CallsGraph - + proc~rotate_xg~3 - -nurbs_surface%rotate_Xg + +nurbs_curve%rotate_Xg proc~rotation - -rotation + +rotation proc~rotate_xg~3->proc~rotation - - + + cosd - -cosd + +cosd proc~rotation->cosd - - + + sind - -sind + +sind proc~rotation->sind - - + + @@ -375,31 +375,31 @@

    Called by

    - + proc~~rotate_xg~3~~CalledByGraph - + proc~rotate_xg~3 - -nurbs_surface%rotate_Xg + +nurbs_curve%rotate_Xg - + -program~example3_surface - - -example3_surface +program~example1_curve + + +example1_curve - + -program~example3_surface->proc~rotate_xg~3 - - +program~example1_curve->proc~rotate_xg~3 + + @@ -515,7 +515,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/rotation.html b/proc/rotation.html index 524f3ec68..cf5b36f96 100644 --- a/proc/rotation.html +++ b/proc/rotation.html @@ -156,7 +156,7 @@

    Arguments
    - + real(kind=rk), intent(in)
    - + real(kind=rk), intent(in)
    - + real(kind=rk), intent(in)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    @@ -160,7 +160,7 @@

    Arguments

    @@ -182,7 +182,22 @@

    Arguments

    contiguous - + + + + + + + + + @@ -232,91 +247,112 @@

    Calls

    - - + + proc~~set1~2~~CallsGraph - + proc~set1~2 - -nurbs_curve%set1 + +nurbs_surface%set1 proc~cmp_degree~2 - - -nurbs_curve%cmp_degree + + +nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 - - + + - + +proc~cmp_nc~2 + + +nurbs_surface%cmp_nc + + + + + +proc~set1~2->proc~cmp_nc~2 + + + + + proc~get_multiplicity~2 - - -nurbs_curve%get_multiplicity + + +nurbs_surface%get_multiplicity - + proc~cmp_degree~2->proc~get_multiplicity~2 - - + + interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity - - -proc~get_multiplicity~2->interface~compute_multiplicity - - + + +proc~cmp_nc~2->interface~compute_multiplicity + + - + proc~compute_multiplicity1 - - -compute_multiplicity1 + + +compute_multiplicity1 - + interface~compute_multiplicity->proc~compute_multiplicity1 - - + + - + proc~compute_multiplicity2 - - -compute_multiplicity2 + + +compute_multiplicity2 - + interface~compute_multiplicity->proc~compute_multiplicity2 - - + + + + + +proc~get_multiplicity~2->interface~compute_multiplicity + + @@ -416,263 +452,375 @@

    Called by

    - - + + proc~~set1~2~~CalledByGraph - + proc~set1~2 - -nurbs_curve%set1 + +nurbs_surface%set1 none~set~2 - - -nurbs_curve%set + + +nurbs_surface%set none~set~2->proc~set1~2 - - + + proc~elevate_degree~2 - - -nurbs_curve%elevate_degree + + +nurbs_surface%elevate_degree proc~elevate_degree~2->none~set~2 - - + + proc~insert_knots~2 - - -nurbs_curve%insert_knots + + +nurbs_surface%insert_knots proc~insert_knots~2->none~set~2 - - + + proc~modify_wc~2 - - -nurbs_curve%modify_Wc + + +nurbs_surface%modify_Wc proc~modify_wc~2->none~set~2 - - + + proc~modify_xc~2 - - -nurbs_curve%modify_Xc + + +nurbs_surface%modify_Xc proc~modify_xc~2->none~set~2 - - + + proc~remove_knots~2 - - -nurbs_curve%remove_knots + + +nurbs_surface%remove_knots proc~remove_knots~2->none~set~2 - - + + - + -proc~set_circle - - -nurbs_curve%set_circle +proc~set_c~2 + + +nurbs_surface%set_C - + -proc~set_circle->none~set~2 - - +proc~set_c~2->none~set~2 + + - + -proc~set_c~2 - - -nurbs_curve%set_C +proc~set_half_ring~2 + + +nurbs_surface%set_half_ring - + -proc~set_c~2->none~set~2 - - +proc~set_half_ring~2->none~set~2 + + - + -proc~set_half_circle - - -nurbs_curve%set_half_circle +proc~set_ring~2 + + +nurbs_surface%set_ring - + -proc~set_half_circle->none~set~2 - - +proc~set_ring~2->none~set~2 + + - + -program~example1_curve - - -example1_curve +proc~set_tetragon + + +nurbs_surface%set_tetragon - + -program~example1_curve->none~set~2 - - +proc~set_tetragon->none~set~2 + + + + + +program~example3_surface + + +example3_surface + - - -program~example1_curve->proc~elevate_degree~2 - - - + + +program~example3_surface->none~set~2 + + + + -program~example1_curve->proc~insert_knots~2 - - +program~example3_surface->proc~elevate_degree~2 + + - + -program~example1_curve->proc~remove_knots~2 - - +program~example3_surface->proc~insert_knots~2 + + - - -program~example_nurbs_curve - - -example_nurbs_curve + + +program~example3_surface->proc~remove_knots~2 + + + + + +program~example_nurbs_surface + + +example_nurbs_surface - - -program~example_nurbs_curve->none~set~2 - - + + +program~example_nurbs_surface->none~set~2 + + - - -program~nearest_point_1d - - -nearest_point_1d + + +program~example_ppm1 + + +example_ppm1 - + + +program~example_ppm1->proc~set_ring~2 + + + + + +program~example_ppm1->proc~set_tetragon + + + + + +program~example_ppm2 + + +example_ppm2 + + + + + +program~example_ppm2->proc~set_half_ring~2 + + + + + +program~example_ppm2->proc~set_tetragon + + + + + +program~example_ppm3 + + +example_ppm3 + + + + -program~nearest_point_1d->proc~set_circle - - +program~example_ppm3->proc~modify_xc~2 + + + + + +program~example_ppm3->proc~set_tetragon + + + + + +program~nearest_point_2d + + +nearest_point_2d + - - -program~shape_c_1d - - -shape_C_1d + + + +program~nearest_point_2d->proc~set_tetragon + + + + + +program~nearest_point_2d_bench + + +nearest_point_2d_bench + + + + + +program~nearest_point_2d_bench->proc~set_tetragon + + + + + +program~shape_c_2d + + +shape_C_2d - + -program~shape_c_1d->proc~set_c~2 - - +program~shape_c_2d->proc~set_c~2 + + + + + +program~shape_half_ring_2d + + +shape_half_ring_2d + - - -program~shape_circle - - -shape_circle + + + +program~shape_half_ring_2d->proc~set_half_ring~2 + + + + + +program~shape_ring_2d + + +shape_ring_2d - - -program~shape_circle->proc~set_circle - - + + +program~shape_ring_2d->proc~set_ring~2 + + - - -program~shape_half_circle - - -shape_half_circle + + +program~shape_tetragon + + +shape_tetragon - - -program~shape_half_circle->proc~set_half_circle - - + + +program~shape_tetragon->proc~set_tetragon + + -
    +

    diff --git a/proc/set1~3.html b/proc/set1~3.html index 8042b3c20..e335f3297 100644 --- a/proc/set1~3.html +++ b/proc/set1~3.html @@ -78,20 +78,20 @@

    set1
  • 23 statements + title=" 0.4% of total for procedures.">20 statements
  • - Source File + Source File
    • @@ -137,14 +137,14 @@

    Contents

    -

    private pure subroutine set1(this, knot1, knot2, Xc, Wc) +

    private pure subroutine set1(this, knot, Xc, Wc)

    -

    Set knot vectors, control points and weights for the NURBS surface object.

    +

    Set knot vector, control points and weights for the NURBS curve object.

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    - class(nurbs_curve), + class(nurbs_surface), intent(inout) @@ -174,7 +174,7 @@

    Arguments

    - + real(kind=rk), intent(in), ::knot(:)knot1(:) + +
    + + real(kind=rk), + intent(in), + contiguous + ::knot2(:)
    @@ -159,8 +159,8 @@

    Arguments

    @@ -182,29 +182,14 @@

    Arguments

    contiguous - + - - - - - - - - @@ -219,7 +204,7 @@

    Arguments

    @@ -247,112 +232,91 @@

    Calls

    - - + + proc~~set1~3~~CallsGraph - + proc~set1~3 - -nurbs_surface%set1 + +nurbs_curve%set1 proc~cmp_degree~3 - - -nurbs_surface%cmp_degree + + +nurbs_curve%cmp_degree proc~set1~3->proc~cmp_degree~3 - - - - - -proc~cmp_nc~3 - - -nurbs_surface%cmp_nc - - - - - -proc~set1~3->proc~cmp_nc~3 - - + + - + proc~get_multiplicity~3 - - -nurbs_surface%get_multiplicity + + +nurbs_curve%get_multiplicity - + proc~cmp_degree~3->proc~get_multiplicity~3 - - + + interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity - - -proc~cmp_nc~3->interface~compute_multiplicity - - + + +proc~get_multiplicity~3->interface~compute_multiplicity + + - + proc~compute_multiplicity1 - - -compute_multiplicity1 + + +compute_multiplicity1 - + interface~compute_multiplicity->proc~compute_multiplicity1 - - + + - + proc~compute_multiplicity2 - - -compute_multiplicity2 + + +compute_multiplicity2 - + interface~compute_multiplicity->proc~compute_multiplicity2 - - - - - -proc~get_multiplicity~3->interface~compute_multiplicity - - + + @@ -452,375 +416,263 @@

    Called by

    - - + + proc~~set1~3~~CalledByGraph - + proc~set1~3 - -nurbs_surface%set1 + +nurbs_curve%set1 none~set~3 - - -nurbs_surface%set + + +nurbs_curve%set none~set~3->proc~set1~3 - - + + proc~elevate_degree~3 - - -nurbs_surface%elevate_degree + + +nurbs_curve%elevate_degree proc~elevate_degree~3->none~set~3 - - + + proc~insert_knots~3 - - -nurbs_surface%insert_knots + + +nurbs_curve%insert_knots proc~insert_knots~3->none~set~3 - - + + proc~modify_wc~3 - - -nurbs_surface%modify_Wc + + +nurbs_curve%modify_Wc proc~modify_wc~3->none~set~3 - - + + proc~modify_xc~3 - - -nurbs_surface%modify_Xc + + +nurbs_curve%modify_Xc proc~modify_xc~3->none~set~3 - - + + proc~remove_knots~3 - - -nurbs_surface%remove_knots + + +nurbs_curve%remove_knots proc~remove_knots~3->none~set~3 - - + + - + -proc~set_c~3 - - -nurbs_surface%set_C +proc~set_circle + + +nurbs_curve%set_circle - + -proc~set_c~3->none~set~3 - - +proc~set_circle->none~set~3 + + - + -proc~set_half_ring~2 - - -nurbs_surface%set_half_ring +proc~set_c~3 + + +nurbs_curve%set_C - + -proc~set_half_ring~2->none~set~3 - - +proc~set_c~3->none~set~3 + + - + -proc~set_ring~2 - - -nurbs_surface%set_ring +proc~set_half_circle + + +nurbs_curve%set_half_circle - + -proc~set_ring~2->none~set~3 - - +proc~set_half_circle->none~set~3 + + - + -proc~set_tetragon - - -nurbs_surface%set_tetragon +program~example1_curve + + +example1_curve - + -proc~set_tetragon->none~set~3 - - - - - -program~example3_surface - - -example3_surface - - +program~example1_curve->none~set~3 + + - - -program~example3_surface->none~set~3 - - + + +program~example1_curve->proc~elevate_degree~3 + + - + -program~example3_surface->proc~elevate_degree~3 - - +program~example1_curve->proc~insert_knots~3 + + - + -program~example3_surface->proc~insert_knots~3 - - - - - -program~example3_surface->proc~remove_knots~3 - - - - - -program~example_nurbs_surface - - -example_nurbs_surface - - +program~example1_curve->proc~remove_knots~3 + + - - -program~example_nurbs_surface->none~set~3 - - - - - -program~example_ppm1 - - -example_ppm1 - - - - - -program~example_ppm1->proc~set_ring~2 - - - - - -program~example_ppm1->proc~set_tetragon - - - - - -program~example_ppm2 - - -example_ppm2 + + +program~example_nurbs_curve + + +example_nurbs_curve - - -program~example_ppm2->proc~set_half_ring~2 - - - - - -program~example_ppm2->proc~set_tetragon - - + + +program~example_nurbs_curve->none~set~3 + + - - -program~example_ppm3 - - -example_ppm3 + + +program~nearest_point_1d + + +nearest_point_1d - + -program~example_ppm3->proc~modify_xc~3 - - - - - -program~example_ppm3->proc~set_tetragon - - - - - -program~nearest_point_2d - - -nearest_point_2d - - - - - -program~nearest_point_2d->proc~set_tetragon - - +program~nearest_point_1d->proc~set_circle + + - - -program~nearest_point_2d_bench - - -nearest_point_2d_bench - - - - - -program~nearest_point_2d_bench->proc~set_tetragon - - - - - -program~shape_c_2d - - -shape_C_2d + + +program~shape_c_1d + + +shape_C_1d - + -program~shape_c_2d->proc~set_c~3 - - - - - -program~shape_half_ring_2d - - -shape_half_ring_2d - - - - - -program~shape_half_ring_2d->proc~set_half_ring~2 - - +program~shape_c_1d->proc~set_c~3 + + - - -program~shape_ring_2d - - -shape_ring_2d + + +program~shape_circle + + +shape_circle - - -program~shape_ring_2d->proc~set_ring~2 - - + + +program~shape_circle->proc~set_circle + + - - -program~shape_tetragon - - -shape_tetragon + + +program~shape_half_circle + + +shape_half_circle - - -program~shape_tetragon->proc~set_tetragon - - + + +program~shape_half_circle->proc~set_half_circle + + -
    +

    diff --git a/proc/set2.html b/proc/set2.html index 3c06ca245..c45a4c2ba 100644 --- a/proc/set2.html +++ b/proc/set2.html @@ -219,7 +219,7 @@

    Arguments

    @@ -279,7 +279,7 @@

    Arguments

    @@ -294,7 +294,7 @@

    Arguments

    @@ -934,7 +934,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set2~2.html b/proc/set2~2.html index a648a7b1e..d225b68d0 100644 --- a/proc/set2~2.html +++ b/proc/set2~2.html @@ -78,20 +78,20 @@

    set2
  • 22 statements + title=" 0.3% of total for procedures.">15 statements
  • - Source File + Source File
    • @@ -137,14 +137,14 @@

    Contents

    -

    private pure subroutine set2(this, Xth_dir, degree, continuity, Xc, Wc) +

    private pure subroutine set2(this, Xth_dir1, Xth_dir2, degree, continuity1, continuity2, Xc, Wc)

    -

    Set NURBS curve using nodes of parameter space (Xth), degree, continuity, control points and weights.

    +

    Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -174,7 +174,7 @@

    Arguments

    - + real(kind=rk), intent(in), ::knot1(:)knot(:)
    - - real(kind=rk), - intent(in), - contiguous - ::knot2(:) - -
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in),
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    @@ -160,7 +160,7 @@

    Arguments

    @@ -182,7 +182,22 @@

    Arguments

    contiguous - + + + + + + + + + @@ -192,19 +207,19 @@

    Arguments

    integer, - + - + @@ -212,7 +227,22 @@

    Arguments

    contiguous - + + + + + + + + + @@ -262,46 +292,106 @@

    Calls

    - - + + proc~~set2~2~~CallsGraph - + proc~set2~2 - -nurbs_curve%set2 + +nurbs_surface%set2 - + +proc~cmp_nc~2 + + +nurbs_surface%cmp_nc + + + + + +proc~set2~2->proc~cmp_nc~2 + + + + + proc~compute_knot_vector - - -compute_knot_vector + + +compute_knot_vector - + proc~set2~2->proc~compute_knot_vector - - + + + + + +interface~compute_multiplicity + + +compute_multiplicity + + + + + +proc~cmp_nc~2->interface~compute_multiplicity + + - + proc~repelem - - -repelem + + +repelem - + proc~compute_knot_vector->proc~repelem - - + + + + + +proc~compute_multiplicity1 + + +compute_multiplicity1 + + + + + +interface~compute_multiplicity->proc~compute_multiplicity1 + + + + + +proc~compute_multiplicity2 + + +compute_multiplicity2 + + + + + +interface~compute_multiplicity->proc~compute_multiplicity2 + + @@ -397,263 +487,375 @@

    Called by

    - - + + proc~~set2~2~~CalledByGraph - + proc~set2~2 - -nurbs_curve%set2 + +nurbs_surface%set2 none~set~2 - - -nurbs_curve%set + + +nurbs_surface%set none~set~2->proc~set2~2 - - + + proc~elevate_degree~2 - - -nurbs_curve%elevate_degree + + +nurbs_surface%elevate_degree proc~elevate_degree~2->none~set~2 - - + + proc~insert_knots~2 - - -nurbs_curve%insert_knots + + +nurbs_surface%insert_knots proc~insert_knots~2->none~set~2 - - + + proc~modify_wc~2 - - -nurbs_curve%modify_Wc + + +nurbs_surface%modify_Wc proc~modify_wc~2->none~set~2 - - + + proc~modify_xc~2 - - -nurbs_curve%modify_Xc + + +nurbs_surface%modify_Xc proc~modify_xc~2->none~set~2 - - + + proc~remove_knots~2 - - -nurbs_curve%remove_knots + + +nurbs_surface%remove_knots proc~remove_knots~2->none~set~2 - - + + - + -proc~set_circle - - -nurbs_curve%set_circle +proc~set_c~2 + + +nurbs_surface%set_C - + -proc~set_circle->none~set~2 - - +proc~set_c~2->none~set~2 + + - + -proc~set_c~2 - - -nurbs_curve%set_C +proc~set_half_ring~2 + + +nurbs_surface%set_half_ring - + -proc~set_c~2->none~set~2 - - +proc~set_half_ring~2->none~set~2 + + - + -proc~set_half_circle - - -nurbs_curve%set_half_circle +proc~set_ring~2 + + +nurbs_surface%set_ring - + -proc~set_half_circle->none~set~2 - - +proc~set_ring~2->none~set~2 + + - + -program~example1_curve - - -example1_curve +proc~set_tetragon + + +nurbs_surface%set_tetragon - + -program~example1_curve->none~set~2 - - +proc~set_tetragon->none~set~2 + + - - -program~example1_curve->proc~elevate_degree~2 - - + + +program~example3_surface + + +example3_surface + + + + + +program~example3_surface->none~set~2 + + - + -program~example1_curve->proc~insert_knots~2 - - +program~example3_surface->proc~elevate_degree~2 + + - + -program~example1_curve->proc~remove_knots~2 - - +program~example3_surface->proc~insert_knots~2 + + - - -program~example_nurbs_curve - - -example_nurbs_curve + + +program~example3_surface->proc~remove_knots~2 + + + + + +program~example_nurbs_surface + + +example_nurbs_surface - - -program~example_nurbs_curve->none~set~2 - - + + +program~example_nurbs_surface->none~set~2 + + - - -program~nearest_point_1d - - -nearest_point_1d + + +program~example_ppm1 + + +example_ppm1 - + + +program~example_ppm1->proc~set_ring~2 + + + + + +program~example_ppm1->proc~set_tetragon + + + + + +program~example_ppm2 + + +example_ppm2 + + + + + +program~example_ppm2->proc~set_half_ring~2 + + + + + +program~example_ppm2->proc~set_tetragon + + + + + +program~example_ppm3 + + +example_ppm3 + + + + -program~nearest_point_1d->proc~set_circle - - +program~example_ppm3->proc~modify_xc~2 + + + + + +program~example_ppm3->proc~set_tetragon + + + + + +program~nearest_point_2d + + +nearest_point_2d + - - -program~shape_c_1d - - -shape_C_1d + + + +program~nearest_point_2d->proc~set_tetragon + + + + + +program~nearest_point_2d_bench + + +nearest_point_2d_bench - + + +program~nearest_point_2d_bench->proc~set_tetragon + + + + + +program~shape_c_2d + + +shape_C_2d + + + + -program~shape_c_1d->proc~set_c~2 - - +program~shape_c_2d->proc~set_c~2 + + + + + +program~shape_half_ring_2d + + +shape_half_ring_2d + - - -program~shape_circle - - -shape_circle + + + +program~shape_half_ring_2d->proc~set_half_ring~2 + + + + + +program~shape_ring_2d + + +shape_ring_2d - - -program~shape_circle->proc~set_circle - - + + +program~shape_ring_2d->proc~set_ring~2 + + - - -program~shape_half_circle - - -shape_half_circle + + +program~shape_tetragon + + +shape_tetragon - - -program~shape_half_circle->proc~set_half_circle - - + + +program~shape_tetragon->proc~set_tetragon + + -
    +

    diff --git a/proc/set2~3.html b/proc/set2~3.html index 6043905dd..861ad0b9d 100644 --- a/proc/set2~3.html +++ b/proc/set2~3.html @@ -78,20 +78,20 @@

    set2
  • 15 statements + title=" 0.5% of total for procedures.">22 statements
  • - Source File + Source File
    • @@ -137,14 +137,14 @@

    Contents

    -

    private pure subroutine set2(this, Xth_dir1, Xth_dir2, degree, continuity1, continuity2, Xc, Wc) +

    private pure subroutine set2(this, Xth_dir, degree, continuity, Xc, Wc)

    -

    Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights

    +

    Set NURBS curve using nodes of parameter space (Xth), degree, continuity, control points and weights.

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    - class(nurbs_curve), + class(nurbs_surface), intent(inout) @@ -174,7 +174,7 @@

    Arguments

    - + real(kind=rk), intent(in), ::Xth_dir(:)Xth_dir1(:) + +
    + + real(kind=rk), + intent(in), + contiguous + ::Xth_dir2(:) intent(in)intent(in), - + contiguous ::degreedegree(:)
    - + integer, intent(in), ::continuity(:)continuity1(:) + +
    + + integer, + intent(in), + contiguous + ::continuity2(:)
    @@ -159,8 +159,8 @@

    Arguments

    @@ -182,59 +182,29 @@

    Arguments

    contiguous - + - - - - - - - - - + - - - - - - - - - + @@ -242,14 +212,14 @@

    Arguments

    contiguous - + @@ -264,7 +234,7 @@

    Arguments

    @@ -292,106 +262,46 @@

    Calls

    - - + + proc~~set2~3~~CallsGraph - + proc~set2~3 - -nurbs_surface%set2 - - - -proc~cmp_nc~3 - - -nurbs_surface%cmp_nc - - - - - -proc~set2~3->proc~cmp_nc~3 - - + +nurbs_curve%set2 - + proc~compute_knot_vector - - -compute_knot_vector + + +compute_knot_vector - + proc~set2~3->proc~compute_knot_vector - - - - - -interface~compute_multiplicity - - -compute_multiplicity - - - - - -proc~cmp_nc~3->interface~compute_multiplicity - - + + - + proc~repelem - - -repelem + + +repelem - + proc~compute_knot_vector->proc~repelem - - - - - -proc~compute_multiplicity1 - - -compute_multiplicity1 - - - - - -interface~compute_multiplicity->proc~compute_multiplicity1 - - - - - -proc~compute_multiplicity2 - - -compute_multiplicity2 - - - - - -interface~compute_multiplicity->proc~compute_multiplicity2 - - + + @@ -487,375 +397,263 @@

    Called by

    - - + + proc~~set2~3~~CalledByGraph - + proc~set2~3 - -nurbs_surface%set2 + +nurbs_curve%set2 none~set~3 - - -nurbs_surface%set + + +nurbs_curve%set none~set~3->proc~set2~3 - - + + proc~elevate_degree~3 - - -nurbs_surface%elevate_degree + + +nurbs_curve%elevate_degree proc~elevate_degree~3->none~set~3 - - + + proc~insert_knots~3 - - -nurbs_surface%insert_knots + + +nurbs_curve%insert_knots proc~insert_knots~3->none~set~3 - - + + proc~modify_wc~3 - - -nurbs_surface%modify_Wc + + +nurbs_curve%modify_Wc proc~modify_wc~3->none~set~3 - - + + proc~modify_xc~3 - - -nurbs_surface%modify_Xc + + +nurbs_curve%modify_Xc proc~modify_xc~3->none~set~3 - - + + proc~remove_knots~3 - - -nurbs_surface%remove_knots + + +nurbs_curve%remove_knots proc~remove_knots~3->none~set~3 - - + + - + -proc~set_c~3 - - -nurbs_surface%set_C +proc~set_circle + + +nurbs_curve%set_circle - + -proc~set_c~3->none~set~3 - - +proc~set_circle->none~set~3 + + - + -proc~set_half_ring~2 - - -nurbs_surface%set_half_ring +proc~set_c~3 + + +nurbs_curve%set_C - + -proc~set_half_ring~2->none~set~3 - - +proc~set_c~3->none~set~3 + + - + -proc~set_ring~2 - - -nurbs_surface%set_ring +proc~set_half_circle + + +nurbs_curve%set_half_circle - + -proc~set_ring~2->none~set~3 - - +proc~set_half_circle->none~set~3 + + - + -proc~set_tetragon - - -nurbs_surface%set_tetragon +program~example1_curve + + +example1_curve - + -proc~set_tetragon->none~set~3 - - - - - -program~example3_surface - - -example3_surface - - +program~example1_curve->none~set~3 + + - - -program~example3_surface->none~set~3 - - + + +program~example1_curve->proc~elevate_degree~3 + + - + -program~example3_surface->proc~elevate_degree~3 - - +program~example1_curve->proc~insert_knots~3 + + - + -program~example3_surface->proc~insert_knots~3 - - - - - -program~example3_surface->proc~remove_knots~3 - - - - - -program~example_nurbs_surface - - -example_nurbs_surface - - - - - -program~example_nurbs_surface->none~set~3 - - - - - -program~example_ppm1 - - -example_ppm1 - - +program~example1_curve->proc~remove_knots~3 + + - - -program~example_ppm1->proc~set_ring~2 - - - - - -program~example_ppm1->proc~set_tetragon - - - - - -program~example_ppm2 - - -example_ppm2 + + +program~example_nurbs_curve + + +example_nurbs_curve - - -program~example_ppm2->proc~set_half_ring~2 - - - - - -program~example_ppm2->proc~set_tetragon - - + + +program~example_nurbs_curve->none~set~3 + + - - -program~example_ppm3 - - -example_ppm3 + + +program~nearest_point_1d + + +nearest_point_1d - + -program~example_ppm3->proc~modify_xc~3 - - - - - -program~example_ppm3->proc~set_tetragon - - - - - -program~nearest_point_2d - - -nearest_point_2d - +program~nearest_point_1d->proc~set_circle + + - - - -program~nearest_point_2d->proc~set_tetragon - - - - - -program~nearest_point_2d_bench - - -nearest_point_2d_bench - - - - - -program~nearest_point_2d_bench->proc~set_tetragon - - - - - -program~shape_c_2d - - -shape_C_2d + + +program~shape_c_1d + + +shape_C_1d - + -program~shape_c_2d->proc~set_c~3 - - - - - -program~shape_half_ring_2d - - -shape_half_ring_2d - - +program~shape_c_1d->proc~set_c~3 + + - - -program~shape_half_ring_2d->proc~set_half_ring~2 - - - - - -program~shape_ring_2d - - -shape_ring_2d + + +program~shape_circle + + +shape_circle - - -program~shape_ring_2d->proc~set_ring~2 - - + + +program~shape_circle->proc~set_circle + + - - -program~shape_tetragon - - -shape_tetragon + + +program~shape_half_circle + + +shape_half_circle - - -program~shape_tetragon->proc~set_tetragon - - + + +program~shape_half_circle->proc~set_half_circle + + -
    +

    diff --git a/proc/set3.html b/proc/set3.html index 13a09ef04..9cdf82be6 100644 --- a/proc/set3.html +++ b/proc/set3.html @@ -174,7 +174,7 @@

    Arguments

    @@ -189,7 +189,7 @@

    Arguments

    @@ -204,7 +204,7 @@

    Arguments

    @@ -833,7 +833,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set3~2.html b/proc/set3~2.html index bc412b743..a76f26209 100644 --- a/proc/set3~2.html +++ b/proc/set3~2.html @@ -78,20 +78,20 @@

    set3
  • 22 statements + title=" 0.6% of total for procedures.">26 statements
  • - Source File + Source File
    • @@ -137,14 +137,14 @@

    Contents

    -

    private pure subroutine set3(this, Xc, Wc) +

    private pure subroutine set3(this, nc, Xc, Wc)

    -

    Set Bezier or Rational Bezier curve using control points and weights.

    +

    Set Bezier or Rational Bezier surface using control points and weights.

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -174,7 +174,7 @@

    Arguments

    - + real(kind=rk), intent(in), ::Xth_dir1(:)Xth_dir(:)
    - - real(kind=rk), - intent(in), - contiguous - ::Xth_dir2(:) - -
    - + integer, intent(in),intent(in) - contiguous - ::degree(:) - -
    - - integer, - intent(in), - contiguous + ::continuity1(:)degree
    - + integer, intent(in), ::continuity2(:)continuity(:)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in),
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    @@ -160,7 +160,7 @@

    Arguments

    + + + + + + + +
    - class(nurbs_curve), + class(nurbs_surface), intent(inout) @@ -172,6 +172,21 @@

    Arguments
    + + integer, + intent(in), + contiguous + ::nc(:) + +
    @@ -217,91 +232,91 @@

    Calls

    - - + + proc~~set3~2~~CallsGraph - + proc~set3~2 - -nurbs_curve%set3 + +nurbs_surface%set3 proc~cmp_degree~2 - - -nurbs_curve%cmp_degree + + +nurbs_surface%cmp_degree proc~set3~2->proc~cmp_degree~2 - - + + proc~get_multiplicity~2 - - -nurbs_curve%get_multiplicity + + +nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 - - + + interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity - - + + proc~compute_multiplicity1 - -compute_multiplicity1 + +compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 - - + + proc~compute_multiplicity2 - -compute_multiplicity2 + +compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 - - + + @@ -401,263 +416,375 @@

    Called by

    - - + + proc~~set3~2~~CalledByGraph - + proc~set3~2 - -nurbs_curve%set3 + +nurbs_surface%set3 none~set~2 - - -nurbs_curve%set + + +nurbs_surface%set none~set~2->proc~set3~2 - - + + proc~elevate_degree~2 - - -nurbs_curve%elevate_degree + + +nurbs_surface%elevate_degree proc~elevate_degree~2->none~set~2 - - + + proc~insert_knots~2 - - -nurbs_curve%insert_knots + + +nurbs_surface%insert_knots proc~insert_knots~2->none~set~2 - - + + proc~modify_wc~2 - - -nurbs_curve%modify_Wc + + +nurbs_surface%modify_Wc proc~modify_wc~2->none~set~2 - - + + proc~modify_xc~2 - - -nurbs_curve%modify_Xc + + +nurbs_surface%modify_Xc proc~modify_xc~2->none~set~2 - - + + proc~remove_knots~2 - - -nurbs_curve%remove_knots + + +nurbs_surface%remove_knots proc~remove_knots~2->none~set~2 - - + + - + -proc~set_circle - - -nurbs_curve%set_circle +proc~set_c~2 + + +nurbs_surface%set_C - + -proc~set_circle->none~set~2 - - +proc~set_c~2->none~set~2 + + - + -proc~set_c~2 - - -nurbs_curve%set_C +proc~set_half_ring~2 + + +nurbs_surface%set_half_ring - + -proc~set_c~2->none~set~2 - - +proc~set_half_ring~2->none~set~2 + + - + -proc~set_half_circle - - -nurbs_curve%set_half_circle +proc~set_ring~2 + + +nurbs_surface%set_ring - + -proc~set_half_circle->none~set~2 - - +proc~set_ring~2->none~set~2 + + - + -program~example1_curve - - -example1_curve +proc~set_tetragon + + +nurbs_surface%set_tetragon - + -program~example1_curve->none~set~2 - - +proc~set_tetragon->none~set~2 + + - - -program~example1_curve->proc~elevate_degree~2 - - + + +program~example3_surface + + +example3_surface + + + + + +program~example3_surface->none~set~2 + + - + -program~example1_curve->proc~insert_knots~2 - - +program~example3_surface->proc~elevate_degree~2 + + - + -program~example1_curve->proc~remove_knots~2 - - +program~example3_surface->proc~insert_knots~2 + + - - -program~example_nurbs_curve - - -example_nurbs_curve + + +program~example3_surface->proc~remove_knots~2 + + + + + +program~example_nurbs_surface + + +example_nurbs_surface - - -program~example_nurbs_curve->none~set~2 - - + + +program~example_nurbs_surface->none~set~2 + + - - -program~nearest_point_1d - - -nearest_point_1d + + +program~example_ppm1 + + +example_ppm1 - + + +program~example_ppm1->proc~set_ring~2 + + + + + +program~example_ppm1->proc~set_tetragon + + + + + +program~example_ppm2 + + +example_ppm2 + + + + + +program~example_ppm2->proc~set_half_ring~2 + + + + + +program~example_ppm2->proc~set_tetragon + + + + + +program~example_ppm3 + + +example_ppm3 + + + + -program~nearest_point_1d->proc~set_circle - - +program~example_ppm3->proc~modify_xc~2 + + + + + +program~example_ppm3->proc~set_tetragon + + + + + +program~nearest_point_2d + + +nearest_point_2d + - - -program~shape_c_1d - - -shape_C_1d + + + +program~nearest_point_2d->proc~set_tetragon + + + + + +program~nearest_point_2d_bench + + +nearest_point_2d_bench + + + + + +program~nearest_point_2d_bench->proc~set_tetragon + + + + + +program~shape_c_2d + + +shape_C_2d - + -program~shape_c_1d->proc~set_c~2 - - +program~shape_c_2d->proc~set_c~2 + + + + + +program~shape_half_ring_2d + + +shape_half_ring_2d + - - -program~shape_circle - - -shape_circle + + + +program~shape_half_ring_2d->proc~set_half_ring~2 + + + + + +program~shape_ring_2d + + +shape_ring_2d - - -program~shape_circle->proc~set_circle - - + + +program~shape_ring_2d->proc~set_ring~2 + + - - -program~shape_half_circle - - -shape_half_circle + + +program~shape_tetragon + + +shape_tetragon - - -program~shape_half_circle->proc~set_half_circle - - + + +program~shape_tetragon->proc~set_tetragon + + -
    +

    diff --git a/proc/set3~3.html b/proc/set3~3.html index ee6a8338b..f343fc3c6 100644 --- a/proc/set3~3.html +++ b/proc/set3~3.html @@ -78,20 +78,20 @@

    set3
  • 26 statements + title=" 0.5% of total for procedures.">22 statements
  • - Source File + Source File
    • @@ -137,14 +137,14 @@

    Contents

    -

    private pure subroutine set3(this, nc, Xc, Wc) +

    private pure subroutine set3(this, Xc, Wc)

    -

    Set Bezier or Rational Bezier surface using control points and weights.

    +

    Set Bezier or Rational Bezier curve using control points and weights.

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -159,8 +159,8 @@

    Arguments

    - - - - - - - - @@ -204,7 +189,7 @@

    Arguments

    @@ -232,91 +217,91 @@

    Calls

    - - + + proc~~set3~3~~CallsGraph - + proc~set3~3 - -nurbs_surface%set3 + +nurbs_curve%set3 proc~cmp_degree~3 - - -nurbs_surface%cmp_degree + + +nurbs_curve%cmp_degree proc~set3~3->proc~cmp_degree~3 - - + + proc~get_multiplicity~3 - - -nurbs_surface%get_multiplicity + + +nurbs_curve%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 - - + + interface~compute_multiplicity - -compute_multiplicity + +compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity - - + + proc~compute_multiplicity1 - -compute_multiplicity1 + +compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 - - + + proc~compute_multiplicity2 - -compute_multiplicity2 + +compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 - - + + @@ -416,375 +401,263 @@

    Called by

    - - + + proc~~set3~3~~CalledByGraph - + proc~set3~3 - -nurbs_surface%set3 + +nurbs_curve%set3 none~set~3 - - -nurbs_surface%set + + +nurbs_curve%set none~set~3->proc~set3~3 - - + + proc~elevate_degree~3 - - -nurbs_surface%elevate_degree + + +nurbs_curve%elevate_degree proc~elevate_degree~3->none~set~3 - - + + proc~insert_knots~3 - - -nurbs_surface%insert_knots + + +nurbs_curve%insert_knots proc~insert_knots~3->none~set~3 - - + + proc~modify_wc~3 - - -nurbs_surface%modify_Wc + + +nurbs_curve%modify_Wc proc~modify_wc~3->none~set~3 - - + + proc~modify_xc~3 - - -nurbs_surface%modify_Xc + + +nurbs_curve%modify_Xc proc~modify_xc~3->none~set~3 - - + + proc~remove_knots~3 - - -nurbs_surface%remove_knots + + +nurbs_curve%remove_knots proc~remove_knots~3->none~set~3 - - + + - + -proc~set_c~3 - - -nurbs_surface%set_C +proc~set_circle + + +nurbs_curve%set_circle - + -proc~set_c~3->none~set~3 - - +proc~set_circle->none~set~3 + + - + -proc~set_half_ring~2 - - -nurbs_surface%set_half_ring +proc~set_c~3 + + +nurbs_curve%set_C - + -proc~set_half_ring~2->none~set~3 - - +proc~set_c~3->none~set~3 + + - + -proc~set_ring~2 - - -nurbs_surface%set_ring +proc~set_half_circle + + +nurbs_curve%set_half_circle - + -proc~set_ring~2->none~set~3 - - +proc~set_half_circle->none~set~3 + + - + -proc~set_tetragon - - -nurbs_surface%set_tetragon +program~example1_curve + + +example1_curve - + -proc~set_tetragon->none~set~3 - - - - - -program~example3_surface - - -example3_surface - +program~example1_curve->none~set~3 + + + + +program~example1_curve->proc~elevate_degree~3 + + - - -program~example3_surface->none~set~3 - - - - + -program~example3_surface->proc~elevate_degree~3 - - +program~example1_curve->proc~insert_knots~3 + + - + -program~example3_surface->proc~insert_knots~3 - - - - - -program~example3_surface->proc~remove_knots~3 - - - - - -program~example_nurbs_surface - - -example_nurbs_surface - - - - - -program~example_nurbs_surface->none~set~3 - - - - - -program~example_ppm1 - - -example_ppm1 - - +program~example1_curve->proc~remove_knots~3 + + - - -program~example_ppm1->proc~set_ring~2 - - - - - -program~example_ppm1->proc~set_tetragon - - - - - -program~example_ppm2 - - -example_ppm2 + + +program~example_nurbs_curve + + +example_nurbs_curve - - -program~example_ppm2->proc~set_half_ring~2 - - - - - -program~example_ppm2->proc~set_tetragon - - + + +program~example_nurbs_curve->none~set~3 + + - - -program~example_ppm3 - - -example_ppm3 + + +program~nearest_point_1d + + +nearest_point_1d - + -program~example_ppm3->proc~modify_xc~3 - - - - - -program~example_ppm3->proc~set_tetragon - - - - - -program~nearest_point_2d - - -nearest_point_2d - - - - - -program~nearest_point_2d->proc~set_tetragon - - +program~nearest_point_1d->proc~set_circle + + - - -program~nearest_point_2d_bench - - -nearest_point_2d_bench - - - - - -program~nearest_point_2d_bench->proc~set_tetragon - - - - - -program~shape_c_2d - - -shape_C_2d + + +program~shape_c_1d + + +shape_C_1d - + -program~shape_c_2d->proc~set_c~3 - - - - - -program~shape_half_ring_2d - - -shape_half_ring_2d - - - - - -program~shape_half_ring_2d->proc~set_half_ring~2 - - +program~shape_c_1d->proc~set_c~3 + + - - -program~shape_ring_2d - - -shape_ring_2d + + +program~shape_circle + + +shape_circle - - -program~shape_ring_2d->proc~set_ring~2 - - + + +program~shape_circle->proc~set_circle + + - - -program~shape_tetragon - - -shape_tetragon + + +program~shape_half_circle + + +shape_half_circle - - -program~shape_tetragon->proc~set_tetragon - - + + +program~shape_half_circle->proc~set_half_circle + + -
    +

    diff --git a/proc/set_c.html b/proc/set_c.html index e9d186573..d2c1bc58a 100644 --- a/proc/set_c.html +++ b/proc/set_c.html @@ -173,7 +173,7 @@

    Arguments

    @@ -693,7 +693,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set_circle.html b/proc/set_circle.html index 22bb0b8c1..5a7e960c7 100644 --- a/proc/set_circle.html +++ b/proc/set_circle.html @@ -158,7 +158,7 @@

    Arguments

    @@ -173,7 +173,7 @@

    Arguments

    @@ -227,78 +227,78 @@

    Calls

    nurbs_curve%set_circle - + -none~set~2 - +none~set~3 + nurbs_curve%set - + -proc~set_circle->none~set~2 +proc~set_circle->none~set~3 - + -proc~set1~2 - +proc~set1~3 + nurbs_curve%set1 - + -none~set~2->proc~set1~2 +none~set~3->proc~set1~3 - + -proc~set2~2 - +proc~set2~3 + nurbs_curve%set2 - + -none~set~2->proc~set2~2 +none~set~3->proc~set2~3 - + -proc~set3~2 - +proc~set3~3 + nurbs_curve%set3 - + -none~set~2->proc~set3~2 +none~set~3->proc~set3~3 - + -proc~cmp_degree~2 - +proc~cmp_degree~3 + nurbs_curve%cmp_degree - + -proc~set1~2->proc~cmp_degree~2 +proc~set1~3->proc~cmp_degree~3 @@ -311,30 +311,30 @@

    Calls

    - + -proc~set2~2->proc~compute_knot_vector +proc~set2~3->proc~compute_knot_vector - + -proc~set3~2->proc~cmp_degree~2 +proc~set3~3->proc~cmp_degree~3 - + -proc~get_multiplicity~2 - +proc~get_multiplicity~3 + nurbs_curve%get_multiplicity - + -proc~cmp_degree~2->proc~get_multiplicity~2 +proc~cmp_degree~3->proc~get_multiplicity~3 @@ -362,9 +362,9 @@

    Calls

    - + -proc~get_multiplicity~2->interface~compute_multiplicity +proc~get_multiplicity~3->interface~compute_multiplicity @@ -651,7 +651,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set_c~2.html b/proc/set_c~2.html index 2b8d94075..7b0e85d0e 100644 --- a/proc/set_c~2.html +++ b/proc/set_c~2.html @@ -78,20 +78,20 @@

    set_C
  • 19 statements + title=" 0.6% of total for procedures.">27 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure subroutine set_C(this, center, radius) +

    private pure subroutine set_C(this, center, radius1, radius2)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -174,22 +174,7 @@

    Arguments

    - - integer, - intent(in), - contiguous - ::nc(:) - -
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + class(nurbs_curve), intent(inout)
    - + real(kind=rk), intent(in),
    @@ -158,8 +158,8 @@

    Arguments

    @@ -188,7 +188,7 @@

    Arguments

    @@ -196,7 +196,22 @@

    Arguments

    - + + + + + + + + + @@ -216,187 +231,214 @@

    Calls

    - - + + proc~~set_c~2~~CallsGraph - + proc~set_c~2 - -nurbs_curve%set_C + +nurbs_surface%set_C none~set~2 - - -nurbs_curve%set + + +nurbs_surface%set proc~set_c~2->none~set~2 - - + + proc~set1~2 - - -nurbs_curve%set1 + + +nurbs_surface%set1 none~set~2->proc~set1~2 - - + + proc~set2~2 - - -nurbs_curve%set2 + + +nurbs_surface%set2 none~set~2->proc~set2~2 - - + + proc~set3~2 - - -nurbs_curve%set3 + + +nurbs_surface%set3 none~set~2->proc~set3~2 - - + + proc~cmp_degree~2 - - -nurbs_curve%cmp_degree + + +nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 - - + + - + +proc~cmp_nc~2 + + +nurbs_surface%cmp_nc + + + + + +proc~set1~2->proc~cmp_nc~2 + + + + + +proc~set2~2->proc~cmp_nc~2 + + + + + proc~compute_knot_vector - - -compute_knot_vector + + +compute_knot_vector - + proc~set2~2->proc~compute_knot_vector - - + + - + proc~set3~2->proc~cmp_degree~2 - - + + - + proc~get_multiplicity~2 - - -nurbs_curve%get_multiplicity + + +nurbs_surface%get_multiplicity - + proc~cmp_degree~2->proc~get_multiplicity~2 - - + + - + -proc~repelem - - -repelem +interface~compute_multiplicity + + +compute_multiplicity - - -proc~compute_knot_vector->proc~repelem - - + + +proc~cmp_nc~2->interface~compute_multiplicity + + - - -interface~compute_multiplicity - - -compute_multiplicity + + +proc~repelem + + +repelem - - -proc~get_multiplicity~2->interface~compute_multiplicity - - + + +proc~compute_knot_vector->proc~repelem + + - + proc~compute_multiplicity1 - - -compute_multiplicity1 + + +compute_multiplicity1 - + interface~compute_multiplicity->proc~compute_multiplicity1 - - + + - + proc~compute_multiplicity2 - - -compute_multiplicity2 + + +compute_multiplicity2 - + interface~compute_multiplicity->proc~compute_multiplicity2 - - + + + + + +proc~get_multiplicity~2->interface~compute_multiplicity + + @@ -496,31 +538,31 @@

    Called by

    - + proc~~set_c~2~~CalledByGraph - + proc~set_c~2 - -nurbs_curve%set_C + +nurbs_surface%set_C - + -program~shape_c_1d - +program~shape_c_2d + -shape_C_1d +shape_C_2d - + -program~shape_c_1d->proc~set_c~2 - - +program~shape_c_2d->proc~set_c~2 + + @@ -636,7 +678,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set_c~3.html b/proc/set_c~3.html index a7e96c30b..c169591d6 100644 --- a/proc/set_c~3.html +++ b/proc/set_c~3.html @@ -78,20 +78,20 @@

    set_C
  • 27 statements + title=" 0.4% of total for procedures.">19 statements
  • - Source File + Source File
    • @@ -137,13 +137,13 @@

    Contents

    -

    private pure subroutine set_C(this, center, radius1, radius2) +

    private pure subroutine set_C(this, center, radius)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(inout) @@ -173,7 +173,7 @@

    Arguments

    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in) ::radiusradius1 + +
    + + real(kind=rk), + intent(in) + + ::radius2
    @@ -158,8 +158,8 @@

    Arguments

    @@ -196,22 +196,7 @@

    Arguments

    - - - - - - - - - + @@ -231,214 +216,187 @@

    Calls

    - - + + proc~~set_c~3~~CallsGraph - + proc~set_c~3 - -nurbs_surface%set_C + +nurbs_curve%set_C none~set~3 - - -nurbs_surface%set + + +nurbs_curve%set proc~set_c~3->none~set~3 - - + + proc~set1~3 - - -nurbs_surface%set1 + + +nurbs_curve%set1 none~set~3->proc~set1~3 - - + + proc~set2~3 - - -nurbs_surface%set2 + + +nurbs_curve%set2 none~set~3->proc~set2~3 - - + + proc~set3~3 - - -nurbs_surface%set3 + + +nurbs_curve%set3 none~set~3->proc~set3~3 - - + + proc~cmp_degree~3 - - -nurbs_surface%cmp_degree + + +nurbs_curve%cmp_degree proc~set1~3->proc~cmp_degree~3 - - - - - -proc~cmp_nc~3 - - -nurbs_surface%cmp_nc - - - - - -proc~set1~3->proc~cmp_nc~3 - - - - - -proc~set2~3->proc~cmp_nc~3 - - + + - + proc~compute_knot_vector - - -compute_knot_vector + + +compute_knot_vector - + proc~set2~3->proc~compute_knot_vector - - + + - + proc~set3~3->proc~cmp_degree~3 - - + + - + proc~get_multiplicity~3 - - -nurbs_surface%get_multiplicity + + +nurbs_curve%get_multiplicity - + proc~cmp_degree~3->proc~get_multiplicity~3 - - + + - + -interface~compute_multiplicity - - -compute_multiplicity +proc~repelem + + +repelem - - -proc~cmp_nc~3->interface~compute_multiplicity - - + + +proc~compute_knot_vector->proc~repelem + + - - -proc~repelem - - -repelem + + +interface~compute_multiplicity + + +compute_multiplicity - - -proc~compute_knot_vector->proc~repelem - - + + +proc~get_multiplicity~3->interface~compute_multiplicity + + - + proc~compute_multiplicity1 - - -compute_multiplicity1 + + +compute_multiplicity1 - + interface~compute_multiplicity->proc~compute_multiplicity1 - - + + - + proc~compute_multiplicity2 - - -compute_multiplicity2 + + +compute_multiplicity2 - + interface~compute_multiplicity->proc~compute_multiplicity2 - - - - - -proc~get_multiplicity~3->interface~compute_multiplicity - - + + @@ -538,31 +496,31 @@

    Called by

    - + proc~~set_c~3~~CalledByGraph - + proc~set_c~3 - -nurbs_surface%set_C + +nurbs_curve%set_C - + -program~shape_c_2d - +program~shape_c_1d + -shape_C_2d +shape_C_1d - + -program~shape_c_2d->proc~set_c~3 - - +program~shape_c_1d->proc~set_c~3 + + @@ -678,7 +636,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set_elem.html b/proc/set_elem.html index 8cc3e140e..6838d6da2 100644 --- a/proc/set_elem.html +++ b/proc/set_elem.html @@ -173,7 +173,7 @@

    Arguments

    @@ -220,7 +220,7 @@

    Arguments

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set_elem_xc_vis.html b/proc/set_elem_xc_vis.html index 9aad32a9e..da616fd1c 100644 --- a/proc/set_elem_xc_vis.html +++ b/proc/set_elem_xc_vis.html @@ -173,7 +173,7 @@

    Arguments

    @@ -220,7 +220,7 @@

    Arguments

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set_elem_xc_vis~2.html b/proc/set_elem_xc_vis~2.html index 65ac51af4..e0f4b73cb 100644 --- a/proc/set_elem_xc_vis~2.html +++ b/proc/set_elem_xc_vis~2.html @@ -83,15 +83,15 @@

    set_elem_Xc_vis
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure subroutine set_elem_Xc_vis(this, elemConn)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -188,7 +188,7 @@

    Arguments

    - + real(kind=rk), intent(in) ::radius1 - -
    - - real(kind=rk), - intent(in) - - ::radius2radius
    - + integer, intent(in),
    - + integer, intent(in),
    @@ -158,8 +158,8 @@

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(inout) @@ -220,7 +220,7 @@

    Arguments

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set_elem_xc_vis~3.html b/proc/set_elem_xc_vis~3.html index 04668474a..1498aea06 100644 --- a/proc/set_elem_xc_vis~3.html +++ b/proc/set_elem_xc_vis~3.html @@ -83,15 +83,15 @@

    set_elem_Xc_vis
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure subroutine set_elem_Xc_vis(this, elemConn)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    @@ -356,7 +356,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set_elem_xg_vis~2.html b/proc/set_elem_xg_vis~2.html index 98a868d1b..8a91d23aa 100644 --- a/proc/set_elem_xg_vis~2.html +++ b/proc/set_elem_xg_vis~2.html @@ -83,15 +83,15 @@

    set_elem_Xg_vis
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure subroutine set_elem_Xg_vis(this, elemConn)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -220,7 +220,7 @@

    Arguments

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set_elem_xg_vis.html b/proc/set_elem_xg_vis.html index 63bf8143c..0bcece580 100644 --- a/proc/set_elem_xg_vis.html +++ b/proc/set_elem_xg_vis.html @@ -173,7 +173,7 @@

    Arguments

    - + integer, intent(in),
    @@ -158,8 +158,8 @@

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(inout) @@ -220,7 +220,7 @@

    Arguments

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set_elem_xg_vis~3.html b/proc/set_elem_xg_vis~3.html index 08b00fd07..c049ff1b9 100644 --- a/proc/set_elem_xg_vis~3.html +++ b/proc/set_elem_xg_vis~3.html @@ -83,15 +83,15 @@

    set_elem_Xg_vis
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure subroutine set_elem_Xg_vis(this, elemConn)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -220,7 +220,7 @@

    Arguments

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set_elem~2.html b/proc/set_elem~2.html index 0f2975e39..2fa2549e3 100644 --- a/proc/set_elem~2.html +++ b/proc/set_elem~2.html @@ -83,15 +83,15 @@

    set_elem
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure subroutine set_elem(this, elemConn)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    - - class(nurbs_curve), + + class(nurbs_surface), intent(inout) @@ -220,7 +220,7 @@

    Arguments

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set_elem~3.html b/proc/set_elem~3.html index 0f4069104..b133e97d3 100644 --- a/proc/set_elem~3.html +++ b/proc/set_elem~3.html @@ -83,15 +83,15 @@

    set_elem
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure subroutine set_elem(this, elemConn)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    @@ -173,7 +173,7 @@

    Arguments

    @@ -227,78 +227,78 @@

    Calls

    nurbs_curve%set_half_circle - + -none~set~2 - +none~set~3 + nurbs_curve%set - + -proc~set_half_circle->none~set~2 +proc~set_half_circle->none~set~3 - + -proc~set1~2 - +proc~set1~3 + nurbs_curve%set1 - + -none~set~2->proc~set1~2 +none~set~3->proc~set1~3 - + -proc~set2~2 - +proc~set2~3 + nurbs_curve%set2 - + -none~set~2->proc~set2~2 +none~set~3->proc~set2~3 - + -proc~set3~2 - +proc~set3~3 + nurbs_curve%set3 - + -none~set~2->proc~set3~2 +none~set~3->proc~set3~3 - + -proc~cmp_degree~2 - +proc~cmp_degree~3 + nurbs_curve%cmp_degree - + -proc~set1~2->proc~cmp_degree~2 +proc~set1~3->proc~cmp_degree~3 @@ -311,30 +311,30 @@

    Calls

    - + -proc~set2~2->proc~compute_knot_vector +proc~set2~3->proc~compute_knot_vector - + -proc~set3~2->proc~cmp_degree~2 +proc~set3~3->proc~cmp_degree~3 - + -proc~get_multiplicity~2 - +proc~get_multiplicity~3 + nurbs_curve%get_multiplicity - + -proc~cmp_degree~2->proc~get_multiplicity~2 +proc~cmp_degree~3->proc~get_multiplicity~3 @@ -362,9 +362,9 @@

    Calls

    - + -proc~get_multiplicity~2->interface~compute_multiplicity +proc~get_multiplicity~3->interface~compute_multiplicity @@ -636,7 +636,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set_half_ring.html b/proc/set_half_ring.html index e17896532..472747bc4 100644 --- a/proc/set_half_ring.html +++ b/proc/set_half_ring.html @@ -173,7 +173,7 @@

    Arguments

     @@ -693,7 +693,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set_half_ring~2.html b/proc/set_half_ring~2.html index 7526519e1..4a104bb13 100644 --- a/proc/set_half_ring~2.html +++ b/proc/set_half_ring~2.html @@ -158,7 +158,7 @@

    Arguments

    @@ -173,7 +173,7 @@

    Arguments

    @@ -242,99 +242,99 @@

    Calls

    nurbs_surface%set_half_ring - + -none~set~3 - +none~set~2 + nurbs_surface%set - + -proc~set_half_ring~2->none~set~3 +proc~set_half_ring~2->none~set~2 - + -proc~set1~3 - +proc~set1~2 + nurbs_surface%set1 - + -none~set~3->proc~set1~3 +none~set~2->proc~set1~2 - + -proc~set2~3 - +proc~set2~2 + nurbs_surface%set2 - + -none~set~3->proc~set2~3 +none~set~2->proc~set2~2 - + -proc~set3~3 - +proc~set3~2 + nurbs_surface%set3 - + -none~set~3->proc~set3~3 +none~set~2->proc~set3~2 - + -proc~cmp_degree~3 - +proc~cmp_degree~2 + nurbs_surface%cmp_degree - + -proc~set1~3->proc~cmp_degree~3 +proc~set1~2->proc~cmp_degree~2 - + -proc~cmp_nc~3 - +proc~cmp_nc~2 + nurbs_surface%cmp_nc - + -proc~set1~3->proc~cmp_nc~3 +proc~set1~2->proc~cmp_nc~2 - + -proc~set2~3->proc~cmp_nc~3 +proc~set2~2->proc~cmp_nc~2 @@ -347,30 +347,30 @@

    Calls

    - + -proc~set2~3->proc~compute_knot_vector +proc~set2~2->proc~compute_knot_vector - + -proc~set3~3->proc~cmp_degree~3 +proc~set3~2->proc~cmp_degree~2 - + -proc~get_multiplicity~3 - +proc~get_multiplicity~2 + nurbs_surface%get_multiplicity - + -proc~cmp_degree~3->proc~get_multiplicity~3 +proc~cmp_degree~2->proc~get_multiplicity~2 @@ -383,9 +383,9 @@

    Calls

    - + -proc~cmp_nc~3->interface~compute_multiplicity +proc~cmp_nc~2->interface~compute_multiplicity @@ -434,9 +434,9 @@

    Calls

    - + -proc~get_multiplicity~3->interface~compute_multiplicity +proc~get_multiplicity~2->interface~compute_multiplicity @@ -693,7 +693,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set_hexahedron.html b/proc/set_hexahedron.html index ef0a923e0..7d4e98cd8 100644 --- a/proc/set_hexahedron.html +++ b/proc/set_hexahedron.html @@ -173,7 +173,7 @@

    Arguments

     @@ -188,7 +188,7 @@

    Arguments

    @@ -203,7 +203,7 @@

    Arguments

    @@ -708,7 +708,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set_ring.html b/proc/set_ring.html index 9b41a9a8f..f14278e9e 100644 --- a/proc/set_ring.html +++ b/proc/set_ring.html @@ -173,7 +173,7 @@

    Arguments

    @@ -693,7 +693,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set_ring~2.html b/proc/set_ring~2.html index cbbcb9c00..62fd73348 100644 --- a/proc/set_ring~2.html +++ b/proc/set_ring~2.html @@ -158,7 +158,7 @@

    Arguments

    @@ -173,7 +173,7 @@

    Arguments

    @@ -242,99 +242,99 @@

    Calls

    nurbs_surface%set_ring - + -none~set~3 - +none~set~2 + nurbs_surface%set - + -proc~set_ring~2->none~set~3 +proc~set_ring~2->none~set~2 - + -proc~set1~3 - +proc~set1~2 + nurbs_surface%set1 - + -none~set~3->proc~set1~3 +none~set~2->proc~set1~2 - + -proc~set2~3 - +proc~set2~2 + nurbs_surface%set2 - + -none~set~3->proc~set2~3 +none~set~2->proc~set2~2 - + -proc~set3~3 - +proc~set3~2 + nurbs_surface%set3 - + -none~set~3->proc~set3~3 +none~set~2->proc~set3~2 - + -proc~cmp_degree~3 - +proc~cmp_degree~2 + nurbs_surface%cmp_degree - + -proc~set1~3->proc~cmp_degree~3 +proc~set1~2->proc~cmp_degree~2 - + -proc~cmp_nc~3 - +proc~cmp_nc~2 + nurbs_surface%cmp_nc - + -proc~set1~3->proc~cmp_nc~3 +proc~set1~2->proc~cmp_nc~2 - + -proc~set2~3->proc~cmp_nc~3 +proc~set2~2->proc~cmp_nc~2 @@ -347,30 +347,30 @@

    Calls

    - + -proc~set2~3->proc~compute_knot_vector +proc~set2~2->proc~compute_knot_vector - + -proc~set3~3->proc~cmp_degree~3 +proc~set3~2->proc~cmp_degree~2 - + -proc~get_multiplicity~3 - +proc~get_multiplicity~2 + nurbs_surface%get_multiplicity - + -proc~cmp_degree~3->proc~get_multiplicity~3 +proc~cmp_degree~2->proc~get_multiplicity~2 @@ -383,9 +383,9 @@

    Calls

    - + -proc~cmp_nc~3->interface~compute_multiplicity +proc~cmp_nc~2->interface~compute_multiplicity @@ -434,9 +434,9 @@

    Calls

    - + -proc~get_multiplicity~3->interface~compute_multiplicity +proc~get_multiplicity~2->interface~compute_multiplicity @@ -693,7 +693,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set_tetragon.html b/proc/set_tetragon.html index 88f52901e..36fd1e1f2 100644 --- a/proc/set_tetragon.html +++ b/proc/set_tetragon.html @@ -158,7 +158,7 @@

    Arguments

     @@ -173,7 +173,7 @@

    Arguments

    @@ -188,7 +188,7 @@

    Arguments

    @@ -203,7 +203,7 @@

    Arguments

    @@ -242,18 +242,18 @@

    Calls

    nurbs_surface%set_tetragon - + -none~set~3 - +none~set~2 + nurbs_surface%set - + -proc~set_tetragon->none~set~3 +proc~set_tetragon->none~set~2 @@ -272,84 +272,84 @@

    Calls

    - + -proc~set1~3 - +proc~set1~2 + nurbs_surface%set1 - + -none~set~3->proc~set1~3 +none~set~2->proc~set1~2 - + -proc~set2~3 - +proc~set2~2 + nurbs_surface%set2 - + -none~set~3->proc~set2~3 +none~set~2->proc~set2~2 - + -proc~set3~3 - +proc~set3~2 + nurbs_surface%set3 - + -none~set~3->proc~set3~3 +none~set~2->proc~set3~2 - + -proc~cmp_degree~3 - +proc~cmp_degree~2 + nurbs_surface%cmp_degree - + -proc~set1~3->proc~cmp_degree~3 +proc~set1~2->proc~cmp_degree~2 - + -proc~cmp_nc~3 - +proc~cmp_nc~2 + nurbs_surface%cmp_nc - + -proc~set1~3->proc~cmp_nc~3 +proc~set1~2->proc~cmp_nc~2 - + -proc~set2~3->proc~cmp_nc~3 +proc~set2~2->proc~cmp_nc~2 @@ -362,30 +362,30 @@

    Calls

    - + -proc~set2~3->proc~compute_knot_vector +proc~set2~2->proc~compute_knot_vector - + -proc~set3~3->proc~cmp_degree~3 +proc~set3~2->proc~cmp_degree~2 - + -proc~get_multiplicity~3 - +proc~get_multiplicity~2 + nurbs_surface%get_multiplicity - + -proc~cmp_degree~3->proc~get_multiplicity~3 +proc~cmp_degree~2->proc~get_multiplicity~2 @@ -398,9 +398,9 @@

    Calls

    - + -proc~cmp_nc~3->interface~compute_multiplicity +proc~cmp_nc~2->interface~compute_multiplicity @@ -449,9 +449,9 @@

    Calls

    - + -proc~get_multiplicity~3->interface~compute_multiplicity +proc~get_multiplicity~2->interface~compute_multiplicity @@ -768,7 +768,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/show.html b/proc/show.html index 6395c824e..1a3a23def 100644 --- a/proc/show.html +++ b/proc/show.html @@ -446,7 +446,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/show~2.html b/proc/show~2.html index e8422e007..5c590ebcf 100644 --- a/proc/show~2.html +++ b/proc/show~2.html @@ -83,15 +83,15 @@

    show
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private impure subroutine show(this, vtkfile_Xc, vtkfile_Xg)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -220,7 +220,7 @@

    Arguments

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/set_half_circle.html b/proc/set_half_circle.html index 70493d688..073137ee0 100644 --- a/proc/set_half_circle.html +++ b/proc/set_half_circle.html @@ -158,7 +158,7 @@

    Arguments
    - + class(nurbs_curve), intent(inout)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + class(nurbs_surface), intent(inout)
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + integer, intent(in),
    - + real(kind=rk), intent(in),
    - + real(kind=rk), intent(in),
    - + class(nurbs_surface), intent(inout)
    - + real(kind=rk), intent(in),
    - + class(nurbs_surface), intent(inout)
    - + real(kind=rk), intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in),
    @@ -159,7 +159,7 @@

    Arguments

    - class(nurbs_curve), + class(nurbs_surface), intent(inout) @@ -216,91 +216,106 @@

    Called by

    - - + + proc~~show~2~~CalledByGraph - + proc~show~2 - -nurbs_curve%show + +nurbs_surface%show - + -program~example1_curve - - -example1_curve +program~example3_surface + + +example3_surface - + -program~example1_curve->proc~show~2 - - +program~example3_surface->proc~show~2 + + - + -program~example_nurbs_curve - - -example_nurbs_curve +program~example_nurbs_surface + + +example_nurbs_surface - + -program~example_nurbs_curve->proc~show~2 - - +program~example_nurbs_surface->proc~show~2 + + - + -program~shape_c_1d - - -shape_C_1d +program~shape_c_2d + + +shape_C_2d - + -program~shape_c_1d->proc~show~2 - - +program~shape_c_2d->proc~show~2 + + - + -program~shape_circle - - -shape_circle +program~shape_half_ring_2d + + +shape_half_ring_2d - + -program~shape_circle->proc~show~2 - - +program~shape_half_ring_2d->proc~show~2 + + - + -program~shape_half_circle - - -shape_half_circle +program~shape_ring_2d + + +shape_ring_2d - + -program~shape_half_circle->proc~show~2 - - +program~shape_ring_2d->proc~show~2 + + + + + +program~shape_tetragon + + +shape_tetragon + + + + + +program~shape_tetragon->proc~show~2 + + @@ -416,7 +431,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/show~3.html b/proc/show~3.html index 257680b77..92209c864 100644 --- a/proc/show~3.html +++ b/proc/show~3.html @@ -83,15 +83,15 @@

    show
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private impure subroutine show(this, vtkfile_Xc, vtkfile_Xg)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    @@ -171,7 +171,7 @@

    Arguments

    @@ -189,7 +189,7 @@

    Arguments

    Return Value - + real(kind=rk), allocatable, (:,:)

    @@ -436,7 +436,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/translate_xc.html b/proc/translate_xc.html index 308e9f4c1..78b1573ef 100644 --- a/proc/translate_xc.html +++ b/proc/translate_xc.html @@ -173,7 +173,7 @@

    Arguments

    @@ -341,7 +341,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/translate_xc~2.html b/proc/translate_xc~2.html index d5647d9ac..2982be03c 100644 --- a/proc/translate_xc~2.html +++ b/proc/translate_xc~2.html @@ -83,15 +83,15 @@

    translate_Xc
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure subroutine translate_Xc(this, vec)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -216,106 +216,91 @@

    Called by

    - - + + proc~~show~3~~CalledByGraph - + proc~show~3 - -nurbs_surface%show + +nurbs_curve%show - + -program~example3_surface - - -example3_surface +program~example1_curve + + +example1_curve - + -program~example3_surface->proc~show~3 - - +program~example1_curve->proc~show~3 + + - + -program~example_nurbs_surface - - -example_nurbs_surface +program~example_nurbs_curve + + +example_nurbs_curve - + -program~example_nurbs_surface->proc~show~3 - - +program~example_nurbs_curve->proc~show~3 + + - + -program~shape_c_2d - - -shape_C_2d +program~shape_c_1d + + +shape_C_1d - + -program~shape_c_2d->proc~show~3 - - +program~shape_c_1d->proc~show~3 + + - + -program~shape_half_ring_2d - - -shape_half_ring_2d +program~shape_circle + + +shape_circle - + -program~shape_half_ring_2d->proc~show~3 - - +program~shape_circle->proc~show~3 + + - + -program~shape_ring_2d - - -shape_ring_2d +program~shape_half_circle + + +shape_half_circle - + -program~shape_ring_2d->proc~show~3 - - - - - -program~shape_tetragon - - -shape_tetragon - - - - - -program~shape_tetragon->proc~show~3 - - +program~shape_half_circle->proc~show~3 + + @@ -431,7 +416,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/tetragon_xc.html b/proc/tetragon_xc.html index fbf23692e..fba125839 100644 --- a/proc/tetragon_xc.html +++ b/proc/tetragon_xc.html @@ -156,7 +156,7 @@

    Arguments
    - + real(kind=rk), intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in)
    @@ -159,7 +159,7 @@

    Arguments

    - class(nurbs_curve), + class(nurbs_surface), intent(inout) @@ -201,31 +201,61 @@

    Called by

    - - + + proc~~translate_xc~2~~CalledByGraph - + proc~translate_xc~2 - -nurbs_curve%translate_Xc + +nurbs_surface%translate_Xc - + -program~example1_curve - - -example1_curve +program~example3_surface + + +example3_surface - + -program~example1_curve->proc~translate_xc~2 - - +program~example3_surface->proc~translate_xc~2 + + + + + +program~example_ppm2 + + +example_ppm2 + + + + + +program~example_ppm2->proc~translate_xc~2 + + + + + +program~example_ppm3 + + +example_ppm3 + + + + + +program~example_ppm3->proc~translate_xc~2 + + @@ -341,7 +371,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/translate_xc~3.html b/proc/translate_xc~3.html index 94a18c91f..fb19ed65f 100644 --- a/proc/translate_xc~3.html +++ b/proc/translate_xc~3.html @@ -83,15 +83,15 @@

    translate_Xc
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure subroutine translate_Xc(this, vec)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    @@ -341,7 +341,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/translate_xg~2.html b/proc/translate_xg~2.html index 68eb39d70..c378cafa0 100644 --- a/proc/translate_xg~2.html +++ b/proc/translate_xg~2.html @@ -83,15 +83,15 @@

    translate_Xg
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure subroutine translate_Xg(this, vec)

    Type Bound

    -

    nurbs_curve

    +

    nurbs_surface

    Arguments

    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -201,61 +201,31 @@

    Called by

    - - + + proc~~translate_xc~3~~CalledByGraph - + proc~translate_xc~3 - -nurbs_surface%translate_Xc + +nurbs_curve%translate_Xc - + -program~example3_surface - - -example3_surface +program~example1_curve + + +example1_curve - + -program~example3_surface->proc~translate_xc~3 - - - - - -program~example_ppm2 - - -example_ppm2 - - - - - -program~example_ppm2->proc~translate_xc~3 - - - - - -program~example_ppm3 - - -example_ppm3 - - - - - -program~example_ppm3->proc~translate_xc~3 - - +program~example1_curve->proc~translate_xc~3 + + @@ -371,7 +341,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/translate_xg.html b/proc/translate_xg.html index 22c1fc1f7..cc9294902 100644 --- a/proc/translate_xg.html +++ b/proc/translate_xg.html @@ -173,7 +173,7 @@

    Arguments

    - + real(kind=rk), intent(in)
    @@ -159,7 +159,7 @@

    Arguments

    - class(nurbs_curve), + class(nurbs_surface), intent(inout) @@ -201,31 +201,31 @@

    Called by

    - + proc~~translate_xg~2~~CalledByGraph - + proc~translate_xg~2 - -nurbs_curve%translate_Xg + +nurbs_surface%translate_Xg - + -program~example1_curve - - -example1_curve +program~example3_surface + + +example3_surface - + -program~example1_curve->proc~translate_xg~2 - - +program~example3_surface->proc~translate_xg~2 + + @@ -341,7 +341,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/translate_xg~3.html b/proc/translate_xg~3.html index 77cb2bf42..a2010a067 100644 --- a/proc/translate_xg~3.html +++ b/proc/translate_xg~3.html @@ -83,15 +83,15 @@

    translate_Xg
  • - Source File + Source File
    • @@ -143,7 +143,7 @@

    private pure subroutine translate_Xg(this, vec)

    Type Bound

    -

    nurbs_surface

    +

    nurbs_curve

    Arguments

    @@ -158,8 +158,8 @@

    Arguments

    @@ -235,24 +235,24 @@

    Called by

    proc~cmp_elem~2 - - -nurbs_curve%cmp_elem + + +nurbs_surface%cmp_elem proc~cmp_elem~2->interface~unique - - + + proc~cmp_elem~3 - - -nurbs_surface%cmp_elem + + +nurbs_curve%cmp_elem @@ -376,7 +376,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/unique_real.html b/proc/unique_real.html index d16c62898..4a7a4086b 100644 --- a/proc/unique_real.html +++ b/proc/unique_real.html @@ -156,7 +156,7 @@

    Arguments

    @@ -235,24 +235,24 @@

    Called by

    proc~cmp_elem~2 - - -nurbs_curve%cmp_elem + + +nurbs_surface%cmp_elem proc~cmp_elem~2->interface~unique - - + + proc~cmp_elem~3 - - -nurbs_surface%cmp_elem + + +nurbs_curve%cmp_elem @@ -376,7 +376,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/example1_curve.html b/program/example1_curve.html index 4a5363277..f11fe9e34 100644 --- a/program/example1_curve.html +++ b/program/example1_curve.html @@ -115,10 +115,10 @@

    Variables

    - Wc - Xc - knot - nurbs + Wc + Xc + knot + nurbs
    @@ -409,108 +409,108 @@

    Calls

    example1_curve - + -none~get_knot~2 - +none~get_knot~3 + nurbs_curve%get_knot - + -program~example1_curve->none~get_knot~2 +program~example1_curve->none~get_knot~3 - + -none~set~2 - +none~set~3 + nurbs_curve%set - + -program~example1_curve->none~set~2 +program~example1_curve->none~set~3 - + -proc~create~2 - +proc~create~3 + nurbs_curve%create - + -program~example1_curve->proc~create~2 +program~example1_curve->proc~create~3 - + -proc~elevate_degree~2 - +proc~elevate_degree~3 + nurbs_curve%elevate_degree - + -program~example1_curve->proc~elevate_degree~2 +program~example1_curve->proc~elevate_degree~3 - + -proc~export_xc~2 - +proc~export_xc~3 + nurbs_curve%export_Xc - + -program~example1_curve->proc~export_xc~2 +program~example1_curve->proc~export_xc~3 - + -proc~export_xg~2 - +proc~export_xg~3 + nurbs_curve%export_Xg - + -program~example1_curve->proc~export_xg~2 +program~example1_curve->proc~export_xg~3 - + -proc~finalize~2 - +proc~finalize~3 + nurbs_curve%finalize - + -program~example1_curve->proc~finalize~2 +program~example1_curve->proc~finalize~3 @@ -529,204 +529,204 @@

    Calls

    - + -proc~insert_knots~2 - +proc~insert_knots~3 + nurbs_curve%insert_knots - + -program~example1_curve->proc~insert_knots~2 +program~example1_curve->proc~insert_knots~3 - + -proc~remove_knots~2 - +proc~remove_knots~3 + nurbs_curve%remove_knots - + -program~example1_curve->proc~remove_knots~2 +program~example1_curve->proc~remove_knots~3 - + -proc~rotate_xc~2 - +proc~rotate_xc~3 + nurbs_curve%rotate_Xc - + -program~example1_curve->proc~rotate_xc~2 +program~example1_curve->proc~rotate_xc~3 - + -proc~rotate_xg~2 - +proc~rotate_xg~3 + nurbs_curve%rotate_Xg - + -program~example1_curve->proc~rotate_xg~2 +program~example1_curve->proc~rotate_xg~3 - + -proc~show~2 - +proc~show~3 + nurbs_curve%show - + -program~example1_curve->proc~show~2 +program~example1_curve->proc~show~3 - + -proc~translate_xc~2 - +proc~translate_xc~3 + nurbs_curve%translate_Xc - + -program~example1_curve->proc~translate_xc~2 +program~example1_curve->proc~translate_xc~3 - + -proc~translate_xg~2 - +proc~translate_xg~3 + nurbs_curve%translate_Xg - + -program~example1_curve->proc~translate_xg~2 +program~example1_curve->proc~translate_xg~3 - + -proc~get_knot_all~2 - +proc~get_knot_all~3 + nurbs_curve%get_knot_all - + -none~get_knot~2->proc~get_knot_all~2 +none~get_knot~3->proc~get_knot_all~3 - + -proc~get_knoti~2 - +proc~get_knoti~3 + nurbs_curve%get_knoti - + -none~get_knot~2->proc~get_knoti~2 +none~get_knot~3->proc~get_knoti~3 - + -proc~set1~2 - +proc~set1~3 + nurbs_curve%set1 - + -none~set~2->proc~set1~2 +none~set~3->proc~set1~3 - + -proc~set2~2 - +proc~set2~3 + nurbs_curve%set2 - + -none~set~2->proc~set2~2 +none~set~3->proc~set2~3 - + -proc~set3~2 - +proc~set3~3 + nurbs_curve%set3 - + -none~set~2->proc~set3~2 +none~set~3->proc~set3~3 - + -proc~is_rational~2 - +proc~is_rational~3 + nurbs_curve%is_rational - + -proc~create~2->proc~is_rational~2 +proc~create~3->proc~is_rational~3 - + -proc~elevate_degree~2->none~set~2 +proc~elevate_degree~3->none~set~3 @@ -739,51 +739,51 @@

    Calls

    - + -proc~elevate_degree~2->proc~elevate_degree_a_5_9 +proc~elevate_degree~3->proc~elevate_degree_a_5_9 - + -proc~elevate_degree~2->proc~is_rational~2 +proc~elevate_degree~3->proc~is_rational~3 - + -proc~cmp_elem_xc_vis~2 - +proc~cmp_elem_xc_vis~3 + nurbs_curve%cmp_elem_Xc_vis - + -proc~export_xc~2->proc~cmp_elem_xc_vis~2 +proc~export_xc~3->proc~cmp_elem_xc_vis~3 - + -proc~cmp_elem_xg_vis~2 - +proc~cmp_elem_xg_vis~3 + nurbs_curve%cmp_elem_Xg_vis - + -proc~export_xg~2->proc~cmp_elem_xg_vis~2 +proc~export_xg~3->proc~cmp_elem_xg_vis~3 - + -proc~insert_knots~2->none~set~2 +proc~insert_knots~3->none~set~3 @@ -796,9 +796,9 @@

    Calls

    - + -proc~insert_knots~2->interface~compute_multiplicity +proc~insert_knots~3->interface~compute_multiplicity @@ -811,9 +811,9 @@

    Calls

    - + -proc~insert_knots~2->proc~findspan +proc~insert_knots~3->proc~findspan @@ -826,39 +826,39 @@

    Calls

    - + -proc~insert_knots~2->proc~insert_knot_a_5_1 +proc~insert_knots~3->proc~insert_knot_a_5_1 - + -proc~insert_knots~2->proc~is_rational~2 +proc~insert_knots~3->proc~is_rational~3 - + -proc~remove_knots~2->none~set~2 +proc~remove_knots~3->none~set~3 - + -proc~remove_knots~2->interface~compute_multiplicity +proc~remove_knots~3->interface~compute_multiplicity - + -proc~remove_knots~2->proc~findspan +proc~remove_knots~3->proc~findspan - + -proc~remove_knots~2->proc~is_rational~2 +proc~remove_knots~3->proc~is_rational~3 @@ -871,9 +871,9 @@

    Calls

    - + -proc~remove_knots~2->proc~remove_knots_a_5_8 +proc~remove_knots~3->proc~remove_knots_a_5_8 @@ -886,15 +886,15 @@

    Calls

    - + -proc~rotate_xc~2->proc~rotation +proc~rotate_xc~3->proc~rotation - + -proc~rotate_xg~2->proc~rotation +proc~rotate_xg~3->proc~rotation @@ -937,15 +937,15 @@

    Calls

    - + -proc~cmp_elem_xc_vis~2->interface~elemconn_c0 +proc~cmp_elem_xc_vis~3->interface~elemconn_c0 - + -proc~cmp_elem_xg_vis~2->interface~elemconn_c0 +proc~cmp_elem_xg_vis~3->interface~elemconn_c0 @@ -994,18 +994,18 @@

    Calls

    - + -proc~cmp_degree~2 - +proc~cmp_degree~3 + nurbs_curve%cmp_degree - + -proc~set1~2->proc~cmp_degree~2 +proc~set1~3->proc~cmp_degree~3 @@ -1018,15 +1018,15 @@

    Calls

    - + -proc~set2~2->proc~compute_knot_vector +proc~set2~3->proc~compute_knot_vector - + -proc~set3~2->proc~cmp_degree~2 +proc~set3~3->proc~cmp_degree~3 @@ -1090,18 +1090,18 @@

    Calls

    - + -proc~get_multiplicity~2 - +proc~get_multiplicity~3 + nurbs_curve%get_multiplicity - + -proc~cmp_degree~2->proc~get_multiplicity~2 +proc~cmp_degree~3->proc~get_multiplicity~3 @@ -1120,9 +1120,9 @@

    Calls

    - + -proc~get_multiplicity~2->interface~compute_multiplicity +proc~get_multiplicity~3->interface~compute_multiplicity @@ -1229,7 +1229,7 @@

    Variables

     @@ -1501,7 +1501,7 @@

    Arguments

    @@ -1516,7 +1516,7 @@

    Arguments

    @@ -1743,7 +1743,7 @@

    Source Code

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/example3_volume.html b/program/example3_volume.html index 3a29ebef8..e036896bd 100644 --- a/program/example3_volume.html +++ b/program/example3_volume.html @@ -115,12 +115,12 @@

    Variables

    - Wc - Xc - knot1 - knot2 - knot3 - nurbs + Wc + Xc + knot1 + knot2 + knot3 + nurbs
    @@ -141,7 +141,7 @@

    Functions

    @@ -541,18 +541,18 @@

    Calls

    - + -proc~generate_xc~2 - +proc~generate_xc~4 + generate_Xc - + -program~example3_volume->proc~generate_xc~2 +program~example3_volume->proc~generate_xc~4 @@ -1343,7 +1343,7 @@

    Variables

     @@ -1698,7 +1698,7 @@

    Source Code

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/example_nurbs_curve.html b/program/example_nurbs_curve.html index 1f80d99d1..9628d0143 100644 --- a/program/example_nurbs_curve.html +++ b/program/example_nurbs_curve.html @@ -115,9 +115,9 @@

    Variables

    - Wc - Xc - nurbs + Wc + Xc + nurbs
    @@ -138,7 +138,7 @@

    Functions

    @@ -398,198 +398,198 @@

    Calls

    example_nurbs_curve - + -none~set~2 - +none~set~3 + nurbs_curve%set - + -program~example_nurbs_curve->none~set~2 +program~example_nurbs_curve->none~set~3 - + -proc~create~2 - +proc~create~3 + nurbs_curve%create - + -program~example_nurbs_curve->proc~create~2 +program~example_nurbs_curve->proc~create~3 - + -proc~export_xc~2 - +proc~export_xc~3 + nurbs_curve%export_Xc - + -program~example_nurbs_curve->proc~export_xc~2 +program~example_nurbs_curve->proc~export_xc~3 - + -proc~export_xg~2 - +proc~export_xg~3 + nurbs_curve%export_Xg - + -program~example_nurbs_curve->proc~export_xg~2 +program~example_nurbs_curve->proc~export_xg~3 - + -proc~finalize~2 - +proc~finalize~3 + nurbs_curve%finalize - + -program~example_nurbs_curve->proc~finalize~2 +program~example_nurbs_curve->proc~finalize~3 - + -proc~generate_xc~3 - +proc~generate_xc~2 + generate_Xc - + -program~example_nurbs_curve->proc~generate_xc~3 +program~example_nurbs_curve->proc~generate_xc~2 - + -proc~show~2 - +proc~show~3 + nurbs_curve%show - + -program~example_nurbs_curve->proc~show~2 +program~example_nurbs_curve->proc~show~3 - + -proc~set1~2 - +proc~set1~3 + nurbs_curve%set1 - + -none~set~2->proc~set1~2 +none~set~3->proc~set1~3 - + -proc~set2~2 - +proc~set2~3 + nurbs_curve%set2 - + -none~set~2->proc~set2~2 +none~set~3->proc~set2~3 - + -proc~set3~2 - +proc~set3~3 + nurbs_curve%set3 - + -none~set~2->proc~set3~2 +none~set~3->proc~set3~3 - + -proc~is_rational~2 - +proc~is_rational~3 + nurbs_curve%is_rational - + -proc~create~2->proc~is_rational~2 +proc~create~3->proc~is_rational~3 - + -proc~cmp_elem_xc_vis~2 - +proc~cmp_elem_xc_vis~3 + nurbs_curve%cmp_elem_Xc_vis - + -proc~export_xc~2->proc~cmp_elem_xc_vis~2 +proc~export_xc~3->proc~cmp_elem_xc_vis~3 - + -proc~cmp_elem_xg_vis~2 - +proc~cmp_elem_xg_vis~3 + nurbs_curve%cmp_elem_Xg_vis - + -proc~export_xg~2->proc~cmp_elem_xg_vis~2 +proc~export_xg~3->proc~cmp_elem_xg_vis~3 @@ -602,30 +602,30 @@

    Calls

    - + -proc~cmp_elem_xc_vis~2->interface~elemconn_c0 +proc~cmp_elem_xc_vis~3->interface~elemconn_c0 - + -proc~cmp_elem_xg_vis~2->interface~elemconn_c0 +proc~cmp_elem_xg_vis~3->interface~elemconn_c0 - + -proc~cmp_degree~2 - +proc~cmp_degree~3 + nurbs_curve%cmp_degree - + -proc~set1~2->proc~cmp_degree~2 +proc~set1~3->proc~cmp_degree~3 @@ -638,15 +638,15 @@

    Calls

    - + -proc~set2~2->proc~compute_knot_vector +proc~set2~3->proc~compute_knot_vector - + -proc~set3~2->proc~cmp_degree~2 +proc~set3~3->proc~cmp_degree~3 @@ -695,18 +695,18 @@

    Calls

    - + -proc~get_multiplicity~2 - +proc~get_multiplicity~3 + nurbs_curve%get_multiplicity - + -proc~cmp_degree~2->proc~get_multiplicity~2 +proc~cmp_degree~3->proc~get_multiplicity~3 @@ -734,9 +734,9 @@

    Calls

    - + -proc~get_multiplicity~2->interface~compute_multiplicity +proc~get_multiplicity~3->interface~compute_multiplicity @@ -873,7 +873,7 @@

    Variables

     @@ -1128,7 +1128,7 @@

    Source Code

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/example_nurbs_surface.html b/program/example_nurbs_surface.html index 7e19465b8..84ada16a9 100644 --- a/program/example_nurbs_surface.html +++ b/program/example_nurbs_surface.html @@ -115,9 +115,9 @@

    Variables

    - Wc - Xc - nurbs + Wc + Xc + nurbs
    @@ -138,7 +138,7 @@

    Functions

    @@ -398,153 +398,153 @@

    Calls

    example_nurbs_surface - + -none~set~3 - +none~set~2 + nurbs_surface%set - + -program~example_nurbs_surface->none~set~3 +program~example_nurbs_surface->none~set~2 - + -proc~create~3 - +proc~create~2 + nurbs_surface%create - + -program~example_nurbs_surface->proc~create~3 +program~example_nurbs_surface->proc~create~2 - + -proc~export_xc~3 - +proc~export_xc~2 + nurbs_surface%export_Xc - + -program~example_nurbs_surface->proc~export_xc~3 +program~example_nurbs_surface->proc~export_xc~2 - + -proc~export_xg~3 - +proc~export_xg~2 + nurbs_surface%export_Xg - + -program~example_nurbs_surface->proc~export_xg~3 +program~example_nurbs_surface->proc~export_xg~2 - + -proc~finalize~3 - +proc~finalize~2 + nurbs_surface%finalize - + -program~example_nurbs_surface->proc~finalize~3 +program~example_nurbs_surface->proc~finalize~2 - + -proc~generate_xc - +proc~generate_xc~5 + generate_Xc - + -program~example_nurbs_surface->proc~generate_xc +program~example_nurbs_surface->proc~generate_xc~5 - + -proc~show~3 - +proc~show~2 + nurbs_surface%show - + -program~example_nurbs_surface->proc~show~3 +program~example_nurbs_surface->proc~show~2 - + -proc~set1~3 - +proc~set1~2 + nurbs_surface%set1 - + -none~set~3->proc~set1~3 +none~set~2->proc~set1~2 - + -proc~set2~3 - +proc~set2~2 + nurbs_surface%set2 - + -none~set~3->proc~set2~3 +none~set~2->proc~set2~2 - + -proc~set3~3 - +proc~set3~2 + nurbs_surface%set3 - + -none~set~3->proc~set3~3 +none~set~2->proc~set3~2 @@ -557,54 +557,54 @@

    Calls

    - + -proc~create~3->interface~ndgrid +proc~create~2->interface~ndgrid - + -proc~is_rational~3 - +proc~is_rational~2 + nurbs_surface%is_rational - + -proc~create~3->proc~is_rational~3 +proc~create~2->proc~is_rational~2 - + -proc~cmp_elem_xc_vis~3 - +proc~cmp_elem_xc_vis~2 + nurbs_surface%cmp_elem_Xc_vis - + -proc~export_xc~3->proc~cmp_elem_xc_vis~3 +proc~export_xc~2->proc~cmp_elem_xc_vis~2 - + -proc~cmp_elem_xg_vis~3 - +proc~cmp_elem_xg_vis~2 + nurbs_surface%cmp_elem_Xg_vis - + -proc~export_xg~3->proc~cmp_elem_xg_vis~3 +proc~export_xg~2->proc~cmp_elem_xg_vis~2 @@ -647,51 +647,51 @@

    Calls

    - + -proc~cmp_elem_xc_vis~3->interface~elemconn_c0 +proc~cmp_elem_xc_vis~2->interface~elemconn_c0 - + -proc~cmp_elem_xg_vis~3->interface~elemconn_c0 +proc~cmp_elem_xg_vis~2->interface~elemconn_c0 - + -proc~cmp_degree~3 - +proc~cmp_degree~2 + nurbs_surface%cmp_degree - + -proc~set1~3->proc~cmp_degree~3 +proc~set1~2->proc~cmp_degree~2 - + -proc~cmp_nc~3 - +proc~cmp_nc~2 + nurbs_surface%cmp_nc - + -proc~set1~3->proc~cmp_nc~3 +proc~set1~2->proc~cmp_nc~2 - + -proc~set2~3->proc~cmp_nc~3 +proc~set2~2->proc~cmp_nc~2 @@ -704,15 +704,15 @@

    Calls

    - + -proc~set2~3->proc~compute_knot_vector +proc~set2~2->proc~compute_knot_vector - + -proc~set3~3->proc~cmp_degree~3 +proc~set3~2->proc~cmp_degree~2 @@ -761,18 +761,18 @@

    Calls

    - + -proc~get_multiplicity~3 - +proc~get_multiplicity~2 + nurbs_surface%get_multiplicity - + -proc~cmp_degree~3->proc~get_multiplicity~3 +proc~cmp_degree~2->proc~get_multiplicity~2 @@ -785,9 +785,9 @@

    Calls

    - + -proc~cmp_nc~3->interface~compute_multiplicity +proc~cmp_nc~2->interface~compute_multiplicity @@ -836,9 +836,9 @@

    Calls

    - + -proc~get_multiplicity~3->interface~compute_multiplicity +proc~get_multiplicity~2->interface~compute_multiplicity @@ -945,7 +945,7 @@

    Variables

     @@ -1039,7 +1039,7 @@

    Arguments

    @@ -1054,7 +1054,7 @@

    Arguments

    @@ -1188,7 +1188,7 @@

    Source Code

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/example_nurbs_volume.html b/program/example_nurbs_volume.html index 7203423cd..ce6befc36 100644 --- a/program/example_nurbs_volume.html +++ b/program/example_nurbs_volume.html @@ -115,9 +115,9 @@

    Variables

    - Wc - Xc - nurbs + Wc + Xc + nurbs
    @@ -138,7 +138,7 @@

    Functions

    @@ -473,18 +473,18 @@

    Calls

    - + -proc~generate_xc~5 - +proc~generate_xc~3 + generate_Xc - + -program~example_nurbs_volume->proc~generate_xc~5 +program~example_nurbs_volume->proc~generate_xc~3 @@ -930,7 +930,7 @@

    Variables

     @@ -1138,7 +1138,7 @@

    Source Code

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/example_ppm1.html b/program/example_ppm1.html index e6c650963..30fc541bc 100644 --- a/program/example_ppm1.html +++ b/program/example_ppm1.html @@ -115,28 +115,28 @@

    Variables

    @@ -172,9 +172,9 @@

    Uses

    @@ -260,7 +260,7 @@

    Components

    @@ -277,7 +277,7 @@

    Components

    @@ -294,7 +294,7 @@

    Components

    @@ -311,7 +311,7 @@

    Components

    @@ -328,7 +328,7 @@

    Components

    @@ -345,7 +345,7 @@

    Components

    @@ -362,7 +362,7 @@

    Components

    @@ -379,7 +379,7 @@

    Components

    @@ -396,7 +396,7 @@

    Components

    @@ -413,7 +413,7 @@

    Components

    @@ -441,7 +441,7 @@

    Type-Bound Procedures

    - +

    procedure, public :: basis @@ -457,7 +457,7 @@

    • - private pure subroutine basis(this, res, Xt, Tgc) + private pure subroutine basis(this, res, Xt, Tgc)

      Author
      Seyed Ali Ghasemi
      @@ -550,7 +550,7 @@

      Arguments

      - +

      procedure, public :: cmp_degree @@ -566,7 +566,7 @@

      • - private pure subroutine cmp_degree(this) + private pure subroutine cmp_degree(this)

        Author
        Seyed Ali Ghasemi
        @@ -614,7 +614,7 @@

        Arguments

        - +

        procedure, public :: cmp_elem @@ -630,7 +630,7 @@

        • - private pure function cmp_elem(this) result(elemConn) + private pure function cmp_elem(this) result(elemConn)

          Author
          Seyed Ali Ghasemi
          @@ -683,7 +683,7 @@

          - +

          procedure, public :: cmp_elem_Xc_vis @@ -699,7 +699,7 @@

          • - private pure function cmp_elem_Xc_vis(this, p) result(elemConn) + private pure function cmp_elem_Xc_vis(this, p) result(elemConn)

            Author
            Seyed Ali Ghasemi
            @@ -767,7 +767,7 @@

            - +

            procedure, public :: cmp_elem_Xg_vis @@ -783,7 +783,7 @@

            • - private pure function cmp_elem_Xg_vis(this, p) result(elemConn) + private pure function cmp_elem_Xg_vis(this, p) result(elemConn)

              Author
              Seyed Ali Ghasemi
              @@ -851,7 +851,7 @@

              - +

              procedure, public :: cmp_nc @@ -867,7 +867,7 @@

              • - private pure subroutine cmp_nc(this) + private pure subroutine cmp_nc(this)

                Author
                Seyed Ali Ghasemi
                @@ -915,7 +915,7 @@

                Arguments

                - +

                procedure, public :: create @@ -931,7 +931,7 @@

                • - private pure subroutine create(this, res, Xt) + private pure subroutine create(this, res, Xt)

                  Author
                  Seyed Ali Ghasemi
                  @@ -1009,7 +1009,7 @@

                  Arguments

                  - +

                  procedure, public :: derivative @@ -1025,7 +1025,7 @@

                  • - private pure subroutine derivative(this, res, Xt, dTgc) + private pure subroutine derivative(this, res, Xt, dTgc)

                    Author
                    Seyed Ali Ghasemi
                    @@ -1118,7 +1118,7 @@

                    Arguments

                    - +

                    procedure, public :: elevate_degree @@ -1134,7 +1134,7 @@

                    • - private pure subroutine elevate_degree(this, t) + private pure subroutine elevate_degree(this, t)

                      Author
                      Seyed Ali Ghasemi
                      @@ -1197,7 +1197,7 @@

                      Arguments

                      - +

                      procedure, public :: export_Xc @@ -1213,7 +1213,7 @@

                      • - private impure subroutine export_Xc(this, filename) + private impure subroutine export_Xc(this, filename)

                        Author
                        Seyed Ali Ghasemi
                        @@ -1276,7 +1276,7 @@

                        Arguments

                        - +

                        procedure, public :: export_Xg @@ -1292,7 +1292,7 @@

                        • - private impure subroutine export_Xg(this, filename) + private impure subroutine export_Xg(this, filename)

                          Author
                          Seyed Ali Ghasemi
                          @@ -1355,7 +1355,7 @@

                          Arguments

                          - +

                          procedure, public :: finalize @@ -1371,7 +1371,7 @@

                          • - private pure subroutine finalize(this) + private pure subroutine finalize(this)

                            Author
                            Seyed Ali Ghasemi
                            @@ -1419,10 +1419,10 @@

                            Arguments

                            - +

                            generic, public :: - get_Wc => get_Wc_all, get_Wci + get_Wc => get_Wc_all, get_Wci

                            @@ -1435,7 +1435,7 @@

                            • - private pure function get_Wc_all(this) result(Wc) + private pure function get_Wc_all(this) result(Wc)

                              Author
                              Seyed Ali Ghasemi
                              @@ -1483,7 +1483,7 @@

                            • - private pure function get_Wci(this, n) result(Wc) + private pure function get_Wci(this, n) result(Wc)

                              Author
                              Seyed Ali Ghasemi
                              @@ -1551,10 +1551,10 @@

                              - +

                              generic, public :: - get_Xc => get_Xc_all, get_Xci, get_Xcid + get_Xc => get_Xc_all, get_Xci, get_Xcid

                              @@ -1567,7 +1567,7 @@

                              • - private pure function get_Xc_all(this) result(Xc) + private pure function get_Xc_all(this) result(Xc)

                                Author
                                Seyed Ali Ghasemi
                                @@ -1615,7 +1615,7 @@

                              • - private pure function get_Xci(this, n) result(Xc) + private pure function get_Xci(this, n) result(Xc)

                                Author
                                Seyed Ali Ghasemi
                                @@ -1678,7 +1678,7 @@

                              • - private pure function get_Xcid(this, n, dir) result(Xc) + private pure function get_Xcid(this, n, dir) result(Xc)

                                Author
                                Seyed Ali Ghasemi
                                @@ -1761,10 +1761,10 @@

                                - +

                                generic, public :: - get_Xg => get_Xg_all, get_Xgi, get_Xgid + get_Xg => get_Xg_all, get_Xgi, get_Xgid

                                @@ -1777,7 +1777,7 @@

                                • - private pure function get_Xg_all(this) result(Xg) + private pure function get_Xg_all(this) result(Xg)

                                  Author
                                  Seyed Ali Ghasemi
                                  @@ -1825,7 +1825,7 @@

                                • - private pure function get_Xgi(this, n) result(Xg) + private pure function get_Xgi(this, n) result(Xg)

                                  Author
                                  Seyed Ali Ghasemi
                                  @@ -1888,7 +1888,7 @@

                                • - private pure function get_Xgid(this, n, dir) result(Xg) + private pure function get_Xgid(this, n, dir) result(Xg)

                                  Author
                                  Seyed Ali Ghasemi
                                  @@ -1971,7 +1971,7 @@

                                  - +

                                  procedure, public :: get_Xt @@ -1987,7 +1987,7 @@

                                  • - private pure function get_Xt(this) result(Xt) + private pure function get_Xt(this) result(Xt)

                                    Author
                                    Seyed Ali Ghasemi
                                    @@ -2040,7 +2040,7 @@

                                    - +

                                    procedure, public :: get_continuity @@ -2056,7 +2056,7 @@

                                    • - private pure function get_continuity(this) result(c) + private pure function get_continuity(this) result(c)

                                      Author
                                      Seyed Ali Ghasemi
                                      @@ -2109,7 +2109,7 @@

                                      - +

                                      procedure, public :: get_degree @@ -2178,7 +2178,7 @@

                                      - +

                                      procedure, public :: get_elem @@ -2194,7 +2194,7 @@

                                      • - private pure function get_elem(this) result(elemConn) + private pure function get_elem(this) result(elemConn)

                                        Author
                                        Seyed Ali Ghasemi
                                        @@ -2247,7 +2247,7 @@

                                        - +

                                        procedure, public :: get_elem_Xc_vis @@ -2263,7 +2263,7 @@

                                        • - private pure function get_elem_Xc_vis(this) result(elemConn) + private pure function get_elem_Xc_vis(this) result(elemConn)

                                          Author
                                          Seyed Ali Ghasemi
                                          @@ -2316,7 +2316,7 @@

                                          - +

                                          procedure, public :: get_elem_Xg_vis @@ -2332,7 +2332,7 @@

                                          • - private pure function get_elem_Xg_vis(this) result(elemConn) + private pure function get_elem_Xg_vis(this) result(elemConn)

                                            Author
                                            Seyed Ali Ghasemi
                                            @@ -2385,10 +2385,10 @@

                                            - +

                                            generic, public :: - get_knot => get_knoti, get_knot_all + get_knot => get_knoti, get_knot_all

                                            @@ -2401,7 +2401,7 @@

                                            • - private pure function get_knoti(this, i) result(knot) + private pure function get_knoti(this, i) result(knot)

                                              Author
                                              Seyed Ali Ghasemi
                                              @@ -2464,7 +2464,7 @@

                                            • - private pure function get_knot_all(this) result(knot) + private pure function get_knot_all(this) result(knot)

                                              Author
                                              Seyed Ali Ghasemi
                                              @@ -2517,7 +2517,7 @@

                                              - +

                                              procedure, public :: get_multiplicity @@ -2533,7 +2533,7 @@

                                              • - private pure function get_multiplicity(this) result(m) + private pure function get_multiplicity(this) result(m)

                                                Author
                                                Seyed Ali Ghasemi
                                                @@ -2586,7 +2586,7 @@

                                                - +

                                                procedure, public :: get_nc @@ -2602,7 +2602,7 @@

                                                • - private pure function get_nc(this) result(nc) + private pure function get_nc(this) result(nc)

                                                  Author
                                                  Seyed Ali Ghasemi
                                                  @@ -2655,7 +2655,7 @@

                                                  - +

                                                  procedure, public :: get_ng @@ -2671,7 +2671,7 @@

                                                  • - private pure function get_ng(this) result(ng) + private pure function get_ng(this) result(ng)

                                                    Author
                                                    Seyed Ali Ghasemi
                                                    @@ -2724,7 +2724,7 @@

                                                    - +

                                                    procedure, public :: insert_knots @@ -2740,7 +2740,7 @@

    @@ -266,7 +266,7 @@

    Components

    @@ -283,7 +283,7 @@

    Components

    @@ -300,7 +300,7 @@

    Components

    @@ -351,7 +351,7 @@

    Components

    @@ -368,7 +368,7 @@

    Components

    @@ -385,7 +385,7 @@

    Components

    @@ -402,7 +402,7 @@

    Components

    @@ -453,7 +453,7 @@

    Components

    @@ -470,7 +470,7 @@

    Components

    @@ -498,7 +498,7 @@

    Type-Bound Procedures

    - +

    procedure, public :: basis @@ -514,7 +514,7 @@

    • - private pure subroutine basis(this, res1, res2, Xt1, Xt2, Tgc) + private pure subroutine basis(this, res1, res2, Xt1, Xt2, Tgc)

      Author
      Seyed Ali Ghasemi
      @@ -637,7 +637,7 @@

      Arguments

      - +

      procedure, public :: cmp_degree @@ -653,7 +653,7 @@

      • - private pure subroutine cmp_degree(this, dir) + private pure subroutine cmp_degree(this, dir)

        Author
        Seyed Ali Ghasemi
        @@ -716,7 +716,7 @@

        Arguments

        - +

        procedure, public :: cmp_elem @@ -732,7 +732,7 @@

        • - private pure function cmp_elem(this) result(elemConn) + private pure function cmp_elem(this) result(elemConn)

          Author
          Seyed Ali Ghasemi
          @@ -785,7 +785,7 @@

          - +

          procedure, public :: cmp_elem_Xc_vis @@ -801,7 +801,7 @@

          • - private pure function cmp_elem_Xc_vis(this, p) result(elemConn) + private pure function cmp_elem_Xc_vis(this, p) result(elemConn)

            Author
            Seyed Ali Ghasemi
            @@ -869,7 +869,7 @@

            - +

            procedure, public :: cmp_elem_Xg_vis @@ -885,7 +885,7 @@

            • - private pure function cmp_elem_Xg_vis(this, p) result(elemConn) + private pure function cmp_elem_Xg_vis(this, p) result(elemConn)

              Author
              Seyed Ali Ghasemi
              @@ -953,7 +953,7 @@

              - +

              procedure, public :: cmp_nc @@ -969,7 +969,7 @@

              • - private pure subroutine cmp_nc(this, dir) + private pure subroutine cmp_nc(this, dir)

                Author
                Seyed Ali Ghasemi
                @@ -1032,7 +1032,7 @@

                Arguments

                - +

                procedure, public :: create @@ -1048,7 +1048,7 @@

                • - private pure subroutine create(this, res1, res2, Xt1, Xt2, Xt) + private pure subroutine create(this, res1, res2, Xt1, Xt2, Xt)

                  Author
                  Seyed Ali Ghasemi
                  @@ -1171,7 +1171,7 @@

                  Arguments

                  - +

                  procedure, public :: derivative @@ -1187,7 +1187,7 @@

                  • - private pure subroutine derivative(this, res1, res2, Xt1, Xt2, dTgc) + private pure subroutine derivative(this, res1, res2, Xt1, Xt2, dTgc)

                    Author
                    Seyed Ali Ghasemi
                    @@ -1310,7 +1310,7 @@

                    Arguments

                    - +

                    procedure, public :: elevate_degree @@ -1326,7 +1326,7 @@

                    • - private pure subroutine elevate_degree(this, dir, t) + private pure subroutine elevate_degree(this, dir, t)

                      Author
                      Seyed Ali Ghasemi
                      @@ -1404,7 +1404,7 @@

                      Arguments

                      - +

                      procedure, public :: export_Xc @@ -1420,7 +1420,7 @@

                      • - private impure subroutine export_Xc(this, filename) + private impure subroutine export_Xc(this, filename)

                        Author
                        Seyed Ali Ghasemi
                        @@ -1483,7 +1483,7 @@

                        Arguments

                        - +

                        procedure, public :: export_Xg @@ -1499,7 +1499,7 @@

                        • - private impure subroutine export_Xg(this, filename) + private impure subroutine export_Xg(this, filename)

                          Author
                          Seyed Ali Ghasemi
                          @@ -1562,7 +1562,7 @@

                          Arguments

                          - +

                          procedure, public :: finalize @@ -1578,7 +1578,7 @@

                          • - private pure subroutine finalize(this) + private pure subroutine finalize(this)

                            Author
                            Seyed Ali Ghasemi
                            @@ -1626,10 +1626,10 @@

                            Arguments

                            - +

                            generic, public :: - get_Wc => get_Wc_all, get_Wci + get_Wc => get_Wc_all, get_Wci

                            @@ -1642,7 +1642,7 @@

                            • - private pure function get_Wc_all(this) result(Wc) + private pure function get_Wc_all(this) result(Wc)

                              Author
                              Seyed Ali Ghasemi
                              @@ -1690,7 +1690,7 @@

                            • - private pure function get_Wci(this, n) result(Wc) + private pure function get_Wci(this, n) result(Wc)

                              Author
                              Seyed Ali Ghasemi
                              @@ -1758,10 +1758,10 @@

                              - +

                              generic, public :: - get_Xc => get_Xc_all, get_Xci, get_Xcid + get_Xc => get_Xc_all, get_Xci, get_Xcid

                              @@ -1774,7 +1774,7 @@

                              • - private pure function get_Xc_all(this) result(Xc) + private pure function get_Xc_all(this) result(Xc)

                                Author
                                Seyed Ali Ghasemi
                                @@ -1822,7 +1822,7 @@

                              • - private pure function get_Xci(this, n) result(Xc) + private pure function get_Xci(this, n) result(Xc)

                                Author
                                Seyed Ali Ghasemi
                                @@ -1885,7 +1885,7 @@

                              • - private pure function get_Xcid(this, n, dir) result(Xc) + private pure function get_Xcid(this, n, dir) result(Xc)

                                Author
                                Seyed Ali Ghasemi
                                @@ -1968,10 +1968,10 @@

                                - +

                                generic, public :: - get_Xg => get_Xg_all, get_Xgi, get_Xgid + get_Xg => get_Xg_all, get_Xgi, get_Xgid

                                @@ -1984,7 +1984,7 @@

                                • - private pure function get_Xg_all(this) result(Xg) + private pure function get_Xg_all(this) result(Xg)

                                  Author
                                  Seyed Ali Ghasemi
                                  @@ -2032,7 +2032,7 @@

                                • - private pure function get_Xgi(this, n) result(Xg) + private pure function get_Xgi(this, n) result(Xg)

                                  Author
                                  Seyed Ali Ghasemi
                                  @@ -2095,7 +2095,7 @@

                                • - private pure function get_Xgid(this, n, dir) result(Xg) + private pure function get_Xgid(this, n, dir) result(Xg)

                                  Author
                                  Seyed Ali Ghasemi
                                  @@ -2178,7 +2178,7 @@

                                  - +

                                  procedure, public :: get_Xt @@ -2194,7 +2194,7 @@

                                  • - private pure function get_Xt(this, dir) result(Xt) + private pure function get_Xt(this, dir) result(Xt)

                                    Author
                                    Seyed Ali Ghasemi
                                    @@ -2262,7 +2262,7 @@

                                    - +

                                    procedure, public :: get_continuity @@ -2278,7 +2278,7 @@

                                    • - private pure function get_continuity(this, dir) result(c) + private pure function get_continuity(this, dir) result(c)

                                      Author
                                      Seyed Ali Ghasemi
                                      @@ -2346,7 +2346,7 @@

                                      - +

                                      generic, public :: get_degree => get_degree_all, get_degree_dir @@ -2478,7 +2478,7 @@

                                      - +

                                      procedure, public :: get_elem @@ -2494,7 +2494,7 @@

                                      • - private pure function get_elem(this) result(elemConn) + private pure function get_elem(this) result(elemConn)

                                        Author
                                        Seyed Ali Ghasemi
                                        @@ -2547,7 +2547,7 @@

                                        - +

                                        procedure, public :: get_elem_Xc_vis @@ -2563,7 +2563,7 @@

                                        • - private pure function get_elem_Xc_vis(this) result(elemConn) + private pure function get_elem_Xc_vis(this) result(elemConn)

                                          Author
                                          Seyed Ali Ghasemi
                                          @@ -2616,7 +2616,7 @@

                                          - +

                                          procedure, public :: get_elem_Xg_vis @@ -2632,7 +2632,7 @@

                                          • - private pure function get_elem_Xg_vis(this) result(elemConn) + private pure function get_elem_Xg_vis(this) result(elemConn)

                                            Author
                                            Seyed Ali Ghasemi
                                            @@ -2685,10 +2685,10 @@

                                            - +

                                            generic, public :: - get_knot => get_knoti, get_knot_all + get_knot => get_knoti, get_knot_all

                                            @@ -2701,7 +2701,7 @@

                                            • - private pure function get_knoti(this, dir, i) result(knot) + private pure function get_knoti(this, dir, i) result(knot)

                                              Author
                                              Seyed Ali Ghasemi
                                              @@ -2779,7 +2779,7 @@

                                            • - private pure function get_knot_all(this, dir) result(knot) + private pure function get_knot_all(this, dir) result(knot)

                                              Author
                                              Seyed Ali Ghasemi
                                              @@ -2847,7 +2847,7 @@

                                              - +

                                              procedure, public :: get_multiplicity @@ -2863,7 +2863,7 @@

                                              • - private pure function get_multiplicity(this, dir) result(m) + private pure function get_multiplicity(this, dir) result(m)

                                                Author
                                                Seyed Ali Ghasemi
                                                @@ -2931,7 +2931,7 @@

                                                - +

                                                procedure, public :: get_nc @@ -2947,7 +2947,7 @@

                                                • - private pure function get_nc(this, dir) result(nc) + private pure function get_nc(this, dir) result(nc)

                                                  Author
                                                  Seyed Ali Ghasemi
                                                  @@ -3015,7 +3015,7 @@

                                                  - +

                                                  procedure, public :: get_ng @@ -3031,7 +3031,7 @@

                                                  • - private pure function get_ng(this) result(ng) + private pure function get_ng(this) result(ng)

                                                    Author
                                                    Seyed Ali Ghasemi
                                                    @@ -3084,7 +3084,7 @@

                                                    - +

                                                    procedure, public :: insert_knots @@ -3100,7 +3100,7 @@

                                                    • - private pure subroutine insert_knots(this, dir, Xth, r) + private pure subroutine insert_knots(this, dir, Xth, r)

                                                      Author
                                                      Seyed Ali Ghasemi
                                                      @@ -3193,7 +3193,7 @@

                                                      Arguments

                                                      - +

                                                      procedure, public :: is_rational @@ -3209,7 +3209,7 @@

                                                      • - private pure function is_rational(this) result(r) + private pure function is_rational(this) result(r)

                                                        Author
                                                        Seyed Ali Ghasemi
                                                        @@ -3262,7 +3262,7 @@

                                                        - +

                                                        procedure, public :: modify_Wc @@ -3278,7 +3278,7 @@

                                                        • - private pure subroutine modify_Wc(this, W, num) + private pure subroutine modify_Wc(this, W, num)

                                                          Author
                                                          Seyed Ali Ghasemi
                                                          @@ -3356,7 +3356,7 @@

                                                          Arguments

                                                          - +

                                                          procedure, public :: modify_Xc @@ -3372,7 +3372,7 @@

                                                          • - private pure subroutine modify_Xc(this, X, num, dir) + private pure subroutine modify_Xc(this, X, num, dir)

                                                            Author
                                                            Seyed Ali Ghasemi
                                                            @@ -3465,7 +3465,7 @@

                                                            Arguments

                                                            - +

                                                            procedure, public :: nearest_point @@ -3481,7 +3481,7 @@

                                                            • - private pure subroutine nearest_point(this, point_Xg, nearest_Xg, nearest_Xt, id) + private pure subroutine nearest_point(this, point_Xg, nearest_Xg, nearest_Xt, id)

                                                              Author
                                                              Seyed Ali Ghasemi
                                                              @@ -3589,7 +3589,7 @@

                                                              Arguments

                                                              - +

                                                              procedure, public :: remove_knots @@ -3605,7 +3605,7 @@

                                                              • - private pure subroutine remove_knots(this, dir, Xth, r) + private pure subroutine remove_knots(this, dir, Xth, r)

                                                                Author
                                                                Seyed Ali Ghasemi
                                                                @@ -3698,7 +3698,7 @@

                                                                Arguments

                                                                - +

                                                                procedure, public :: rotate_Xc @@ -3714,7 +3714,7 @@

                                                                • - private pure subroutine rotate_Xc(this, alpha, beta, theta) + private pure subroutine rotate_Xc(this, alpha, beta, theta)

                                                                  Author
                                                                  Seyed Ali Ghasemi
                                                                  @@ -3807,7 +3807,7 @@

                                                                  Arguments

                                                                  - +

                                                                  procedure, public :: rotate_Xg @@ -3823,7 +3823,7 @@

                                                                  • - private pure subroutine rotate_Xg(this, alpha, beta, theta) + private pure subroutine rotate_Xg(this, alpha, beta, theta)

                                                                    Author
                                                                    Seyed Ali Ghasemi
                                                                    @@ -3916,10 +3916,10 @@

                                                                    Arguments

                                                                    - +

                                                                    generic, public :: - set => set1, set2, set3 + set => set1, set2, set3

                                                                    @@ -3932,7 +3932,7 @@

                                                                    • - private pure subroutine set1(this, knot1, knot2, Xc, Wc) + private pure subroutine set1(this, knot1, knot2, Xc, Wc)

                                                                      Author
                                                                      Seyed Ali Ghasemi
                                                                      @@ -4035,7 +4035,7 @@

                                                                      Arguments

                                                                    • - private pure subroutine set2(this, Xth_dir1, Xth_dir2, degree, continuity1, continuity2, Xc, Wc) + private pure subroutine set2(this, Xth_dir1, Xth_dir2, degree, continuity1, continuity2, Xc, Wc)

                                                                      Author
                                                                      Seyed Ali Ghasemi
                                                                      @@ -4183,7 +4183,7 @@

                                                                      Arguments

                                                                    • - private pure subroutine set3(this, nc, Xc, Wc) + private pure subroutine set3(this, nc, Xc, Wc)

                                                                      Author
                                                                      Seyed Ali Ghasemi
                                                                      @@ -4276,7 +4276,7 @@

                                                                      Arguments

                                                                      - +

                                                                      procedure, public :: set1 @@ -4292,7 +4292,7 @@

                                                                      • - private pure subroutine set1(this, knot1, knot2, Xc, Wc) + private pure subroutine set1(this, knot1, knot2, Xc, Wc)

                                                                        Author
                                                                        Seyed Ali Ghasemi
                                                                        @@ -4400,7 +4400,7 @@

                                                                        Arguments

                                                                        - +

                                                                        procedure, public :: set2 @@ -4416,7 +4416,7 @@

                                                                        • - private pure subroutine set2(this, Xth_dir1, Xth_dir2, degree, continuity1, continuity2, Xc, Wc) + private pure subroutine set2(this, Xth_dir1, Xth_dir2, degree, continuity1, continuity2, Xc, Wc)

                                                                          Author
                                                                          Seyed Ali Ghasemi
                                                                          @@ -4569,7 +4569,7 @@

                                                                          Arguments

                                                                          - +

                                                                          procedure, public :: set3 @@ -4585,7 +4585,7 @@

                                                                          • - private pure subroutine set3(this, nc, Xc, Wc) + private pure subroutine set3(this, nc, Xc, Wc)

                                                                            Author
                                                                            Seyed Ali Ghasemi
                                                                            @@ -4678,7 +4678,7 @@

                                                                            Arguments

                                                                            - +

                                                                            procedure, public :: set_C @@ -4694,7 +4694,7 @@

                                                                            • - private pure subroutine set_C(this, center, radius1, radius2) + private pure subroutine set_C(this, center, radius1, radius2)

                                                                              Author
                                                                              Seyed Ali Ghasemi
                                                                              @@ -4787,7 +4787,7 @@

                                                                              Arguments

                                                                              - +

                                                                              procedure, public :: set_elem @@ -4803,7 +4803,7 @@

                                                                              • - private pure subroutine set_elem(this, elemConn) + private pure subroutine set_elem(this, elemConn)

                                                                                Author
                                                                                Seyed Ali Ghasemi
                                                                                @@ -4866,7 +4866,7 @@

                                                                                Arguments

                                                                                - +

                                                                                procedure, public :: set_elem_Xc_vis @@ -4882,7 +4882,7 @@

                                                                                • - private pure subroutine set_elem_Xc_vis(this, elemConn) + private pure subroutine set_elem_Xc_vis(this, elemConn)

                                                                                  Author
                                                                                  Seyed Ali Ghasemi
                                                                                  @@ -4945,7 +4945,7 @@

                                                                                  Arguments

                                                                                  - +

                                                                                  procedure, public :: set_elem_Xg_vis @@ -4961,7 +4961,7 @@

                                                                                  • - private pure subroutine set_elem_Xg_vis(this, elemConn) + private pure subroutine set_elem_Xg_vis(this, elemConn)

                                                                                    Author
                                                                                    Seyed Ali Ghasemi
                                                                                    @@ -5351,7 +5351,7 @@

                                                                                    Arguments

                                                                                    - +

                                                                                    procedure, public :: show @@ -5367,7 +5367,7 @@

                                                                                    • - private impure subroutine show(this, vtkfile_Xc, vtkfile_Xg) + private impure subroutine show(this, vtkfile_Xc, vtkfile_Xg)

                                                                                      Author
                                                                                      Seyed Ali Ghasemi
                                                                                      @@ -5445,7 +5445,7 @@

                                                                                      Arguments

                                                                                      - +

                                                                                      procedure, public :: translate_Xc @@ -5461,7 +5461,7 @@

                                                                                      • - private pure subroutine translate_Xc(this, vec) + private pure subroutine translate_Xc(this, vec)

                                                                                        Author
                                                                                        Seyed Ali Ghasemi
                                                                                        @@ -5524,7 +5524,7 @@

                                                                                        Arguments

                                                                                        - +

                                                                                        procedure, public :: translate_Xg @@ -5540,7 +5540,7 @@

                                                                                        • - private pure subroutine translate_Xg(this, vec) + private pure subroutine translate_Xg(this, vec)

                                                                                          Author
                                                                                          Seyed Ali Ghasemi
                                                                                          @@ -5603,7 +5603,7 @@

                                                                                          Arguments

                                                                                          - +

                                                                                          procedure, private :: get_Wc_all @@ -5619,7 +5619,7 @@

                                                                                          • - private pure function get_Wc_all(this) result(Wc) + private pure function get_Wc_all(this) result(Wc)

                                                                                            Author
                                                                                            Seyed Ali Ghasemi
                                                                                            @@ -5672,7 +5672,7 @@

                                                                                            - +

                                                                                            procedure, private :: get_Wci @@ -5688,7 +5688,7 @@

                                                                                            • - private pure function get_Wci(this, n) result(Wc) + private pure function get_Wci(this, n) result(Wc)

                                                                                              Author
                                                                                              Seyed Ali Ghasemi
                                                                                              @@ -5756,7 +5756,7 @@

                                                                                              - +

                                                                                              procedure, private :: get_Xc_all @@ -5772,7 +5772,7 @@

                                                                                              • - private pure function get_Xc_all(this) result(Xc) + private pure function get_Xc_all(this) result(Xc)

                                                                                                Author
                                                                                                Seyed Ali Ghasemi
                                                                                                @@ -5825,7 +5825,7 @@

                                                                                                - +

                                                                                                procedure, private :: get_Xci @@ -5841,7 +5841,7 @@

                                                                                                • - private pure function get_Xci(this, n) result(Xc) + private pure function get_Xci(this, n) result(Xc)

                                                                                                  Author
                                                                                                  Seyed Ali Ghasemi
                                                                                                  @@ -5909,7 +5909,7 @@

                                                                                                  - +

                                                                                                  procedure, private :: get_Xcid @@ -5925,7 +5925,7 @@

                                                                                                  • - private pure function get_Xcid(this, n, dir) result(Xc) + private pure function get_Xcid(this, n, dir) result(Xc)

                                                                                                    Author
                                                                                                    Seyed Ali Ghasemi
                                                                                                    @@ -6008,7 +6008,7 @@

                                                                                                    - +

                                                                                                    procedure, private :: get_Xg_all @@ -6024,7 +6024,7 @@

                                                                                                    • - private pure function get_Xg_all(this) result(Xg) + private pure function get_Xg_all(this) result(Xg)

                                                                                                      Author
                                                                                                      Seyed Ali Ghasemi
                                                                                                      @@ -6077,7 +6077,7 @@

                                                                                                      - +

                                                                                                      procedure, private :: get_Xgi @@ -6093,7 +6093,7 @@

                                                                                                      • - private pure function get_Xgi(this, n) result(Xg) + private pure function get_Xgi(this, n) result(Xg)

                                                                                                        Author
                                                                                                        Seyed Ali Ghasemi
                                                                                                        @@ -6161,7 +6161,7 @@

                                                                                                        - +

                                                                                                        procedure, private :: get_Xgid @@ -6177,7 +6177,7 @@

                                                                                                        • - private pure function get_Xgid(this, n, dir) result(Xg) + private pure function get_Xgid(this, n, dir) result(Xg)

                                                                                                          Author
                                                                                                          Seyed Ali Ghasemi
                                                                                                          @@ -6413,7 +6413,7 @@

                                                                                                          - +

                                                                                                          procedure, private :: get_knot_all @@ -6429,7 +6429,7 @@

                                                                                                          • - private pure function get_knot_all(this, dir) result(knot) + private pure function get_knot_all(this, dir) result(knot)

                                                                                                            Author
                                                                                                            Seyed Ali Ghasemi
                                                                                                            @@ -6497,7 +6497,7 @@

                                                                                                            - +

                                                                                                            procedure, private :: get_knoti @@ -6513,7 +6513,7 @@

                                                                                                            • - private pure function get_knoti(this, dir, i) result(knot) + private pure function get_knoti(this, dir, i) result(knot)

                                                                                                              Author
                                                                                                              Seyed Ali Ghasemi
                                                                                                              @@ -6614,7 +6614,7 @@

                                                                                                              Documentation generated by FORD - on 2024-05-17T21:11:41.817259

                                                                                                              + on 2024-05-17T21:17:42.005035


                                                                                                            diff --git a/type/nurbs_volume.html b/type/nurbs_volume.html index 1928e8686..059c31b45 100644 --- a/type/nurbs_volume.html +++ b/type/nurbs_volume.html @@ -118,22 +118,22 @@

                                                                                                            Variables

                                                                                                            @@ -251,7 +251,7 @@

                                                                                                            Components

    @@ -268,7 +268,7 @@

    Components

    @@ -285,7 +285,7 @@

    Components

    @@ -302,7 +302,7 @@

    Components

    @@ -370,7 +370,7 @@

    Components

    @@ -387,7 +387,7 @@

    Components

    @@ -472,7 +472,7 @@

    Components

    @@ -489,7 +489,7 @@

    Components

    @@ -506,7 +506,7 @@

    Components

    @@ -6885,7 +6885,7 @@

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    - - class(nurbs_surface), + + class(nurbs_curve), intent(inout) @@ -201,31 +201,31 @@

    Called by

    - + proc~~translate_xg~3~~CalledByGraph - + proc~translate_xg~3 - -nurbs_surface%translate_Xg + +nurbs_curve%translate_Xg - + -program~example3_surface - - -example3_surface +program~example1_curve + + +example1_curve - + -program~example3_surface->proc~translate_xg~3 - - +program~example1_curve->proc~translate_xg~3 + + @@ -341,7 +341,7 @@

    Graph Key

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/proc/unique_integer.html b/proc/unique_integer.html index 29b52420b..04c8feae7 100644 --- a/proc/unique_integer.html +++ b/proc/unique_integer.html @@ -156,7 +156,7 @@

    Arguments
    - + integer, intent(in),
    - + real(kind=rk), intent(in),
    - + real(kind=rk), @@ -1245,7 +1245,7 @@

    Variables

    - + real(kind=rk), @@ -1261,7 +1261,7 @@

    Variables

    - + real(kind=rk) @@ -1277,7 +1277,7 @@

    Variables

    - + type(nurbs_curve) @@ -1470,7 +1470,7 @@

    Source Code

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/example3_surface.html b/program/example3_surface.html index 6820f2f7c..fc614f4f1 100644 --- a/program/example3_surface.html +++ b/program/example3_surface.html @@ -115,11 +115,11 @@

    Variables

    - Wc - Xc - knot1 - knot2 - nurbs + Wc + Xc + knot1 + knot2 + nurbs
    @@ -140,7 +140,7 @@

    Functions

    @@ -420,243 +420,243 @@

    Calls

    example3_surface - + -none~get_degree~3 - +none~get_degree~2 + nurbs_surface%get_degree - + -program~example3_surface->none~get_degree~3 +program~example3_surface->none~get_degree~2 - + -none~get_knot~3 - +none~get_knot~2 + nurbs_surface%get_knot - + -program~example3_surface->none~get_knot~3 +program~example3_surface->none~get_knot~2 - + -none~set~3 - +none~set~2 + nurbs_surface%set - + -program~example3_surface->none~set~3 +program~example3_surface->none~set~2 - + -proc~create~3 - +proc~create~2 + nurbs_surface%create - + -program~example3_surface->proc~create~3 +program~example3_surface->proc~create~2 - + -proc~elevate_degree~3 - +proc~elevate_degree~2 + nurbs_surface%elevate_degree - + -program~example3_surface->proc~elevate_degree~3 +program~example3_surface->proc~elevate_degree~2 - + -proc~export_xc~3 - +proc~export_xc~2 + nurbs_surface%export_Xc - + -program~example3_surface->proc~export_xc~3 +program~example3_surface->proc~export_xc~2 - + -proc~export_xg~3 - +proc~export_xg~2 + nurbs_surface%export_Xg - + -program~example3_surface->proc~export_xg~3 +program~example3_surface->proc~export_xg~2 - + -proc~finalize~3 - +proc~finalize~2 + nurbs_surface%finalize - + -program~example3_surface->proc~finalize~3 +program~example3_surface->proc~finalize~2 - + -proc~generate_xc~4 - +proc~generate_xc + generate_Xc - + -program~example3_surface->proc~generate_xc~4 +program~example3_surface->proc~generate_xc - + -proc~insert_knots~3 - +proc~insert_knots~2 + nurbs_surface%insert_knots - + -program~example3_surface->proc~insert_knots~3 +program~example3_surface->proc~insert_knots~2 - + -proc~remove_knots~3 - +proc~remove_knots~2 + nurbs_surface%remove_knots - + -program~example3_surface->proc~remove_knots~3 +program~example3_surface->proc~remove_knots~2 - + -proc~rotate_xc~3 - +proc~rotate_xc~2 + nurbs_surface%rotate_Xc - + -program~example3_surface->proc~rotate_xc~3 +program~example3_surface->proc~rotate_xc~2 - + -proc~rotate_xg~3 - +proc~rotate_xg~2 + nurbs_surface%rotate_Xg - + -program~example3_surface->proc~rotate_xg~3 +program~example3_surface->proc~rotate_xg~2 - + -proc~show~3 - +proc~show~2 + nurbs_surface%show - + -program~example3_surface->proc~show~3 +program~example3_surface->proc~show~2 - + -proc~translate_xc~3 - +proc~translate_xc~2 + nurbs_surface%translate_Xc - + -program~example3_surface->proc~translate_xc~3 +program~example3_surface->proc~translate_xc~2 - + -proc~translate_xg~3 - +proc~translate_xg~2 + nurbs_surface%translate_Xg - + -program~example3_surface->proc~translate_xg~3 +program~example3_surface->proc~translate_xg~2 @@ -669,9 +669,9 @@

    Calls

    - + -none~get_degree~3->proc~get_degree_all~2 +none~get_degree~2->proc~get_degree_all~2 @@ -684,84 +684,84 @@

    Calls

    - + -none~get_degree~3->proc~get_degree_dir~2 +none~get_degree~2->proc~get_degree_dir~2 - + -proc~get_knot_all~3 - +proc~get_knot_all~2 + nurbs_surface%get_knot_all - + -none~get_knot~3->proc~get_knot_all~3 +none~get_knot~2->proc~get_knot_all~2 - + -proc~get_knoti~3 - +proc~get_knoti~2 + nurbs_surface%get_knoti - + -none~get_knot~3->proc~get_knoti~3 +none~get_knot~2->proc~get_knoti~2 - + -proc~set1~3 - +proc~set1~2 + nurbs_surface%set1 - + -none~set~3->proc~set1~3 +none~set~2->proc~set1~2 - + -proc~set2~3 - +proc~set2~2 + nurbs_surface%set2 - + -none~set~3->proc~set2~3 +none~set~2->proc~set2~2 - + -proc~set3~3 - +proc~set3~2 + nurbs_surface%set3 - + -none~set~3->proc~set3~3 +none~set~2->proc~set3~2 @@ -774,36 +774,36 @@

    Calls

    - + -proc~create~3->interface~ndgrid +proc~create~2->interface~ndgrid - + -proc~is_rational~3 - +proc~is_rational~2 + nurbs_surface%is_rational - + -proc~create~3->proc~is_rational~3 +proc~create~2->proc~is_rational~2 - + -proc~elevate_degree~3->none~get_knot~3 +proc~elevate_degree~2->none~get_knot~2 - + -proc~elevate_degree~3->none~set~3 +proc~elevate_degree~2->none~set~2 @@ -816,57 +816,57 @@

    Calls

    - + -proc~elevate_degree~3->proc~elevate_degree_a_5_9 +proc~elevate_degree~2->proc~elevate_degree_a_5_9 - + -proc~elevate_degree~3->proc~is_rational~3 +proc~elevate_degree~2->proc~is_rational~2 - + -proc~cmp_elem_xc_vis~3 - +proc~cmp_elem_xc_vis~2 + nurbs_surface%cmp_elem_Xc_vis - + -proc~export_xc~3->proc~cmp_elem_xc_vis~3 +proc~export_xc~2->proc~cmp_elem_xc_vis~2 - + -proc~cmp_elem_xg_vis~3 - +proc~cmp_elem_xg_vis~2 + nurbs_surface%cmp_elem_Xg_vis - + -proc~export_xg~3->proc~cmp_elem_xg_vis~3 +proc~export_xg~2->proc~cmp_elem_xg_vis~2 - + -proc~insert_knots~3->none~get_knot~3 +proc~insert_knots~2->none~get_knot~2 - + -proc~insert_knots~3->none~set~3 +proc~insert_knots~2->none~set~2 @@ -879,9 +879,9 @@

    Calls

    - + -proc~insert_knots~3->interface~compute_multiplicity +proc~insert_knots~2->interface~compute_multiplicity @@ -894,9 +894,9 @@

    Calls

    - + -proc~insert_knots~3->proc~findspan +proc~insert_knots~2->proc~findspan @@ -909,45 +909,45 @@

    Calls

    - + -proc~insert_knots~3->proc~insert_knot_a_5_1 +proc~insert_knots~2->proc~insert_knot_a_5_1 - + -proc~insert_knots~3->proc~is_rational~3 +proc~insert_knots~2->proc~is_rational~2 - + -proc~remove_knots~3->none~get_knot~3 +proc~remove_knots~2->none~get_knot~2 - + -proc~remove_knots~3->none~set~3 +proc~remove_knots~2->none~set~2 - + -proc~remove_knots~3->interface~compute_multiplicity +proc~remove_knots~2->interface~compute_multiplicity - + -proc~remove_knots~3->proc~findspan +proc~remove_knots~2->proc~findspan - + -proc~remove_knots~3->proc~is_rational~3 +proc~remove_knots~2->proc~is_rational~2 @@ -960,9 +960,9 @@

    Calls

    - + -proc~remove_knots~3->proc~remove_knots_a_5_8 +proc~remove_knots~2->proc~remove_knots_a_5_8 @@ -975,15 +975,15 @@

    Calls

    - + -proc~rotate_xc~3->proc~rotation +proc~rotate_xc~2->proc~rotation - + -proc~rotate_xg~3->proc~rotation +proc~rotate_xg~2->proc~rotation @@ -1056,15 +1056,15 @@

    Calls

    - + -proc~cmp_elem_xc_vis~3->interface~elemconn_c0 +proc~cmp_elem_xc_vis~2->interface~elemconn_c0 - + -proc~cmp_elem_xg_vis~3->interface~elemconn_c0 +proc~cmp_elem_xg_vis~2->interface~elemconn_c0 @@ -1113,39 +1113,39 @@

    Calls

    - + -proc~cmp_degree~3 - +proc~cmp_degree~2 + nurbs_surface%cmp_degree - + -proc~set1~3->proc~cmp_degree~3 +proc~set1~2->proc~cmp_degree~2 - + -proc~cmp_nc~3 - +proc~cmp_nc~2 + nurbs_surface%cmp_nc - + -proc~set1~3->proc~cmp_nc~3 +proc~set1~2->proc~cmp_nc~2 - + -proc~set2~3->proc~cmp_nc~3 +proc~set2~2->proc~cmp_nc~2 @@ -1158,15 +1158,15 @@

    Calls

    - + -proc~set2~3->proc~compute_knot_vector +proc~set2~2->proc~compute_knot_vector - + -proc~set3~3->proc~cmp_degree~3 +proc~set3~2->proc~cmp_degree~2 @@ -1230,24 +1230,24 @@

    Calls

    - + -proc~get_multiplicity~3 - +proc~get_multiplicity~2 + nurbs_surface%get_multiplicity - + -proc~cmp_degree~3->proc~get_multiplicity~3 +proc~cmp_degree~2->proc~get_multiplicity~2 - + -proc~cmp_nc~3->interface~compute_multiplicity +proc~cmp_nc~2->interface~compute_multiplicity @@ -1266,9 +1266,9 @@

    Calls

    - + -proc~get_multiplicity~3->interface~compute_multiplicity +proc~get_multiplicity~2->interface~compute_multiplicity @@ -1375,7 +1375,7 @@

    Variables
    - + real(kind=rk), @@ -1391,7 +1391,7 @@

    Variables

    - + real(kind=rk), @@ -1407,7 +1407,7 @@

    Variables

    - + real(kind=rk) @@ -1423,7 +1423,7 @@

    Variables

    - + real(kind=rk) @@ -1439,7 +1439,7 @@

    Variables

    - + type(nurbs_surface) @@ -1467,7 +1467,7 @@

    Variables

    Functions

    -

    function generate_Xc(num_rows, num_cols, peak_height) result(control_points) +

    function generate_Xc(num_rows, num_cols, peak_height) result(control_points)

    @@ -1486,7 +1486,7 @@

    Arguments
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in)
    - + real(kind=rk), @@ -1359,7 +1359,7 @@

    Variables

    - + real(kind=rk), @@ -1375,7 +1375,7 @@

    Variables

    - + real(kind=rk) @@ -1391,7 +1391,7 @@

    Variables

    - + real(kind=rk) @@ -1407,7 +1407,7 @@

    Variables

    - + real(kind=rk) @@ -1423,7 +1423,7 @@

    Variables

    - + type(nurbs_volume) @@ -1451,7 +1451,7 @@

    Variables

    Functions

    -

    function generate_Xc(L) result(control_points) +

    function generate_Xc(L) result(control_points)

    @@ -1470,7 +1470,7 @@

    Arguments
    - + real(kind=rk), intent(in)
    - + real(kind=rk), @@ -889,7 +889,7 @@

    Variables

    - + real(kind=rk), @@ -905,7 +905,7 @@

    Variables

    - + type(nurbs_curve) @@ -933,7 +933,7 @@

    Variables

    Functions

    -

    function generate_Xc(num_coils, radius, height, num_points_per_coil) result(control_points) +

    function generate_Xc(num_coils, radius, height, num_points_per_coil) result(control_points)

    @@ -982,7 +982,7 @@

    Arguments

    - + real(kind=rk), intent(in)
    - + real(kind=rk), @@ -961,7 +961,7 @@

    Variables

    - + real(kind=rk), @@ -977,7 +977,7 @@

    Variables

    - + type(nurbs_surface) @@ -1005,7 +1005,7 @@

    Variables

    Functions

    -

    function generate_Xc(num_rows, num_cols, peak_height) result(control_points) +

    function generate_Xc(num_rows, num_cols, peak_height) result(control_points)

    @@ -1024,7 +1024,7 @@

    Arguments
    - + integer, intent(in)
    - + integer, intent(in)
    - + real(kind=rk), intent(in)
    - + real(kind=rk), @@ -946,7 +946,7 @@

    Variables

    - + real(kind=rk), @@ -962,7 +962,7 @@

    Variables

    - + type(nurbs_volume) @@ -990,7 +990,7 @@

    Variables

    Functions

    -

    function generate_Xc(L) result(control_points) +

    function generate_Xc(L) result(control_points)

    @@ -1009,7 +1009,7 @@

    Arguments
    - + real(kind=rk), intent(in)
    - + real(kind=rk), @@ -1075,7 +1075,7 @@

    Variables

    - + real(kind=rk) @@ -1091,7 +1091,7 @@

    Variables

    - + type(color) @@ -1107,7 +1107,7 @@

    Variables

    - + integer @@ -1123,7 +1123,7 @@

    Variables

    - + real(kind=rk) @@ -1139,7 +1139,7 @@

    Variables

    - + type(colormap) @@ -1155,7 +1155,7 @@

    Variables

    - + integer @@ -1187,7 +1187,7 @@

    Variables

    - + integer @@ -1203,7 +1203,7 @@

    Variables

    - + integer, @@ -1219,7 +1219,7 @@

    Variables

    - + type(format_pnm) @@ -1235,7 +1235,7 @@

    Variables

    - + real(kind=rk) @@ -1251,7 +1251,7 @@

    Variables

    - + integer @@ -1267,7 +1267,7 @@

    Variables

    - + real(kind=rk) @@ -1283,7 +1283,7 @@

    Variables

    - + integer(kind=ik), @@ -1299,7 +1299,7 @@

    Variables

    - + integer @@ -1315,7 +1315,7 @@

    Variables

    - + integer @@ -1331,7 +1331,7 @@

    Variables

    - + integer @@ -1347,7 +1347,7 @@

    Variables

    - + type(nurbs_surface) @@ -1363,7 +1363,7 @@

    Variables

    - + type(timer) @@ -1379,7 +1379,7 @@

    Variables

    - + integer @@ -1395,7 +1395,7 @@

    Variables

    - + real(kind=rk), @@ -1442,7 +1442,7 @@

    Variables

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/example_ppm2.html b/program/example_ppm2.html index 2711a4248..eae41f1c7 100644 --- a/program/example_ppm2.html +++ b/program/example_ppm2.html @@ -115,28 +115,28 @@

    Variables

    @@ -172,9 +172,9 @@

    Uses
    - + real(kind=rk), @@ -1144,7 +1144,7 @@

    Variables

    - + real(kind=rk) @@ -1160,7 +1160,7 @@

    Variables

    - + type(color) @@ -1176,7 +1176,7 @@

    Variables

    - + integer @@ -1192,7 +1192,7 @@

    Variables

    - + real(kind=rk) @@ -1208,7 +1208,7 @@

    Variables

    - + type(colormap) @@ -1224,7 +1224,7 @@

    Variables

    - + integer @@ -1240,7 +1240,7 @@

    Variables

    - + integer @@ -1256,7 +1256,7 @@

    Variables

    - + integer @@ -1272,7 +1272,7 @@

    Variables

    - + integer, @@ -1288,7 +1288,7 @@

    Variables

    - + type(format_pnm) @@ -1304,7 +1304,7 @@

    Variables

    - + real(kind=rk) @@ -1320,7 +1320,7 @@

    Variables

    - + integer @@ -1336,7 +1336,7 @@

    Variables

    - + real(kind=rk) @@ -1352,7 +1352,7 @@

    Variables

    - + integer(kind=ik), @@ -1368,7 +1368,7 @@

    Variables

    - + integer @@ -1384,7 +1384,7 @@

    Variables

    - + integer @@ -1400,7 +1400,7 @@

    Variables

    - + integer @@ -1416,7 +1416,7 @@

    Variables

    - + type(nurbs_surface) @@ -1432,7 +1432,7 @@

    Variables

    - + type(timer) @@ -1448,7 +1448,7 @@

    Variables

    - + integer @@ -1464,7 +1464,7 @@

    Variables

    - + real(kind=rk), @@ -1511,7 +1511,7 @@

    Variables

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/example_ppm3.html b/program/example_ppm3.html index 7b1b3cffb..76e3bcc8a 100644 --- a/program/example_ppm3.html +++ b/program/example_ppm3.html @@ -115,25 +115,25 @@

    Variables

    @@ -169,9 +169,9 @@

    Uses
    - + real(kind=rk), @@ -1233,7 +1233,7 @@

    Variables

    - + real(kind=rk) @@ -1249,7 +1249,7 @@

    Variables

    - + type(color) @@ -1265,7 +1265,7 @@

    Variables

    - + integer @@ -1281,7 +1281,7 @@

    Variables

    - + type(colormap) @@ -1297,7 +1297,7 @@

    Variables

    - + integer @@ -1313,7 +1313,7 @@

    Variables

    - + integer @@ -1329,7 +1329,7 @@

    Variables

    - + integer @@ -1345,7 +1345,7 @@

    Variables

    - + integer, @@ -1361,7 +1361,7 @@

    Variables

    - + type(format_pnm) @@ -1377,7 +1377,7 @@

    Variables

    - + integer @@ -1393,7 +1393,7 @@

    Variables

    - + integer(kind=ik), @@ -1409,7 +1409,7 @@

    Variables

    - + integer @@ -1425,7 +1425,7 @@

    Variables

    - + integer @@ -1441,7 +1441,7 @@

    Variables

    - + integer @@ -1457,7 +1457,7 @@

    Variables

    - + type(nurbs_surface) @@ -1473,7 +1473,7 @@

    Variables

    - + type(timer) @@ -1489,7 +1489,7 @@

    Variables

    - + integer @@ -1505,7 +1505,7 @@

    Variables

    - + real(kind=rk), @@ -1552,7 +1552,7 @@

    Variables

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/example_put_to_nurbs.html b/program/example_put_to_nurbs.html index 049267067..9b3ebaf31 100644 --- a/program/example_put_to_nurbs.html +++ b/program/example_put_to_nurbs.html @@ -115,11 +115,11 @@

    Variables

    - X + X control_shape elem - i - nunit + i + nunit
    @@ -155,8 +155,8 @@

    Uses
    - + real(kind=rk), @@ -969,7 +969,7 @@

    Variables

    - + integer @@ -985,7 +985,7 @@

    Variables

    - + integer @@ -1032,7 +1032,7 @@

    Variables

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/nearest_point_1d.html b/program/nearest_point_1d.html index 6daa598ff..18f4ccd42 100644 --- a/program/nearest_point_1d.html +++ b/program/nearest_point_1d.html @@ -115,10 +115,10 @@

    Variables

    @@ -374,48 +374,48 @@

    Calls

    nearest_point_1d - + -proc~create~2 - +proc~create~3 + nurbs_curve%create - + -program~nearest_point_1d->proc~create~2 +program~nearest_point_1d->proc~create~3 - + -proc~finalize~2 - +proc~finalize~3 + nurbs_curve%finalize - + -program~nearest_point_1d->proc~finalize~2 +program~nearest_point_1d->proc~finalize~3 - + -proc~nearest_point~2 - +proc~nearest_point~3 + nurbs_curve%nearest_point - + -program~nearest_point_1d->proc~nearest_point~2 +program~nearest_point_1d->proc~nearest_point~3 @@ -434,93 +434,93 @@

    Calls

    - + -proc~is_rational~2 - +proc~is_rational~3 + nurbs_curve%is_rational - + -proc~create~2->proc~is_rational~2 +proc~create~3->proc~is_rational~3 - + -none~set~2 - +none~set~3 + nurbs_curve%set - + -proc~set_circle->none~set~2 +proc~set_circle->none~set~3 - + -proc~set1~2 - +proc~set1~3 + nurbs_curve%set1 - + -none~set~2->proc~set1~2 +none~set~3->proc~set1~3 - + -proc~set2~2 - +proc~set2~3 + nurbs_curve%set2 - + -none~set~2->proc~set2~2 +none~set~3->proc~set2~3 - + -proc~set3~2 - +proc~set3~3 + nurbs_curve%set3 - + -none~set~2->proc~set3~2 +none~set~3->proc~set3~3 - + -proc~cmp_degree~2 - +proc~cmp_degree~3 + nurbs_curve%cmp_degree - + -proc~set1~2->proc~cmp_degree~2 +proc~set1~3->proc~cmp_degree~3 @@ -533,30 +533,30 @@

    Calls

    - + -proc~set2~2->proc~compute_knot_vector +proc~set2~3->proc~compute_knot_vector - + -proc~set3~2->proc~cmp_degree~2 +proc~set3~3->proc~cmp_degree~3 - + -proc~get_multiplicity~2 - +proc~get_multiplicity~3 + nurbs_curve%get_multiplicity - + -proc~cmp_degree~2->proc~get_multiplicity~2 +proc~cmp_degree~3->proc~get_multiplicity~3 @@ -584,9 +584,9 @@

    Calls

    - + -proc~get_multiplicity~2->interface~compute_multiplicity +proc~get_multiplicity~3->interface~compute_multiplicity @@ -723,7 +723,7 @@

    Variables
    - + integer @@ -739,7 +739,7 @@

    Variables

    - + real(kind=rk), @@ -755,7 +755,7 @@

    Variables

    - + real(kind=rk) @@ -771,7 +771,7 @@

    Variables

    - + type(nurbs_curve) @@ -818,7 +818,7 @@

    Variables

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/nearest_point_2d.html b/program/nearest_point_2d.html index 1ae3848c2..8608e23ac 100644 --- a/program/nearest_point_2d.html +++ b/program/nearest_point_2d.html @@ -115,10 +115,10 @@

    Variables

    @@ -375,48 +375,48 @@

    Calls

    nearest_point_2d - + -proc~create~3 - +proc~create~2 + nurbs_surface%create - + -program~nearest_point_2d->proc~create~3 +program~nearest_point_2d->proc~create~2 - + -proc~finalize~3 - +proc~finalize~2 + nurbs_surface%finalize - + -program~nearest_point_2d->proc~finalize~3 +program~nearest_point_2d->proc~finalize~2 - + -proc~nearest_point~3 - +proc~nearest_point~2 + nurbs_surface%nearest_point - + -program~nearest_point_2d->proc~nearest_point~3 +program~nearest_point_2d->proc~nearest_point~2 @@ -444,39 +444,39 @@

    Calls

    - + -proc~create~3->interface~ndgrid +proc~create~2->interface~ndgrid - + -proc~is_rational~3 - +proc~is_rational~2 + nurbs_surface%is_rational - + -proc~create~3->proc~is_rational~3 +proc~create~2->proc~is_rational~2 - + -none~set~3 - +none~set~2 + nurbs_surface%set - + -proc~set_tetragon->none~set~3 +proc~set_tetragon->none~set~2 @@ -525,84 +525,84 @@

    Calls

    - + -proc~set1~3 - +proc~set1~2 + nurbs_surface%set1 - + -none~set~3->proc~set1~3 +none~set~2->proc~set1~2 - + -proc~set2~3 - +proc~set2~2 + nurbs_surface%set2 - + -none~set~3->proc~set2~3 +none~set~2->proc~set2~2 - + -proc~set3~3 - +proc~set3~2 + nurbs_surface%set3 - + -none~set~3->proc~set3~3 +none~set~2->proc~set3~2 - + -proc~cmp_degree~3 - +proc~cmp_degree~2 + nurbs_surface%cmp_degree - + -proc~set1~3->proc~cmp_degree~3 +proc~set1~2->proc~cmp_degree~2 - + -proc~cmp_nc~3 - +proc~cmp_nc~2 + nurbs_surface%cmp_nc - + -proc~set1~3->proc~cmp_nc~3 +proc~set1~2->proc~cmp_nc~2 - + -proc~set2~3->proc~cmp_nc~3 +proc~set2~2->proc~cmp_nc~2 @@ -615,30 +615,30 @@

    Calls

    - + -proc~set2~3->proc~compute_knot_vector +proc~set2~2->proc~compute_knot_vector - + -proc~set3~3->proc~cmp_degree~3 +proc~set3~2->proc~cmp_degree~2 - + -proc~get_multiplicity~3 - +proc~get_multiplicity~2 + nurbs_surface%get_multiplicity - + -proc~cmp_degree~3->proc~get_multiplicity~3 +proc~cmp_degree~2->proc~get_multiplicity~2 @@ -651,9 +651,9 @@

    Calls

    - + -proc~cmp_nc~3->interface~compute_multiplicity +proc~cmp_nc~2->interface~compute_multiplicity @@ -702,9 +702,9 @@

    Calls

    - + -proc~get_multiplicity~3->interface~compute_multiplicity +proc~get_multiplicity~2->interface~compute_multiplicity @@ -811,7 +811,7 @@

    Variables
    - + integer @@ -827,7 +827,7 @@

    Variables

    - + real(kind=rk), @@ -843,7 +843,7 @@

    Variables

    - + real(kind=rk), @@ -859,7 +859,7 @@

    Variables

    - + type(nurbs_surface) @@ -906,7 +906,7 @@

    Variables

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/nearest_point_2d_bench.html b/program/nearest_point_2d_bench.html index d6a0637c1..a1387d940 100644 --- a/program/nearest_point_2d_bench.html +++ b/program/nearest_point_2d_bench.html @@ -115,14 +115,14 @@

    Variables

    - i - id - j - nearest_Xg - nearest_Xt + i + id + j + nearest_Xg + nearest_Xt points - shape - t + shape + t
    @@ -158,8 +158,8 @@

    Uses
    - + integer @@ -868,7 +868,7 @@

    Variables

    - + integer @@ -884,7 +884,7 @@

    Variables

    - + integer @@ -900,7 +900,7 @@

    Variables

    - + real(kind=rk), @@ -916,7 +916,7 @@

    Variables

    - + real(kind=rk), @@ -948,7 +948,7 @@

    Variables

    - + type(nurbs_surface) @@ -964,7 +964,7 @@

    Variables

    - + type(timer) @@ -1011,7 +1011,7 @@

    Variables

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/nearest_point_3d.html b/program/nearest_point_3d.html index 2d2ac3010..e8bb44824 100644 --- a/program/nearest_point_3d.html +++ b/program/nearest_point_3d.html @@ -115,10 +115,10 @@

    Variables

    @@ -796,7 +796,7 @@

    Variables
    - + integer @@ -812,7 +812,7 @@

    Variables

    - + real(kind=rk), @@ -828,7 +828,7 @@

    Variables

    - + real(kind=rk), @@ -844,7 +844,7 @@

    Variables

    - + type(nurbs_volume) @@ -891,7 +891,7 @@

    Variables

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/shape_c_1d.html b/program/shape_c_1d.html index aba081e30..9d08c0445 100644 --- a/program/shape_c_1d.html +++ b/program/shape_c_1d.html @@ -115,7 +115,7 @@

    Variables

    - shape + shape
    @@ -373,198 +373,198 @@

    Calls

    shape_C_1d - + -proc~create~2 - +proc~create~3 + nurbs_curve%create - + -program~shape_c_1d->proc~create~2 +program~shape_c_1d->proc~create~3 - + -proc~export_xc~2 - +proc~export_xc~3 + nurbs_curve%export_Xc - + -program~shape_c_1d->proc~export_xc~2 +program~shape_c_1d->proc~export_xc~3 - + -proc~export_xg~2 - +proc~export_xg~3 + nurbs_curve%export_Xg - + -program~shape_c_1d->proc~export_xg~2 +program~shape_c_1d->proc~export_xg~3 - + -proc~finalize~2 - +proc~finalize~3 + nurbs_curve%finalize - + -program~shape_c_1d->proc~finalize~2 +program~shape_c_1d->proc~finalize~3 - + -proc~set_c~2 - +proc~set_c~3 + nurbs_curve%set_C - + -program~shape_c_1d->proc~set_c~2 +program~shape_c_1d->proc~set_c~3 - + -proc~show~2 - +proc~show~3 + nurbs_curve%show - + -program~shape_c_1d->proc~show~2 +program~shape_c_1d->proc~show~3 - + -proc~is_rational~2 - +proc~is_rational~3 + nurbs_curve%is_rational - + -proc~create~2->proc~is_rational~2 +proc~create~3->proc~is_rational~3 - + -proc~cmp_elem_xc_vis~2 - +proc~cmp_elem_xc_vis~3 + nurbs_curve%cmp_elem_Xc_vis - + -proc~export_xc~2->proc~cmp_elem_xc_vis~2 +proc~export_xc~3->proc~cmp_elem_xc_vis~3 - + -proc~cmp_elem_xg_vis~2 - +proc~cmp_elem_xg_vis~3 + nurbs_curve%cmp_elem_Xg_vis - + -proc~export_xg~2->proc~cmp_elem_xg_vis~2 +proc~export_xg~3->proc~cmp_elem_xg_vis~3 - + -none~set~2 - +none~set~3 + nurbs_curve%set - + -proc~set_c~2->none~set~2 +proc~set_c~3->none~set~3 - + -proc~set1~2 - +proc~set1~3 + nurbs_curve%set1 - + -none~set~2->proc~set1~2 +none~set~3->proc~set1~3 - + -proc~set2~2 - +proc~set2~3 + nurbs_curve%set2 - + -none~set~2->proc~set2~2 +none~set~3->proc~set2~3 - + -proc~set3~2 - +proc~set3~3 + nurbs_curve%set3 - + -none~set~2->proc~set3~2 +none~set~3->proc~set3~3 @@ -577,15 +577,15 @@

    Calls

    - + -proc~cmp_elem_xc_vis~2->interface~elemconn_c0 +proc~cmp_elem_xc_vis~3->interface~elemconn_c0 - + -proc~cmp_elem_xg_vis~2->interface~elemconn_c0 +proc~cmp_elem_xg_vis~3->interface~elemconn_c0 @@ -634,18 +634,18 @@

    Calls

    - + -proc~cmp_degree~2 - +proc~cmp_degree~3 + nurbs_curve%cmp_degree - + -proc~set1~2->proc~cmp_degree~2 +proc~set1~3->proc~cmp_degree~3 @@ -658,30 +658,30 @@

    Calls

    - + -proc~set2~2->proc~compute_knot_vector +proc~set2~3->proc~compute_knot_vector - + -proc~set3~2->proc~cmp_degree~2 +proc~set3~3->proc~cmp_degree~3 - + -proc~get_multiplicity~2 - +proc~get_multiplicity~3 + nurbs_curve%get_multiplicity - + -proc~cmp_degree~2->proc~get_multiplicity~2 +proc~cmp_degree~3->proc~get_multiplicity~3 @@ -709,9 +709,9 @@

    Calls

    - + -proc~get_multiplicity~2->interface~compute_multiplicity +proc~get_multiplicity~3->interface~compute_multiplicity @@ -848,7 +848,7 @@

    Variables
    - + type(nurbs_curve) @@ -895,7 +895,7 @@

    Variables

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/shape_c_2d.html b/program/shape_c_2d.html index db6f4c561..e0a254946 100644 --- a/program/shape_c_2d.html +++ b/program/shape_c_2d.html @@ -115,7 +115,7 @@

    Variables

    - shape + shape
    @@ -373,93 +373,93 @@

    Calls

    shape_C_2d - + -proc~create~3 - +proc~create~2 + nurbs_surface%create - + -program~shape_c_2d->proc~create~3 +program~shape_c_2d->proc~create~2 - + -proc~export_xc~3 - +proc~export_xc~2 + nurbs_surface%export_Xc - + -program~shape_c_2d->proc~export_xc~3 +program~shape_c_2d->proc~export_xc~2 - + -proc~export_xg~3 - +proc~export_xg~2 + nurbs_surface%export_Xg - + -program~shape_c_2d->proc~export_xg~3 +program~shape_c_2d->proc~export_xg~2 - + -proc~finalize~3 - +proc~finalize~2 + nurbs_surface%finalize - + -program~shape_c_2d->proc~finalize~3 +program~shape_c_2d->proc~finalize~2 - + -proc~set_c~3 - +proc~set_c~2 + nurbs_surface%set_C - + -program~shape_c_2d->proc~set_c~3 +program~shape_c_2d->proc~set_c~2 - + -proc~show~3 - +proc~show~2 + nurbs_surface%show - + -program~shape_c_2d->proc~show~3 +program~shape_c_2d->proc~show~2 @@ -472,69 +472,69 @@

    Calls

    - + -proc~create~3->interface~ndgrid +proc~create~2->interface~ndgrid - + -proc~is_rational~3 - +proc~is_rational~2 + nurbs_surface%is_rational - + -proc~create~3->proc~is_rational~3 +proc~create~2->proc~is_rational~2 - + -proc~cmp_elem_xc_vis~3 - +proc~cmp_elem_xc_vis~2 + nurbs_surface%cmp_elem_Xc_vis - + -proc~export_xc~3->proc~cmp_elem_xc_vis~3 +proc~export_xc~2->proc~cmp_elem_xc_vis~2 - + -proc~cmp_elem_xg_vis~3 - +proc~cmp_elem_xg_vis~2 + nurbs_surface%cmp_elem_Xg_vis - + -proc~export_xg~3->proc~cmp_elem_xg_vis~3 +proc~export_xg~2->proc~cmp_elem_xg_vis~2 - + -none~set~3 - +none~set~2 + nurbs_surface%set - + -proc~set_c~3->none~set~3 +proc~set_c~2->none~set~2 @@ -568,48 +568,48 @@

    Calls

    - + -proc~set1~3 - +proc~set1~2 + nurbs_surface%set1 - + -none~set~3->proc~set1~3 +none~set~2->proc~set1~2 - + -proc~set2~3 - +proc~set2~2 + nurbs_surface%set2 - + -none~set~3->proc~set2~3 +none~set~2->proc~set2~2 - + -proc~set3~3 - +proc~set3~2 + nurbs_surface%set3 - + -none~set~3->proc~set3~3 +none~set~2->proc~set3~2 @@ -622,15 +622,15 @@

    Calls

    - + -proc~cmp_elem_xc_vis~3->interface~elemconn_c0 +proc~cmp_elem_xc_vis~2->interface~elemconn_c0 - + -proc~cmp_elem_xg_vis~3->interface~elemconn_c0 +proc~cmp_elem_xg_vis~2->interface~elemconn_c0 @@ -679,39 +679,39 @@

    Calls

    - + -proc~cmp_degree~3 - +proc~cmp_degree~2 + nurbs_surface%cmp_degree - + -proc~set1~3->proc~cmp_degree~3 +proc~set1~2->proc~cmp_degree~2 - + -proc~cmp_nc~3 - +proc~cmp_nc~2 + nurbs_surface%cmp_nc - + -proc~set1~3->proc~cmp_nc~3 +proc~set1~2->proc~cmp_nc~2 - + -proc~set2~3->proc~cmp_nc~3 +proc~set2~2->proc~cmp_nc~2 @@ -724,30 +724,30 @@

    Calls

    - + -proc~set2~3->proc~compute_knot_vector +proc~set2~2->proc~compute_knot_vector - + -proc~set3~3->proc~cmp_degree~3 +proc~set3~2->proc~cmp_degree~2 - + -proc~get_multiplicity~3 - +proc~get_multiplicity~2 + nurbs_surface%get_multiplicity - + -proc~cmp_degree~3->proc~get_multiplicity~3 +proc~cmp_degree~2->proc~get_multiplicity~2 @@ -760,9 +760,9 @@

    Calls

    - + -proc~cmp_nc~3->interface~compute_multiplicity +proc~cmp_nc~2->interface~compute_multiplicity @@ -811,9 +811,9 @@

    Calls

    - + -proc~get_multiplicity~3->interface~compute_multiplicity +proc~get_multiplicity~2->interface~compute_multiplicity @@ -920,7 +920,7 @@

    Variables
    - + type(nurbs_surface) @@ -967,7 +967,7 @@

    Variables

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/shape_c_3d.html b/program/shape_c_3d.html index 5616d815b..bac8099d8 100644 --- a/program/shape_c_3d.html +++ b/program/shape_c_3d.html @@ -115,7 +115,7 @@

    Variables

    - shape + shape
    @@ -905,7 +905,7 @@

    Variables
    - + type(nurbs_volume) @@ -952,7 +952,7 @@

    Variables

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/shape_circle.html b/program/shape_circle.html index 876de5c60..feac18ac3 100644 --- a/program/shape_circle.html +++ b/program/shape_circle.html @@ -115,7 +115,7 @@

    Variables

    - shape + shape
    @@ -373,63 +373,63 @@

    Calls

    shape_circle - + -proc~create~2 - +proc~create~3 + nurbs_curve%create - + -program~shape_circle->proc~create~2 +program~shape_circle->proc~create~3 - + -proc~export_xc~2 - +proc~export_xc~3 + nurbs_curve%export_Xc - + -program~shape_circle->proc~export_xc~2 +program~shape_circle->proc~export_xc~3 - + -proc~export_xg~2 - +proc~export_xg~3 + nurbs_curve%export_Xg - + -program~shape_circle->proc~export_xg~2 +program~shape_circle->proc~export_xg~3 - + -proc~finalize~2 - +proc~finalize~3 + nurbs_curve%finalize - + -program~shape_circle->proc~finalize~2 +program~shape_circle->proc~finalize~3 @@ -448,123 +448,123 @@

    Calls

    - + -proc~show~2 - +proc~show~3 + nurbs_curve%show - + -program~shape_circle->proc~show~2 +program~shape_circle->proc~show~3 - + -proc~is_rational~2 - +proc~is_rational~3 + nurbs_curve%is_rational - + -proc~create~2->proc~is_rational~2 +proc~create~3->proc~is_rational~3 - + -proc~cmp_elem_xc_vis~2 - +proc~cmp_elem_xc_vis~3 + nurbs_curve%cmp_elem_Xc_vis - + -proc~export_xc~2->proc~cmp_elem_xc_vis~2 +proc~export_xc~3->proc~cmp_elem_xc_vis~3 - + -proc~cmp_elem_xg_vis~2 - +proc~cmp_elem_xg_vis~3 + nurbs_curve%cmp_elem_Xg_vis - + -proc~export_xg~2->proc~cmp_elem_xg_vis~2 +proc~export_xg~3->proc~cmp_elem_xg_vis~3 - + -none~set~2 - +none~set~3 + nurbs_curve%set - + -proc~set_circle->none~set~2 +proc~set_circle->none~set~3 - + -proc~set1~2 - +proc~set1~3 + nurbs_curve%set1 - + -none~set~2->proc~set1~2 +none~set~3->proc~set1~3 - + -proc~set2~2 - +proc~set2~3 + nurbs_curve%set2 - + -none~set~2->proc~set2~2 +none~set~3->proc~set2~3 - + -proc~set3~2 - +proc~set3~3 + nurbs_curve%set3 - + -none~set~2->proc~set3~2 +none~set~3->proc~set3~3 @@ -577,15 +577,15 @@

    Calls

    - + -proc~cmp_elem_xc_vis~2->interface~elemconn_c0 +proc~cmp_elem_xc_vis~3->interface~elemconn_c0 - + -proc~cmp_elem_xg_vis~2->interface~elemconn_c0 +proc~cmp_elem_xg_vis~3->interface~elemconn_c0 @@ -634,18 +634,18 @@

    Calls

    - + -proc~cmp_degree~2 - +proc~cmp_degree~3 + nurbs_curve%cmp_degree - + -proc~set1~2->proc~cmp_degree~2 +proc~set1~3->proc~cmp_degree~3 @@ -658,30 +658,30 @@

    Calls

    - + -proc~set2~2->proc~compute_knot_vector +proc~set2~3->proc~compute_knot_vector - + -proc~set3~2->proc~cmp_degree~2 +proc~set3~3->proc~cmp_degree~3 - + -proc~get_multiplicity~2 - +proc~get_multiplicity~3 + nurbs_curve%get_multiplicity - + -proc~cmp_degree~2->proc~get_multiplicity~2 +proc~cmp_degree~3->proc~get_multiplicity~3 @@ -709,9 +709,9 @@

    Calls

    - + -proc~get_multiplicity~2->interface~compute_multiplicity +proc~get_multiplicity~3->interface~compute_multiplicity @@ -848,7 +848,7 @@

    Variables
    - + type(nurbs_curve) @@ -895,7 +895,7 @@

    Variables

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/shape_half_circle.html b/program/shape_half_circle.html index fd0b27246..44164cf1d 100644 --- a/program/shape_half_circle.html +++ b/program/shape_half_circle.html @@ -115,7 +115,7 @@

    Variables

    - shape + shape
    @@ -373,63 +373,63 @@

    Calls

    shape_half_circle - + -proc~create~2 - +proc~create~3 + nurbs_curve%create - + -program~shape_half_circle->proc~create~2 +program~shape_half_circle->proc~create~3 - + -proc~export_xc~2 - +proc~export_xc~3 + nurbs_curve%export_Xc - + -program~shape_half_circle->proc~export_xc~2 +program~shape_half_circle->proc~export_xc~3 - + -proc~export_xg~2 - +proc~export_xg~3 + nurbs_curve%export_Xg - + -program~shape_half_circle->proc~export_xg~2 +program~shape_half_circle->proc~export_xg~3 - + -proc~finalize~2 - +proc~finalize~3 + nurbs_curve%finalize - + -program~shape_half_circle->proc~finalize~2 +program~shape_half_circle->proc~finalize~3 @@ -448,123 +448,123 @@

    Calls

    - + -proc~show~2 - +proc~show~3 + nurbs_curve%show - + -program~shape_half_circle->proc~show~2 +program~shape_half_circle->proc~show~3 - + -proc~is_rational~2 - +proc~is_rational~3 + nurbs_curve%is_rational - + -proc~create~2->proc~is_rational~2 +proc~create~3->proc~is_rational~3 - + -proc~cmp_elem_xc_vis~2 - +proc~cmp_elem_xc_vis~3 + nurbs_curve%cmp_elem_Xc_vis - + -proc~export_xc~2->proc~cmp_elem_xc_vis~2 +proc~export_xc~3->proc~cmp_elem_xc_vis~3 - + -proc~cmp_elem_xg_vis~2 - +proc~cmp_elem_xg_vis~3 + nurbs_curve%cmp_elem_Xg_vis - + -proc~export_xg~2->proc~cmp_elem_xg_vis~2 +proc~export_xg~3->proc~cmp_elem_xg_vis~3 - + -none~set~2 - +none~set~3 + nurbs_curve%set - + -proc~set_half_circle->none~set~2 +proc~set_half_circle->none~set~3 - + -proc~set1~2 - +proc~set1~3 + nurbs_curve%set1 - + -none~set~2->proc~set1~2 +none~set~3->proc~set1~3 - + -proc~set2~2 - +proc~set2~3 + nurbs_curve%set2 - + -none~set~2->proc~set2~2 +none~set~3->proc~set2~3 - + -proc~set3~2 - +proc~set3~3 + nurbs_curve%set3 - + -none~set~2->proc~set3~2 +none~set~3->proc~set3~3 @@ -577,15 +577,15 @@

    Calls

    - + -proc~cmp_elem_xc_vis~2->interface~elemconn_c0 +proc~cmp_elem_xc_vis~3->interface~elemconn_c0 - + -proc~cmp_elem_xg_vis~2->interface~elemconn_c0 +proc~cmp_elem_xg_vis~3->interface~elemconn_c0 @@ -634,18 +634,18 @@

    Calls

    - + -proc~cmp_degree~2 - +proc~cmp_degree~3 + nurbs_curve%cmp_degree - + -proc~set1~2->proc~cmp_degree~2 +proc~set1~3->proc~cmp_degree~3 @@ -658,30 +658,30 @@

    Calls

    - + -proc~set2~2->proc~compute_knot_vector +proc~set2~3->proc~compute_knot_vector - + -proc~set3~2->proc~cmp_degree~2 +proc~set3~3->proc~cmp_degree~3 - + -proc~get_multiplicity~2 - +proc~get_multiplicity~3 + nurbs_curve%get_multiplicity - + -proc~cmp_degree~2->proc~get_multiplicity~2 +proc~cmp_degree~3->proc~get_multiplicity~3 @@ -709,9 +709,9 @@

    Calls

    - + -proc~get_multiplicity~2->interface~compute_multiplicity +proc~get_multiplicity~3->interface~compute_multiplicity @@ -848,7 +848,7 @@

    Variables
    - + type(nurbs_curve) @@ -895,7 +895,7 @@

    Variables

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/shape_half_ring_2d.html b/program/shape_half_ring_2d.html index 0a450ff78..41a207c5c 100644 --- a/program/shape_half_ring_2d.html +++ b/program/shape_half_ring_2d.html @@ -115,7 +115,7 @@

    Variables

    - shape + shape
    @@ -373,63 +373,63 @@

    Calls

    shape_half_ring_2d - + -proc~create~3 - +proc~create~2 + nurbs_surface%create - + -program~shape_half_ring_2d->proc~create~3 +program~shape_half_ring_2d->proc~create~2 - + -proc~export_xc~3 - +proc~export_xc~2 + nurbs_surface%export_Xc - + -program~shape_half_ring_2d->proc~export_xc~3 +program~shape_half_ring_2d->proc~export_xc~2 - + -proc~export_xg~3 - +proc~export_xg~2 + nurbs_surface%export_Xg - + -program~shape_half_ring_2d->proc~export_xg~3 +program~shape_half_ring_2d->proc~export_xg~2 - + -proc~finalize~3 - +proc~finalize~2 + nurbs_surface%finalize - + -program~shape_half_ring_2d->proc~finalize~3 +program~shape_half_ring_2d->proc~finalize~2 @@ -448,18 +448,18 @@

    Calls

    - + -proc~show~3 - +proc~show~2 + nurbs_surface%show - + -program~shape_half_ring_2d->proc~show~3 +program~shape_half_ring_2d->proc~show~2 @@ -472,69 +472,69 @@

    Calls

    - + -proc~create~3->interface~ndgrid +proc~create~2->interface~ndgrid - + -proc~is_rational~3 - +proc~is_rational~2 + nurbs_surface%is_rational - + -proc~create~3->proc~is_rational~3 +proc~create~2->proc~is_rational~2 - + -proc~cmp_elem_xc_vis~3 - +proc~cmp_elem_xc_vis~2 + nurbs_surface%cmp_elem_Xc_vis - + -proc~export_xc~3->proc~cmp_elem_xc_vis~3 +proc~export_xc~2->proc~cmp_elem_xc_vis~2 - + -proc~cmp_elem_xg_vis~3 - +proc~cmp_elem_xg_vis~2 + nurbs_surface%cmp_elem_Xg_vis - + -proc~export_xg~3->proc~cmp_elem_xg_vis~3 +proc~export_xg~2->proc~cmp_elem_xg_vis~2 - + -none~set~3 - +none~set~2 + nurbs_surface%set - + -proc~set_half_ring~2->none~set~3 +proc~set_half_ring~2->none~set~2 @@ -568,48 +568,48 @@

    Calls

    - + -proc~set1~3 - +proc~set1~2 + nurbs_surface%set1 - + -none~set~3->proc~set1~3 +none~set~2->proc~set1~2 - + -proc~set2~3 - +proc~set2~2 + nurbs_surface%set2 - + -none~set~3->proc~set2~3 +none~set~2->proc~set2~2 - + -proc~set3~3 - +proc~set3~2 + nurbs_surface%set3 - + -none~set~3->proc~set3~3 +none~set~2->proc~set3~2 @@ -622,15 +622,15 @@

    Calls

    - + -proc~cmp_elem_xc_vis~3->interface~elemconn_c0 +proc~cmp_elem_xc_vis~2->interface~elemconn_c0 - + -proc~cmp_elem_xg_vis~3->interface~elemconn_c0 +proc~cmp_elem_xg_vis~2->interface~elemconn_c0 @@ -679,39 +679,39 @@

    Calls

    - + -proc~cmp_degree~3 - +proc~cmp_degree~2 + nurbs_surface%cmp_degree - + -proc~set1~3->proc~cmp_degree~3 +proc~set1~2->proc~cmp_degree~2 - + -proc~cmp_nc~3 - +proc~cmp_nc~2 + nurbs_surface%cmp_nc - + -proc~set1~3->proc~cmp_nc~3 +proc~set1~2->proc~cmp_nc~2 - + -proc~set2~3->proc~cmp_nc~3 +proc~set2~2->proc~cmp_nc~2 @@ -724,30 +724,30 @@

    Calls

    - + -proc~set2~3->proc~compute_knot_vector +proc~set2~2->proc~compute_knot_vector - + -proc~set3~3->proc~cmp_degree~3 +proc~set3~2->proc~cmp_degree~2 - + -proc~get_multiplicity~3 - +proc~get_multiplicity~2 + nurbs_surface%get_multiplicity - + -proc~cmp_degree~3->proc~get_multiplicity~3 +proc~cmp_degree~2->proc~get_multiplicity~2 @@ -760,9 +760,9 @@

    Calls

    - + -proc~cmp_nc~3->interface~compute_multiplicity +proc~cmp_nc~2->interface~compute_multiplicity @@ -811,9 +811,9 @@

    Calls

    - + -proc~get_multiplicity~3->interface~compute_multiplicity +proc~get_multiplicity~2->interface~compute_multiplicity @@ -920,7 +920,7 @@

    Variables
    - + type(nurbs_surface) @@ -967,7 +967,7 @@

    Variables

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/shape_half_ring_3d.html b/program/shape_half_ring_3d.html index b2b9f2222..28d431890 100644 --- a/program/shape_half_ring_3d.html +++ b/program/shape_half_ring_3d.html @@ -115,7 +115,7 @@

    Variables

    - shape + shape
    @@ -905,7 +905,7 @@

    Variables
    - + type(nurbs_volume) @@ -952,7 +952,7 @@

    Variables

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/shape_hexahedron.html b/program/shape_hexahedron.html index 153d7809a..30c6cff3c 100644 --- a/program/shape_hexahedron.html +++ b/program/shape_hexahedron.html @@ -115,7 +115,7 @@

    Variables

    - shape + shape
    @@ -921,7 +921,7 @@

    Variables
    - + type(nurbs_volume) @@ -968,7 +968,7 @@

    Variables

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/shape_ring_2d.html b/program/shape_ring_2d.html index fb4b9f9c4..b389e1183 100644 --- a/program/shape_ring_2d.html +++ b/program/shape_ring_2d.html @@ -115,7 +115,7 @@

    Variables

    - shape + shape
    @@ -373,63 +373,63 @@

    Calls

    shape_ring_2d - + -proc~create~3 - +proc~create~2 + nurbs_surface%create - + -program~shape_ring_2d->proc~create~3 +program~shape_ring_2d->proc~create~2 - + -proc~export_xc~3 - +proc~export_xc~2 + nurbs_surface%export_Xc - + -program~shape_ring_2d->proc~export_xc~3 +program~shape_ring_2d->proc~export_xc~2 - + -proc~export_xg~3 - +proc~export_xg~2 + nurbs_surface%export_Xg - + -program~shape_ring_2d->proc~export_xg~3 +program~shape_ring_2d->proc~export_xg~2 - + -proc~finalize~3 - +proc~finalize~2 + nurbs_surface%finalize - + -program~shape_ring_2d->proc~finalize~3 +program~shape_ring_2d->proc~finalize~2 @@ -448,18 +448,18 @@

    Calls

    - + -proc~show~3 - +proc~show~2 + nurbs_surface%show - + -program~shape_ring_2d->proc~show~3 +program~shape_ring_2d->proc~show~2 @@ -472,69 +472,69 @@

    Calls

    - + -proc~create~3->interface~ndgrid +proc~create~2->interface~ndgrid - + -proc~is_rational~3 - +proc~is_rational~2 + nurbs_surface%is_rational - + -proc~create~3->proc~is_rational~3 +proc~create~2->proc~is_rational~2 - + -proc~cmp_elem_xc_vis~3 - +proc~cmp_elem_xc_vis~2 + nurbs_surface%cmp_elem_Xc_vis - + -proc~export_xc~3->proc~cmp_elem_xc_vis~3 +proc~export_xc~2->proc~cmp_elem_xc_vis~2 - + -proc~cmp_elem_xg_vis~3 - +proc~cmp_elem_xg_vis~2 + nurbs_surface%cmp_elem_Xg_vis - + -proc~export_xg~3->proc~cmp_elem_xg_vis~3 +proc~export_xg~2->proc~cmp_elem_xg_vis~2 - + -none~set~3 - +none~set~2 + nurbs_surface%set - + -proc~set_ring~2->none~set~3 +proc~set_ring~2->none~set~2 @@ -568,48 +568,48 @@

    Calls

    - + -proc~set1~3 - +proc~set1~2 + nurbs_surface%set1 - + -none~set~3->proc~set1~3 +none~set~2->proc~set1~2 - + -proc~set2~3 - +proc~set2~2 + nurbs_surface%set2 - + -none~set~3->proc~set2~3 +none~set~2->proc~set2~2 - + -proc~set3~3 - +proc~set3~2 + nurbs_surface%set3 - + -none~set~3->proc~set3~3 +none~set~2->proc~set3~2 @@ -622,15 +622,15 @@

    Calls

    - + -proc~cmp_elem_xc_vis~3->interface~elemconn_c0 +proc~cmp_elem_xc_vis~2->interface~elemconn_c0 - + -proc~cmp_elem_xg_vis~3->interface~elemconn_c0 +proc~cmp_elem_xg_vis~2->interface~elemconn_c0 @@ -679,39 +679,39 @@

    Calls

    - + -proc~cmp_degree~3 - +proc~cmp_degree~2 + nurbs_surface%cmp_degree - + -proc~set1~3->proc~cmp_degree~3 +proc~set1~2->proc~cmp_degree~2 - + -proc~cmp_nc~3 - +proc~cmp_nc~2 + nurbs_surface%cmp_nc - + -proc~set1~3->proc~cmp_nc~3 +proc~set1~2->proc~cmp_nc~2 - + -proc~set2~3->proc~cmp_nc~3 +proc~set2~2->proc~cmp_nc~2 @@ -724,30 +724,30 @@

    Calls

    - + -proc~set2~3->proc~compute_knot_vector +proc~set2~2->proc~compute_knot_vector - + -proc~set3~3->proc~cmp_degree~3 +proc~set3~2->proc~cmp_degree~2 - + -proc~get_multiplicity~3 - +proc~get_multiplicity~2 + nurbs_surface%get_multiplicity - + -proc~cmp_degree~3->proc~get_multiplicity~3 +proc~cmp_degree~2->proc~get_multiplicity~2 @@ -760,9 +760,9 @@

    Calls

    - + -proc~cmp_nc~3->interface~compute_multiplicity +proc~cmp_nc~2->interface~compute_multiplicity @@ -811,9 +811,9 @@

    Calls

    - + -proc~get_multiplicity~3->interface~compute_multiplicity +proc~get_multiplicity~2->interface~compute_multiplicity @@ -920,7 +920,7 @@

    Variables
    - + type(nurbs_surface) @@ -967,7 +967,7 @@

    Variables

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/shape_ring_3d.html b/program/shape_ring_3d.html index 41d7138a3..4ec4aaf9f 100644 --- a/program/shape_ring_3d.html +++ b/program/shape_ring_3d.html @@ -115,7 +115,7 @@

    Variables

    - shape + shape
    @@ -905,7 +905,7 @@

    Variables
    - + type(nurbs_volume) @@ -952,7 +952,7 @@

    Variables

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

    + on 2024-05-17T21:17:42.005035


    diff --git a/program/shape_tetragon.html b/program/shape_tetragon.html index 2560aa0e9..28f99c3be 100644 --- a/program/shape_tetragon.html +++ b/program/shape_tetragon.html @@ -115,7 +115,7 @@

    Variables

    - shape + shape
    @@ -374,63 +374,63 @@

    Calls

    shape_tetragon - + -proc~create~3 - +proc~create~2 + nurbs_surface%create - + -program~shape_tetragon->proc~create~3 +program~shape_tetragon->proc~create~2 - + -proc~export_xc~3 - +proc~export_xc~2 + nurbs_surface%export_Xc - + -program~shape_tetragon->proc~export_xc~3 +program~shape_tetragon->proc~export_xc~2 - + -proc~export_xg~3 - +proc~export_xg~2 + nurbs_surface%export_Xg - + -program~shape_tetragon->proc~export_xg~3 +program~shape_tetragon->proc~export_xg~2 - + -proc~finalize~3 - +proc~finalize~2 + nurbs_surface%finalize - + -program~shape_tetragon->proc~finalize~3 +program~shape_tetragon->proc~finalize~2 @@ -449,18 +449,18 @@

    Calls

    - + -proc~show~3 - +proc~show~2 + nurbs_surface%show - + -program~shape_tetragon->proc~show~3 +program~shape_tetragon->proc~show~2 @@ -473,69 +473,69 @@

    Calls

    - + -proc~create~3->interface~ndgrid +proc~create~2->interface~ndgrid - + -proc~is_rational~3 - +proc~is_rational~2 + nurbs_surface%is_rational - + -proc~create~3->proc~is_rational~3 +proc~create~2->proc~is_rational~2 - + -proc~cmp_elem_xc_vis~3 - +proc~cmp_elem_xc_vis~2 + nurbs_surface%cmp_elem_Xc_vis - + -proc~export_xc~3->proc~cmp_elem_xc_vis~3 +proc~export_xc~2->proc~cmp_elem_xc_vis~2 - + -proc~cmp_elem_xg_vis~3 - +proc~cmp_elem_xg_vis~2 + nurbs_surface%cmp_elem_Xg_vis - + -proc~export_xg~3->proc~cmp_elem_xg_vis~3 +proc~export_xg~2->proc~cmp_elem_xg_vis~2 - + -none~set~3 - +none~set~2 + nurbs_surface%set - + -proc~set_tetragon->none~set~3 +proc~set_tetragon->none~set~2 @@ -584,48 +584,48 @@

    Calls

    - + -proc~set1~3 - +proc~set1~2 + nurbs_surface%set1 - + -none~set~3->proc~set1~3 +none~set~2->proc~set1~2 - + -proc~set2~3 - +proc~set2~2 + nurbs_surface%set2 - + -none~set~3->proc~set2~3 +none~set~2->proc~set2~2 - + -proc~set3~3 - +proc~set3~2 + nurbs_surface%set3 - + -none~set~3->proc~set3~3 +none~set~2->proc~set3~2 @@ -638,15 +638,15 @@

    Calls

    - + -proc~cmp_elem_xc_vis~3->interface~elemconn_c0 +proc~cmp_elem_xc_vis~2->interface~elemconn_c0 - + -proc~cmp_elem_xg_vis~3->interface~elemconn_c0 +proc~cmp_elem_xg_vis~2->interface~elemconn_c0 @@ -695,39 +695,39 @@

    Calls

    - + -proc~cmp_degree~3 - +proc~cmp_degree~2 + nurbs_surface%cmp_degree - + -proc~set1~3->proc~cmp_degree~3 +proc~set1~2->proc~cmp_degree~2 - + -proc~cmp_nc~3 - +proc~cmp_nc~2 + nurbs_surface%cmp_nc - + -proc~set1~3->proc~cmp_nc~3 +proc~set1~2->proc~cmp_nc~2 - + -proc~set2~3->proc~cmp_nc~3 +proc~set2~2->proc~cmp_nc~2 @@ -740,30 +740,30 @@

    Calls

    - + -proc~set2~3->proc~compute_knot_vector +proc~set2~2->proc~compute_knot_vector - + -proc~set3~3->proc~cmp_degree~3 +proc~set3~2->proc~cmp_degree~2 - + -proc~get_multiplicity~3 - +proc~get_multiplicity~2 + nurbs_surface%get_multiplicity - + -proc~cmp_degree~3->proc~get_multiplicity~3 +proc~cmp_degree~2->proc~get_multiplicity~2 @@ -776,9 +776,9 @@

    Calls

    - + -proc~cmp_nc~3->interface~compute_multiplicity +proc~cmp_nc~2->interface~compute_multiplicity @@ -827,9 +827,9 @@

    Calls

    - + -proc~get_multiplicity~3->interface~compute_multiplicity +proc~get_multiplicity~2->interface~compute_multiplicity @@ -936,7 +936,7 @@

    Variables
    - + type(nurbs_surface) @@ -983,7 +983,7 @@

    Variables

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

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    diff --git a/search.html b/search.html index 733e8dcb5..192fb7d47 100644 --- a/search.html +++ b/search.html @@ -101,7 +101,7 @@

    Search Results

    Documentation generated by FORD - on 2024-05-17T21:11:41.817259

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    diff --git a/sourcefile/demo_curve.f90.html b/sourcefile/demo_curve.f90.html index dc52f8d1e..620905e44 100644 --- a/sourcefile/demo_curve.f90.html +++ b/sourcefile/demo_curve.f90.html @@ -422,7 +422,7 @@

    Source Code

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    diff --git a/sourcefile/demo_surface.f90.html b/sourcefile/demo_surface.f90.html index fe7bced6e..54818a44c 100644 --- a/sourcefile/demo_surface.f90.html +++ b/sourcefile/demo_surface.f90.html @@ -425,7 +425,7 @@

    Source Code

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    diff --git a/sourcefile/demo_volume.f90.html b/sourcefile/demo_volume.f90.html index 237237705..faf014936 100644 --- a/sourcefile/demo_volume.f90.html +++ b/sourcefile/demo_volume.f90.html @@ -420,7 +420,7 @@

    Source Code

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    diff --git a/sourcefile/example_curve_1.f90.html b/sourcefile/example_curve_1.f90.html index 4521624e3..515fa3d30 100644 --- a/sourcefile/example_curve_1.f90.html +++ b/sourcefile/example_curve_1.f90.html @@ -486,7 +486,7 @@

    Source Code

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    diff --git a/sourcefile/example_ppm1.f90.html b/sourcefile/example_ppm1.f90.html index 753c63ce1..11d4ba5a1 100644 --- a/sourcefile/example_ppm1.f90.html +++ b/sourcefile/example_ppm1.f90.html @@ -709,7 +709,7 @@

    Source Code

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    diff --git a/sourcefile/example_ppm2.f90.html b/sourcefile/example_ppm2.f90.html index 8b4ee3c8a..84284468e 100644 --- a/sourcefile/example_ppm2.f90.html +++ b/sourcefile/example_ppm2.f90.html @@ -718,7 +718,7 @@

    Source Code

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    diff --git a/sourcefile/example_ppm3.f90.html b/sourcefile/example_ppm3.f90.html index bd4a79875..2efe09920 100644 --- a/sourcefile/example_ppm3.f90.html +++ b/sourcefile/example_ppm3.f90.html @@ -701,7 +701,7 @@

    Source Code

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    diff --git a/sourcefile/example_surface_1.f90.html b/sourcefile/example_surface_1.f90.html index 88949f5ce..dac665335 100644 --- a/sourcefile/example_surface_1.f90.html +++ b/sourcefile/example_surface_1.f90.html @@ -517,7 +517,7 @@

    Source Code

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    diff --git a/sourcefile/example_volume_1.f90.html b/sourcefile/example_volume_1.f90.html index 8c0b179e2..259f29532 100644 --- a/sourcefile/example_volume_1.f90.html +++ b/sourcefile/example_volume_1.f90.html @@ -518,7 +518,7 @@

    Source Code

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    diff --git a/sourcefile/forcad.f90.html b/sourcefile/forcad.f90.html index 57c1a61eb..e1d77d1a7 100644 --- a/sourcefile/forcad.f90.html +++ b/sourcefile/forcad.f90.html @@ -790,7 +790,7 @@

    Source Code

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    diff --git a/sourcefile/forcad_nurbs_curve.f90.html b/sourcefile/forcad_nurbs_curve.f90.html index d0158e86d..439238347 100644 --- a/sourcefile/forcad_nurbs_curve.f90.html +++ b/sourcefile/forcad_nurbs_curve.f90.html @@ -2456,7 +2456,7 @@

    Source Code

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    diff --git a/sourcefile/forcad_nurbs_surface.f90.html b/sourcefile/forcad_nurbs_surface.f90.html index b77bbedc6..80ee38d5b 100644 --- a/sourcefile/forcad_nurbs_surface.f90.html +++ b/sourcefile/forcad_nurbs_surface.f90.html @@ -3070,7 +3070,7 @@

    Source Code

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    diff --git a/sourcefile/forcad_nurbs_volume.f90.html b/sourcefile/forcad_nurbs_volume.f90.html index e40a500fd..7ebf9610c 100644 --- a/sourcefile/forcad_nurbs_volume.f90.html +++ b/sourcefile/forcad_nurbs_volume.f90.html @@ -3562,7 +3562,7 @@

    Source Code

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    diff --git a/sourcefile/forcad_utils.f90.html b/sourcefile/forcad_utils.f90.html index f823f8b24..9656fd306 100644 --- a/sourcefile/forcad_utils.f90.html +++ b/sourcefile/forcad_utils.f90.html @@ -1750,7 +1750,7 @@

    Source Code

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    diff --git a/sourcefile/nearest_point_1d.f90.html b/sourcefile/nearest_point_1d.f90.html index dde2c3ec6..ba9416c13 100644 --- a/sourcefile/nearest_point_1d.f90.html +++ b/sourcefile/nearest_point_1d.f90.html @@ -387,7 +387,7 @@

    Source Code

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    diff --git a/sourcefile/nearest_point_2d.f90.html b/sourcefile/nearest_point_2d.f90.html index 818e38f7e..6cb6da174 100644 --- a/sourcefile/nearest_point_2d.f90.html +++ b/sourcefile/nearest_point_2d.f90.html @@ -388,7 +388,7 @@

    Source Code

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    diff --git a/sourcefile/nearest_point_2d_bench.f90.html b/sourcefile/nearest_point_2d_bench.f90.html index 742b721ed..9b9f1f525 100644 --- a/sourcefile/nearest_point_2d_bench.f90.html +++ b/sourcefile/nearest_point_2d_bench.f90.html @@ -400,7 +400,7 @@

    Source Code

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    diff --git a/sourcefile/nearest_point_3d.f90.html b/sourcefile/nearest_point_3d.f90.html index e00efd3cb..9ff4dad75 100644 --- a/sourcefile/nearest_point_3d.f90.html +++ b/sourcefile/nearest_point_3d.f90.html @@ -388,7 +388,7 @@

    Source Code

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    diff --git a/sourcefile/put_to_nurbs.f90.html b/sourcefile/put_to_nurbs.f90.html index df9ab6701..b30d8e0e1 100644 --- a/sourcefile/put_to_nurbs.f90.html +++ b/sourcefile/put_to_nurbs.f90.html @@ -404,7 +404,7 @@

    Source Code

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    diff --git a/sourcefile/shape_c_1d.f90.html b/sourcefile/shape_c_1d.f90.html index 7e69f5805..f0b3ab451 100644 --- a/sourcefile/shape_c_1d.f90.html +++ b/sourcefile/shape_c_1d.f90.html @@ -385,7 +385,7 @@

    Source Code

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    diff --git a/sourcefile/shape_c_2d.f90.html b/sourcefile/shape_c_2d.f90.html index 6b338a8cc..c7209e3e6 100644 --- a/sourcefile/shape_c_2d.f90.html +++ b/sourcefile/shape_c_2d.f90.html @@ -385,7 +385,7 @@

    Source Code

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    diff --git a/sourcefile/shape_c_3d.f90.html b/sourcefile/shape_c_3d.f90.html index c5ee79bbb..6717ac075 100644 --- a/sourcefile/shape_c_3d.f90.html +++ b/sourcefile/shape_c_3d.f90.html @@ -385,7 +385,7 @@

    Source Code

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    diff --git a/sourcefile/shape_circle.f90.html b/sourcefile/shape_circle.f90.html index 1a877ce62..ed86437d8 100644 --- a/sourcefile/shape_circle.f90.html +++ b/sourcefile/shape_circle.f90.html @@ -385,7 +385,7 @@

    Source Code

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    diff --git a/sourcefile/shape_half_circle.f90.html b/sourcefile/shape_half_circle.f90.html index bd3cce756..d3827e13d 100644 --- a/sourcefile/shape_half_circle.f90.html +++ b/sourcefile/shape_half_circle.f90.html @@ -374,7 +374,7 @@

    Source Code

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    diff --git a/sourcefile/shape_half_ring_2d.f90.html b/sourcefile/shape_half_ring_2d.f90.html index 24ecaf07b..a7406f91f 100644 --- a/sourcefile/shape_half_ring_2d.f90.html +++ b/sourcefile/shape_half_ring_2d.f90.html @@ -374,7 +374,7 @@

    Source Code

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    diff --git a/sourcefile/shape_half_ring_3d.f90.html b/sourcefile/shape_half_ring_3d.f90.html index 0107f4818..80a1ae67a 100644 --- a/sourcefile/shape_half_ring_3d.f90.html +++ b/sourcefile/shape_half_ring_3d.f90.html @@ -374,7 +374,7 @@

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    diff --git a/sourcefile/shape_hexahedron.f90.html b/sourcefile/shape_hexahedron.f90.html index 11ec97ddc..887efc992 100644 --- a/sourcefile/shape_hexahedron.f90.html +++ b/sourcefile/shape_hexahedron.f90.html @@ -380,7 +380,7 @@

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    diff --git a/sourcefile/shape_ring_2d.f90.html b/sourcefile/shape_ring_2d.f90.html index f47483abd..79b437a1c 100644 --- a/sourcefile/shape_ring_2d.f90.html +++ b/sourcefile/shape_ring_2d.f90.html @@ -374,7 +374,7 @@

    Source Code

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    diff --git a/sourcefile/shape_ring_3d.f90.html b/sourcefile/shape_ring_3d.f90.html index 4d2cb5c7e..6155e3ead 100644 --- a/sourcefile/shape_ring_3d.f90.html +++ b/sourcefile/shape_ring_3d.f90.html @@ -374,7 +374,7 @@

    Source Code

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    diff --git a/sourcefile/shape_tetragon.f90.html b/sourcefile/shape_tetragon.f90.html index 0d6ff6b0e..94c8985b4 100644 --- a/sourcefile/shape_tetragon.f90.html +++ b/sourcefile/shape_tetragon.f90.html @@ -387,7 +387,7 @@

    Source Code

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    diff --git a/tipuesearch/tipuesearch_content.js b/tipuesearch/tipuesearch_content.js index 5f1b3fda8..6b7dd5194 100644 --- a/tipuesearch/tipuesearch_content.js +++ b/tipuesearch/tipuesearch_content.js @@ -1 +1 @@ -var tipuesearch = {"pages":[{"title":" ForCAD ","text":"ForCAD ForCAD : A parallel Fortran library for geometric modeling using NURBS (Non-Uniform Rational B-Splines). ForCAD supports B-Spline , NURBS , Bezier , and Rational Bezier curves, surfaces, and volumes. Main Features Parallelized using OpenMP and do concurrent . Create NURBS objects by specifying control points, weights and knots. Refine NURBS objects by inserting or removing knots and elevating degree. Compute basis functions and derivatives of NURBS objects. Obtain IGA elements connectivity. Obtain visualized elements connectivity and coordinates for geometry and control geometry. Mesh insertion into a NURBS object. Export NURBS objects to VTK files for visualization. Includes predefined NURBS shapes: Circle, Half Circle, Tetragon, Hexahedron, 2D Ring, Half 2D Ring, 3D Ring, Half 3D Ring, C-shapes. Rotate and translate NURBS objects. Visualization using provided python PyVista scripts. Examples Installation Requirements A Fortran compiler, such as GNU Fortran ( gfortran ), Intel Fortran Compiler ( ifx/ifort ) or NVIDIA HPC SDK Fortran compiler ( nvfortran ). The Fortran Package Manager fpm . Optional: PyVista (Recommended) or ParaView for visualization. Clone the repository Clone the ForCAD repository from GitHub: git clone https://github.com/gha3mi/forcad.git cd forcad Install PyVista (Optional) To install PyVista, run the following command: pip install pyvista Running Examples with fpm fpm run --example After executing the examples, .vtk files will be generated in the vtk directory. To visualize these files, a show() method is provided which utilizes PyVista. Alternatively, other visualization tools like ParaView can also be used. Using ForCAD as a fpm Dependency If you want to use ForCAD as a dependency in your own fpm project,\nyou can easily include it by adding the following line to your fpm.toml file: [dependencies] forcad = { git = \"https://github.com/gha3mi/forcad.git\" } API documentation The most up-to-date API documentation for the master branch is available here .\nTo generate the API documentation for ForCAD using ford run the following\ncommand: ford ford.yml Roadmap For a detailed roadmap outlining upcoming features and enhancements, please refer to ROADMAP.md . Contributing To contribute to ForCAD, please review the CONTRIBUTING.md . Citation If you use ForCAD in your research, please cite it as follows: @software { seyed_ali_ghasemi_2024_10904447 , author = {Ghasemi, S. A.} , title = {gha3mi/ForCAD} , year = 2024 , publisher = {Zenodo} , doi = {10.5281/zenodo.10904447} , url = {https://doi.org/10.5281/zenodo.10904447} } References Piegl, L., & Tiller, W. (1995). The NURBS Book. In Monographs in Visual Communications. Springer Berlin Heidelberg. https://doi.org/10.1007/978-3-642-97385-7 An Introduction to NURBS. (2001). Elsevier. https://doi.org/10.1016/b978-1-55860-669-2.x5000-3 Sullivan et al., (2019). PyVista: 3D plotting and mesh analysis through a streamlined interface for the Visualization Toolkit (VTK). Journal of Open Source Software, 4(37), 1450, https://doi.org/10.21105/joss.01450 Ahrens, James, Geveci, Berk, Law, Charles, ParaView: An End-User Tool for Large Data Visualization, Visualization Handbook, Elsevier, 2005, ISBN-13: 9780123875822 Developer Info Seyed Ali Ghasemi","tags":"home","loc":"index.html"},{"title":"nurbs_volume – ForCAD ","text":"type, public :: nurbs_volume Components Type Visibility Attributes Name Initial real(kind=rk), private, allocatable :: Wc (:) Weights for the control points (1D array: [nc(1) nc(2) nc(3)]) real(kind=rk), private, allocatable :: Xc (:,:) Control points (2D array: [nc(1) nc(2) nc(3), dim]) real(kind=rk), private, allocatable :: Xg (:,:) Geometry points (2D array: [ng(1) ng(2) ng(3), dim]) real(kind=rk), private, allocatable :: Xt (:,:) Evaluation parameter values (2D array: [ng(1) ng(2) ng(3), dim] real(kind=rk), private, allocatable :: Xt1 (:) Evaluation parameter values in the first direction (1D array: [ng(1)]) real(kind=rk), private, allocatable :: Xt2 (:) Evaluation parameter values in the second direction (1D array: [ng(2)]) real(kind=rk), private, allocatable :: Xt3 (:) Evaluation parameter values in the third direction (1D array: [ng(3)]) integer, private :: degree (3) Degree (order) of the volume integer, private, allocatable :: elemConn (:,:) IGA element connectivity integer, private, allocatable :: elemConn_Xc_vis (:,:) Connectivity for visualization of control points integer, private, allocatable :: elemConn_Xg_vis (:,:) Connectivity for visualization of geometry points real(kind=rk), private, allocatable :: knot1 (:) Knot vector in the first direction (1D array) real(kind=rk), private, allocatable :: knot2 (:) Knot vector in the second direction (1D array) real(kind=rk), private, allocatable :: knot3 (:) Knot vector in the third direction (1D array) integer, private :: nc (3) Number of control points in each direction integer, private :: ng (3) Number of geometry points in each direction Type-Bound Procedures procedure, public :: basis Compute the basis functions of the NURBS volume private pure subroutine basis (this, res1, res2, res3, Xt1, Xt2, Xt3, Tgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 integer, intent(in), optional :: res3 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt3 (:) real(kind=rk), intent(out), allocatable :: Tgc (:,:) procedure, public :: cmp_degree Compute degree of the NURBS volume private pure subroutine cmp_degree (this, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: dir procedure, public :: cmp_elem Generate IGA element connectivity private pure function cmp_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:) procedure, public :: cmp_elem_Xc_vis Generate connectivity for control points private pure function cmp_elem_Xc_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) procedure, public :: cmp_elem_Xg_vis Generate connectivity for geometry points private pure function cmp_elem_Xg_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) procedure, public :: cmp_nc Compute number of required control points private pure subroutine cmp_nc (this, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: dir procedure, public :: create Generate geometry points private pure subroutine create (this, res1, res2, res3, Xt1, Xt2, Xt3, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 integer, intent(in), optional :: res3 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt3 (:) real(kind=rk), intent(in), optional, contiguous :: Xt (:,:) procedure, public :: derivative Compute the derivative of the NURBS volume private pure subroutine derivative (this, res1, res2, res3, Xt1, Xt2, Xt3, dTgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 integer, intent(in), optional :: res3 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt3 (:) real(kind=rk), intent(out), allocatable :: dTgc (:,:) procedure, public :: elevate_degree Elevate the degree of the NURBS volume private pure subroutine elevate_degree (this, dir, t) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in) :: dir integer, intent(in) :: t procedure, public :: export_Xc Export control points to VTK file private impure subroutine export_Xc (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this character(len=*), intent(in) :: filename procedure, public :: export_Xg Export geometry points to VTK file private impure subroutine export_Xg (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this character(len=*), intent(in) :: filename procedure, public :: finalize Finalize the NURBS volume object private pure subroutine finalize (this) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this generic, public :: get_Wc => get_Wc_all , get_Wci Get weights private pure function get_Wc_all (this) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) private pure function get_Wci (this, n) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) generic, public :: get_Xc => get_Xc_all , get_Xci , get_Xcid Get control points private pure function get_Xc_all (this) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xci (this, n) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xcid (this, n, dir) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) generic, public :: get_Xg => get_Xg_all , get_Xgi , get_Xgid Get geometry points private pure function get_Xg_all (this) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xgi (this, n) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xgid (this, n, dir) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) procedure, public :: get_Xt Get parameter values private pure function get_Xt (this, dir) result(Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) procedure, public :: get_continuity Compute and return the continuity of the NURBS volume private pure function get_continuity (this, dir) result(c) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) generic, public :: get_degree => get_degree_all , get_degree_dir Get degree of the NURBS volume private pure function get_degree_all (this) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, (3) private pure function get_degree_dir (this, dir) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer procedure, public :: get_elem Get IGA element connectivity private pure function get_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:) procedure, public :: get_elem_Xc_vis Get connectivity for control points private pure function get_elem_Xc_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:) procedure, public :: get_elem_Xg_vis Get connectivity for geometry points private pure function get_elem_Xg_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:) generic, public :: get_knot => get_knoti , get_knot_all Get knot vector private pure function get_knoti (this, dir, i) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir integer, intent(in) :: i Return Value real(kind=rk) private pure function get_knot_all (this, dir) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) procedure, public :: get_multiplicity Compute and return the multiplicity of the knots private pure function get_multiplicity (this, dir) result(m) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) procedure, public :: get_ng Get number of geometry points private pure function get_ng (this) result(ng) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, (3) procedure, public :: insert_knots Insert knots into the knot vector private pure subroutine insert_knots (this, dir, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) procedure, public :: is_rational Check if the NURBS volume is rational private pure function is_rational (this) result(r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value logical procedure, public :: modify_Wc Modify weights private pure subroutine modify_Wc (this, W, num) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: W integer, intent(in) :: num procedure, public :: modify_Xc Modify control points private pure subroutine modify_Xc (this, X, num, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: X integer, intent(in) :: num integer, intent(in) :: dir procedure, public :: nearest_point Find the nearest point on the NURBS volume private pure subroutine nearest_point (this, point_Xg, nearest_Xg, nearest_Xt, id) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this real(kind=rk), intent(in) :: point_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xt (:) integer, intent(out), optional :: id procedure, public :: put_to_nurbs Put a shape to a NURBS volume private pure subroutine put_to_nurbs (this, X, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: X (:,:) integer, intent(in), contiguous :: elemConn (:,:) procedure, public :: remove_knots Remove knots from the knot vector private pure subroutine remove_knots (this, dir, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) procedure, public :: rotate_Xc Rotate control points private pure subroutine rotate_Xc (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta procedure, public :: rotate_Xg Rotate geometry points private pure subroutine rotate_Xg (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta generic, public :: set => set1 , set2 , set3 Set NURBS volume private pure subroutine set1 (this, knot1, knot2, knot3, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set control points and weights for the NURBS volume object. Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: knot3 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set2 (this, Xth_dir1, Xth_dir2, Xth_dir3, degree, continuity1, continuity2, continuity3, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set control points and weights for the NURBS volume object. Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir1 (:) real(kind=rk), intent(in), contiguous :: Xth_dir2 (:) real(kind=rk), intent(in), contiguous :: Xth_dir3 (:) integer, intent(in), contiguous :: degree (:) integer, intent(in), contiguous :: continuity1 (:) integer, intent(in), contiguous :: continuity2 (:) integer, intent(in), contiguous :: continuity3 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set3 (this, nc, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set Bezier or Rational Bezier volume using control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set1 Set knot vectors, control points and weights for the NURBS volume object private pure subroutine set1 (this, knot1, knot2, knot3, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set control points and weights for the NURBS volume object. Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: knot3 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set2 Set NURBS volume using nodes of parameter space, degree, continuity, control points and weights private pure subroutine set2 (this, Xth_dir1, Xth_dir2, Xth_dir3, degree, continuity1, continuity2, continuity3, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set control points and weights for the NURBS volume object. Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir1 (:) real(kind=rk), intent(in), contiguous :: Xth_dir2 (:) real(kind=rk), intent(in), contiguous :: Xth_dir3 (:) integer, intent(in), contiguous :: degree (:) integer, intent(in), contiguous :: continuity1 (:) integer, intent(in), contiguous :: continuity2 (:) integer, intent(in), contiguous :: continuity3 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set3 Set Bezier or Rational Bezier volume using control points and weights private pure subroutine set3 (this, nc, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set Bezier or Rational Bezier volume using control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set_C Set a C-shape private pure subroutine set_C (this, center, radius1, radius2, length) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 real(kind=rk), intent(in) :: length procedure, public :: set_elem Set IGA element connectivity private pure subroutine set_elem (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) procedure, public :: set_elem_Xc_vis Set connectivity for control points private pure subroutine set_elem_Xc_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) procedure, public :: set_elem_Xg_vis Set connectivity for geometry points private pure subroutine set_elem_Xg_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) procedure, public :: set_half_ring Set a half ring private pure subroutine set_half_ring (this, center, radius1, radius2, length) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 real(kind=rk), intent(in) :: length procedure, public :: set_hexahedron Set a hexahedron private pure subroutine set_hexahedron (this, L, nc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: L (:) integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set_ring Set a ring private pure subroutine set_ring (this, center, radius1, radius2, length) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 real(kind=rk), intent(in) :: length procedure, public :: show Show the NURBS object using PyVista private impure subroutine show (this, vtkfile_Xc, vtkfile_Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this character(len=*), intent(in) :: vtkfile_Xc character(len=*), intent(in) :: vtkfile_Xg procedure, public :: translate_Xc Translate control points private pure subroutine translate_Xc (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) procedure, public :: translate_Xg Translate geometry points private pure subroutine translate_Xg (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) procedure, private :: get_Wc_all Get all weights private pure function get_Wc_all (this) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) procedure, private :: get_Wci Get i-th weight private pure function get_Wci (this, n) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) procedure, private :: get_Xc_all Get all control points private pure function get_Xc_all (this) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) procedure, private :: get_Xci Get i-th control point private pure function get_Xci (this, n) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) procedure, private :: get_Xcid Get i-th control point in a specific direction private pure function get_Xcid (this, n, dir) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) procedure, private :: get_Xg_all Get all geometry points private pure function get_Xg_all (this) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) procedure, private :: get_Xgi Get i-th geometry point private pure function get_Xgi (this, n) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) procedure, private :: get_Xgid Get i-th geometry point in a specific direction private pure function get_Xgid (this, n, dir) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) procedure, private :: get_degree_all Get degree of the NURBS volume in all directions private pure function get_degree_all (this) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, (3) procedure, private :: get_degree_dir Get degree of the NURBS volume in a specific direction private pure function get_degree_dir (this, dir) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer procedure, private :: get_knot_all Get all knot vectors private pure function get_knot_all (this, dir) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) procedure, private :: get_knoti Get i-th knot value private pure function get_knoti (this, dir, i) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir integer, intent(in) :: i Return Value real(kind=rk)","tags":"","loc":"type/nurbs_volume.html"},{"title":"nurbs_curve – ForCAD ","text":"type, public :: nurbs_curve Components Type Visibility Attributes Name Initial real(kind=rk), private, allocatable :: Wc (:) Weights for control points (1D array: [nc]) real(kind=rk), private, allocatable :: Xc (:,:) Control points (2D array: [nc, dim]) real(kind=rk), private, allocatable :: Xg (:,:) Geometry points (2D array: [ng, dim]) real(kind=rk), private, allocatable :: Xt (:) Evaluation points (1D array: [ng]) integer, private :: degree Degree (order) of the curve integer, private, allocatable :: elemConn (:,:) IGA element connectivity integer, private, allocatable :: elemConn_Xc_vis (:,:) Connectivity for visualization of control points integer, private, allocatable :: elemConn_Xg_vis (:,:) Connectivity for visualization of geometry points real(kind=rk), private, allocatable :: knot (:) Knot vector (1D array) integer, private :: nc Number of control points integer, private :: ng Number of geometry points Type-Bound Procedures procedure, public :: basis Compute the basis functions of the NURBS curve private pure subroutine basis (this, res, Xt, Tgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), optional :: res real(kind=rk), intent(in), optional, contiguous :: Xt (:) real(kind=rk), intent(out), allocatable :: Tgc (:,:) procedure, public :: cmp_degree Compute degree of the NURBS curve private pure subroutine cmp_degree (this) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this procedure, public :: cmp_elem Generate IGA element connectivity private pure function cmp_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:) procedure, public :: cmp_elem_Xc_vis Generate connectivity for control points private pure function cmp_elem_Xc_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in), optional :: p Return Value integer, allocatable, (:,:) procedure, public :: cmp_elem_Xg_vis Generate connectivity for geometry points private pure function cmp_elem_Xg_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in), optional :: p Return Value integer, allocatable, (:,:) procedure, public :: cmp_nc Compute number of required control points private pure subroutine cmp_nc (this) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this procedure, public :: create Generate geometry points private pure subroutine create (this, res, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), optional :: res real(kind=rk), intent(in), optional, contiguous :: Xt (:) procedure, public :: derivative Compute the derivative of the NURBS curve private pure subroutine derivative (this, res, Xt, dTgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), optional :: res real(kind=rk), intent(in), optional, contiguous :: Xt (:) real(kind=rk), intent(out), allocatable :: dTgc (:,:) procedure, public :: elevate_degree Elevate the degree of the curve private pure subroutine elevate_degree (this, t) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in) :: t procedure, public :: export_Xc Export control points to VTK file private impure subroutine export_Xc (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this character(len=*), intent(in) :: filename procedure, public :: export_Xg Export geometry points to VTK file private impure subroutine export_Xg (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this character(len=*), intent(in) :: filename procedure, public :: finalize Finalize the NURBS curve object private pure subroutine finalize (this) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this generic, public :: get_Wc => get_Wc_all , get_Wci Get weights private pure function get_Wc_all (this) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) private pure function get_Wci (this, n) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) generic, public :: get_Xc => get_Xc_all , get_Xci , get_Xcid Get control points private pure function get_Xc_all (this) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xci (this, n) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xcid (this, n, dir) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) generic, public :: get_Xg => get_Xg_all , get_Xgi , get_Xgid Get geometry points private pure function get_Xg_all (this) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xgi (this, n) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xgid (this, n, dir) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) procedure, public :: get_Xt Get parameter values private pure function get_Xt (this) result(Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) procedure, public :: get_continuity Compute and return the continuity of the curve private pure function get_continuity (this) result(c) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:) procedure, public :: get_degree Get degree of the NURBS curve private pure function get_degree (this) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer procedure, public :: get_elem Get IGA element connectivity private pure function get_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:) procedure, public :: get_elem_Xc_vis Get connectivity for control points private pure function get_elem_Xc_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:) procedure, public :: get_elem_Xg_vis Get connectivity for geometry points private pure function get_elem_Xg_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:) generic, public :: get_knot => get_knoti , get_knot_all Get knot vector private pure function get_knoti (this, i) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: i Return Value real(kind=rk) private pure function get_knot_all (this) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) procedure, public :: get_multiplicity Compute and return the multiplicity of the knots private pure function get_multiplicity (this) result(m) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:) procedure, public :: get_nc Get number of control points private pure function get_nc (this) result(nc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer procedure, public :: get_ng Get number of geometry points private pure function get_ng (this) result(ng) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer procedure, public :: insert_knots Insert knots into the knot vector private pure subroutine insert_knots (this, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) procedure, public :: is_rational Check if the NURBS curve is rational private pure function is_rational (this) result(r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value logical procedure, public :: modify_Wc Modify weights private pure subroutine modify_Wc (this, W, num) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: W integer, intent(in) :: num procedure, public :: modify_Xc Modify control points private pure subroutine modify_Xc (this, X, num, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: X integer, intent(in) :: num integer, intent(in) :: dir procedure, public :: nearest_point Find the nearest point on the NURBS curve private pure subroutine nearest_point (this, point_Xg, nearest_Xg, nearest_Xt, id) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this real(kind=rk), intent(in) :: point_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xg (:) real(kind=rk), intent(out), optional :: nearest_Xt integer, intent(out), optional :: id procedure, public :: remove_knots Remove knots from the knot vector private pure subroutine remove_knots (this, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) procedure, public :: rotate_Xc Rotate control points private pure subroutine rotate_Xc (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta procedure, public :: rotate_Xg Rotate geometry points private pure subroutine rotate_Xg (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta generic, public :: set => set1 , set2 , set3 Set NURBS curve private pure subroutine set1 (this, knot, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set knot vector, control points and weights for the NURBS curve object. Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set2 (this, Xth_dir, degree, continuity, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set NURBS curve using nodes of parameter space (Xth), degree, continuity, control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir (:) integer, intent(in) :: degree integer, intent(in), contiguous :: continuity (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set3 (this, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set Bezier or Rational Bezier curve using control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set1 Set knot vector, control points and weights for the NURBS curve object private pure subroutine set1 (this, knot, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set knot vector, control points and weights for the NURBS curve object. Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set2 Set NURBS curve using nodes of parameter space, degree, continuity, control points and weights private pure subroutine set2 (this, Xth_dir, degree, continuity, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set NURBS curve using nodes of parameter space (Xth), degree, continuity, control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir (:) integer, intent(in) :: degree integer, intent(in), contiguous :: continuity (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set3 Set Bezier or Rational Bezier curve using control points and weights private pure subroutine set3 (this, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set Bezier or Rational Bezier curve using control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set_C Set a C-shape private pure subroutine set_C (this, center, radius) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius procedure, public :: set_circle Set a circle private pure subroutine set_circle (this, center, radius) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius procedure, public :: set_elem Set IGA element connectivity private pure subroutine set_elem (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) procedure, public :: set_elem_Xc_vis Set connectivity for control points private pure subroutine set_elem_Xc_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) procedure, public :: set_elem_Xg_vis Set connectivity for geometry points private pure subroutine set_elem_Xg_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) procedure, public :: set_half_circle Set a half circle private pure subroutine set_half_circle (this, center, radius) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius procedure, public :: show Show the NURBS object using PyVista private impure subroutine show (this, vtkfile_Xc, vtkfile_Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this character(len=*), intent(in) :: vtkfile_Xc character(len=*), intent(in) :: vtkfile_Xg procedure, public :: translate_Xc Translate control points private pure subroutine translate_Xc (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) procedure, public :: translate_Xg Translate geometry points private pure subroutine translate_Xg (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) procedure, private :: get_Wc_all Get all weights private pure function get_Wc_all (this) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) procedure, private :: get_Wci Get i-th weight private pure function get_Wci (this, n) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) procedure, private :: get_Xc_all Get all control points private pure function get_Xc_all (this) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) procedure, private :: get_Xci Get i-th control point private pure function get_Xci (this, n) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) procedure, private :: get_Xcid Get i-th control point in a specific direction private pure function get_Xcid (this, n, dir) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) procedure, private :: get_Xg_all Get all geometry points private pure function get_Xg_all (this) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) procedure, private :: get_Xgi Get i-th geometry point private pure function get_Xgi (this, n) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) procedure, private :: get_Xgid Get i-th geometry point in a specific direction private pure function get_Xgid (this, n, dir) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) procedure, private :: get_knot_all Get all knot vectors private pure function get_knot_all (this) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) procedure, private :: get_knoti Get i-th knot value private pure function get_knoti (this, i) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: i Return Value real(kind=rk)","tags":"","loc":"type/nurbs_curve.html"},{"title":"nurbs_surface – ForCAD ","text":"type, public :: nurbs_surface Components Type Visibility Attributes Name Initial real(kind=rk), private, allocatable :: Wc (:) Weights for control points (1D array: [nc(1)*nc(2)]) real(kind=rk), private, allocatable :: Xc (:,:) Control points (2D array: [nc(1)*nc(2), dim]) real(kind=rk), private, allocatable :: Xg (:,:) Geometry points (2D array: [ng(1)*ng(2), dim]) real(kind=rk), private, allocatable :: Xt (:,:) Evaluation parameter values (2D array: [ng(1)*ng(2), 2]) real(kind=rk), private, allocatable :: Xt1 (:) Evaluation parameter values in the first direction (1D array: [ng(1)]) real(kind=rk), private, allocatable :: Xt2 (:) Evaluation parameter values in the second direction (1D array: [ng(2)]) integer, private :: degree (2) Degree (order) of the surface integer, private, allocatable :: elemConn (:,:) IGA element connectivity integer, private, allocatable :: elemConn_Xc_vis (:,:) Connectivity for visualization of control points integer, private, allocatable :: elemConn_Xg_vis (:,:) Connectivity for visualization of geometry points real(kind=rk), private, allocatable :: knot1 (:) Knot vector in the first direction (1D array) real(kind=rk), private, allocatable :: knot2 (:) Knot vector in the second direction (1D array) integer, private :: nc (2) Number of control points in each direction integer, private :: ng (2) Number of geometry points in each direction Type-Bound Procedures procedure, public :: basis Compute the basis functions of the NURBS surface private pure subroutine basis (this, res1, res2, Xt1, Xt2, Tgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(out), allocatable :: Tgc (:,:) procedure, public :: cmp_degree Compute degree of the NURBS surface private pure subroutine cmp_degree (this, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: dir procedure, public :: cmp_elem Generate IGA element connectivity private pure function cmp_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:) procedure, public :: cmp_elem_Xc_vis Generate connectivity for control points private pure function cmp_elem_Xc_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) procedure, public :: cmp_elem_Xg_vis Generate connectivity for geometry points private pure function cmp_elem_Xg_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) procedure, public :: cmp_nc Compute number of required control points private pure subroutine cmp_nc (this, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: dir procedure, public :: create Generate geometry points private pure subroutine create (this, res1, res2, Xt1, Xt2, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt (:,:) procedure, public :: derivative Compute the derivative of the NURBS surface private pure subroutine derivative (this, res1, res2, Xt1, Xt2, dTgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(out), allocatable :: dTgc (:,:) procedure, public :: elevate_degree Elevate degree private pure subroutine elevate_degree (this, dir, t) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in) :: dir integer, intent(in) :: t procedure, public :: export_Xc Export control points to VTK file private impure subroutine export_Xc (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this character(len=*), intent(in) :: filename procedure, public :: export_Xg Export geometry points to VTK file private impure subroutine export_Xg (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this character(len=*), intent(in) :: filename procedure, public :: finalize Finalize the NURBS surface object private pure subroutine finalize (this) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this generic, public :: get_Wc => get_Wc_all , get_Wci Get weights private pure function get_Wc_all (this) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) private pure function get_Wci (this, n) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) generic, public :: get_Xc => get_Xc_all , get_Xci , get_Xcid Get control points private pure function get_Xc_all (this) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xci (this, n) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xcid (this, n, dir) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) generic, public :: get_Xg => get_Xg_all , get_Xgi , get_Xgid Get geometry points private pure function get_Xg_all (this) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xgi (this, n) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xgid (this, n, dir) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) procedure, public :: get_Xt Get parameter values private pure function get_Xt (this, dir) result(Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) procedure, public :: get_continuity Compute and return the continuity of the NURBS surface private pure function get_continuity (this, dir) result(c) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) generic, public :: get_degree => get_degree_all , get_degree_dir Get degree of the NURBS surface private pure function get_degree_all (this) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, (2) private pure function get_degree_dir (this, dir) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer procedure, public :: get_elem Get IGA element connectivity private pure function get_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:) procedure, public :: get_elem_Xc_vis Get connectivity for control points private pure function get_elem_Xc_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:) procedure, public :: get_elem_Xg_vis Get connectivity for geometry points private pure function get_elem_Xg_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:) generic, public :: get_knot => get_knoti , get_knot_all Get knot vector private pure function get_knoti (this, dir, i) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir integer, intent(in) :: i Return Value real(kind=rk) private pure function get_knot_all (this, dir) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) procedure, public :: get_multiplicity Compute and return the multiplicity of the knot vector private pure function get_multiplicity (this, dir) result(m) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) procedure, public :: get_nc Get number of control points private pure function get_nc (this, dir) result(nc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer procedure, public :: get_ng Get number of geometry points private pure function get_ng (this) result(ng) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, (2) procedure, public :: insert_knots Insert knots into the knot vector private pure subroutine insert_knots (this, dir, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) procedure, public :: is_rational Check if the NURBS surface is rational private pure function is_rational (this) result(r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value logical procedure, public :: modify_Wc Modify weights private pure subroutine modify_Wc (this, W, num) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: W integer, intent(in) :: num procedure, public :: modify_Xc Modify control points private pure subroutine modify_Xc (this, X, num, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: X integer, intent(in) :: num integer, intent(in) :: dir procedure, public :: nearest_point Find the nearest point on the NURBS surface private pure subroutine nearest_point (this, point_Xg, nearest_Xg, nearest_Xt, id) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this real(kind=rk), intent(in) :: point_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xt (:) integer, intent(out), optional :: id procedure, public :: remove_knots Remove knots from the knot vector private pure subroutine remove_knots (this, dir, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) procedure, public :: rotate_Xc Rotate control points private pure subroutine rotate_Xc (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta procedure, public :: rotate_Xg Rotate geometry points private pure subroutine rotate_Xg (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta generic, public :: set => set1 , set2 , set3 Set NURBS surface private pure subroutine set1 (this, knot1, knot2, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set knot vectors, control points and weights for the NURBS surface object. Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set2 (this, Xth_dir1, Xth_dir2, degree, continuity1, continuity2, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir1 (:) real(kind=rk), intent(in), contiguous :: Xth_dir2 (:) integer, intent(in), contiguous :: degree (:) integer, intent(in), contiguous :: continuity1 (:) integer, intent(in), contiguous :: continuity2 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set3 (this, nc, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set Bezier or Rational Bezier surface using control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set1 Set knot vectors, control points and weights for the NURBS surface object private pure subroutine set1 (this, knot1, knot2, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set knot vectors, control points and weights for the NURBS surface object. Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set2 Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights private pure subroutine set2 (this, Xth_dir1, Xth_dir2, degree, continuity1, continuity2, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir1 (:) real(kind=rk), intent(in), contiguous :: Xth_dir2 (:) integer, intent(in), contiguous :: degree (:) integer, intent(in), contiguous :: continuity1 (:) integer, intent(in), contiguous :: continuity2 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set3 Set Bezier or Rational Bezier surface using control points and weights private pure subroutine set3 (this, nc, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set Bezier or Rational Bezier surface using control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set_C Set a C-shape private pure subroutine set_C (this, center, radius1, radius2) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 procedure, public :: set_elem Set IGA element connectivity private pure subroutine set_elem (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) procedure, public :: set_elem_Xc_vis Set connectivity for control points private pure subroutine set_elem_Xc_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) procedure, public :: set_elem_Xg_vis Set connectivity for geometry points private pure subroutine set_elem_Xg_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) procedure, public :: set_half_ring Set a half ring private pure subroutine set_half_ring (this, center, radius1, radius2) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 procedure, public :: set_ring Set a ring private pure subroutine set_ring (this, center, radius1, radius2) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 procedure, public :: set_tetragon Set a tetragon private pure subroutine set_tetragon (this, L, nc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: L (2) integer, intent(in) :: nc (2) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: show Show the NURBS object using PyVista private impure subroutine show (this, vtkfile_Xc, vtkfile_Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this character(len=*), intent(in) :: vtkfile_Xc character(len=*), intent(in) :: vtkfile_Xg procedure, public :: translate_Xc Translate control points private pure subroutine translate_Xc (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) procedure, public :: translate_Xg Translate geometry points private pure subroutine translate_Xg (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) procedure, private :: get_Wc_all Get all weights private pure function get_Wc_all (this) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) procedure, private :: get_Wci Get i-th weight private pure function get_Wci (this, n) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) procedure, private :: get_Xc_all Get all control points private pure function get_Xc_all (this) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) procedure, private :: get_Xci Get i-th control point private pure function get_Xci (this, n) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) procedure, private :: get_Xcid Get i-th control point in a specific direction private pure function get_Xcid (this, n, dir) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) procedure, private :: get_Xg_all Get all geometry points private pure function get_Xg_all (this) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) procedure, private :: get_Xgi Get i-th geometry point private pure function get_Xgi (this, n) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) procedure, private :: get_Xgid Get i-th geometry point in a specific direction private pure function get_Xgid (this, n, dir) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) procedure, private :: get_degree_all Get degree of the NURBS surface in both directions private pure function get_degree_all (this) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, (2) procedure, private :: get_degree_dir Get degree of the NURBS surface in a specific direction private pure function get_degree_dir (this, dir) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer procedure, private :: get_knot_all Get all knot vectors private pure function get_knot_all (this, dir) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) procedure, private :: get_knoti Get i-th knot value private pure function get_knoti (this, dir, i) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir integer, intent(in) :: i Return Value real(kind=rk)","tags":"","loc":"type/nurbs_surface.html"},{"title":"compute_Xg_nurbs_3d – ForCAD","text":"impure function compute_Xg_nurbs_3d(Xt, knot1, knot2, knot3, degree, nc, ng, Xc, Wc) result(Xg) Uses forcad_utils proc~~compute_xg_nurbs_3d~~UsesGraph proc~compute_xg_nurbs_3d compute_Xg_nurbs_3d module~forcad_utils forcad_utils proc~compute_xg_nurbs_3d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: knot3 (:) integer, intent(in) :: degree (3) integer, intent(in) :: nc (3) integer, intent(in) :: ng (3) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), contiguous :: Wc (:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_xg_nurbs_3d~~CallsGraph proc~compute_xg_nurbs_3d compute_Xg_nurbs_3d proc~basis_bspline basis_bspline proc~compute_xg_nurbs_3d->proc~basis_bspline proc~kron kron proc~compute_xg_nurbs_3d->proc~kron Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_xg_nurbs_3d.html"},{"title":"compute_Xg_bspline_3d – ForCAD","text":"impure function compute_Xg_bspline_3d(Xt, knot1, knot2, knot3, degree, nc, ng, Xc) result(Xg) Uses forcad_utils proc~~compute_xg_bspline_3d~~UsesGraph proc~compute_xg_bspline_3d compute_Xg_bspline_3d module~forcad_utils forcad_utils proc~compute_xg_bspline_3d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: knot3 (:) integer, intent(in) :: degree (3) integer, intent(in) :: nc (3) integer, intent(in) :: ng (3) real(kind=rk), intent(in), contiguous :: Xc (:,:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_xg_bspline_3d~~CallsGraph proc~compute_xg_bspline_3d compute_Xg_bspline_3d proc~basis_bspline basis_bspline proc~compute_xg_bspline_3d->proc~basis_bspline proc~kron kron proc~compute_xg_bspline_3d->proc~kron Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_xg_bspline_3d.html"},{"title":"compute_dTgc_nurbs_3d – ForCAD","text":"impure function compute_dTgc_nurbs_3d(Xt, knot1, knot2, knot3, degree, nc, ng, Wc) result(dTgc) Uses forcad_utils proc~~compute_dtgc_nurbs_3d~~UsesGraph proc~compute_dtgc_nurbs_3d compute_dTgc_nurbs_3d module~forcad_utils forcad_utils proc~compute_dtgc_nurbs_3d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: knot3 (:) integer, intent(in) :: degree (3) integer, intent(in) :: nc (3) integer, intent(in) :: ng (3) real(kind=rk), intent(in), contiguous :: Wc (:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_dtgc_nurbs_3d~~CallsGraph proc~compute_dtgc_nurbs_3d compute_dTgc_nurbs_3d proc~basis_bspline_der basis_bspline_der proc~compute_dtgc_nurbs_3d->proc~basis_bspline_der proc~kron kron proc~compute_dtgc_nurbs_3d->proc~kron proc~isinf isinf proc~basis_bspline_der->proc~isinf Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_dtgc_nurbs_3d.html"},{"title":"compute_dTgc_bspline_3d – ForCAD","text":"impure function compute_dTgc_bspline_3d(Xt, knot1, knot2, knot3, degree, nc, ng) result(dTgc) Uses forcad_utils proc~~compute_dtgc_bspline_3d~~UsesGraph proc~compute_dtgc_bspline_3d compute_dTgc_bspline_3d module~forcad_utils forcad_utils proc~compute_dtgc_bspline_3d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: knot3 (:) integer, intent(in) :: degree (3) integer, intent(in) :: nc (3) integer, intent(in) :: ng (3) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_dtgc_bspline_3d~~CallsGraph proc~compute_dtgc_bspline_3d compute_dTgc_bspline_3d proc~basis_bspline_der basis_bspline_der proc~compute_dtgc_bspline_3d->proc~basis_bspline_der proc~kron kron proc~compute_dtgc_bspline_3d->proc~kron proc~isinf isinf proc~basis_bspline_der->proc~isinf Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_dtgc_bspline_3d.html"},{"title":"compute_Tgc_nurbs_3d – ForCAD","text":"impure function compute_Tgc_nurbs_3d(Xt, knot1, knot2, knot3, degree, nc, ng, Wc) result(Tgc) Uses forcad_utils proc~~compute_tgc_nurbs_3d~~UsesGraph proc~compute_tgc_nurbs_3d compute_Tgc_nurbs_3d module~forcad_utils forcad_utils proc~compute_tgc_nurbs_3d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: knot3 (:) integer, intent(in) :: degree (3) integer, intent(in) :: nc (3) integer, intent(in) :: ng (3) real(kind=rk), intent(in), contiguous :: Wc (:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_tgc_nurbs_3d~~CallsGraph proc~compute_tgc_nurbs_3d compute_Tgc_nurbs_3d proc~basis_bspline basis_bspline proc~compute_tgc_nurbs_3d->proc~basis_bspline proc~kron kron proc~compute_tgc_nurbs_3d->proc~kron Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_tgc_nurbs_3d.html"},{"title":"compute_Tgc_bspline_3d – ForCAD","text":"impure function compute_Tgc_bspline_3d(Xt, knot1, knot2, knot3, degree, nc, ng) result(Tgc) Uses forcad_utils proc~~compute_tgc_bspline_3d~~UsesGraph proc~compute_tgc_bspline_3d compute_Tgc_bspline_3d module~forcad_utils forcad_utils proc~compute_tgc_bspline_3d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: knot3 (:) integer, intent(in) :: degree (3) integer, intent(in) :: nc (3) integer, intent(in) :: ng (3) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_tgc_bspline_3d~~CallsGraph proc~compute_tgc_bspline_3d compute_Tgc_bspline_3d proc~basis_bspline basis_bspline proc~compute_tgc_bspline_3d->proc~basis_bspline proc~kron kron proc~compute_tgc_bspline_3d->proc~kron Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_tgc_bspline_3d.html"},{"title":"nearest_point_help_3d – ForCAD","text":"impure function nearest_point_help_3d(ng, Xg, point_Xg) result(distances) Uses forcad_utils proc~~nearest_point_help_3d~~UsesGraph proc~nearest_point_help_3d nearest_point_help_3d module~forcad_utils forcad_utils proc~nearest_point_help_3d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name integer, intent(in) :: ng (3) real(kind=rk), intent(in), contiguous :: Xg (:,:) real(kind=rk), intent(in), contiguous :: point_Xg (:) Return Value real(kind=rk), allocatable, (:)","tags":"","loc":"proc/nearest_point_help_3d.html"},{"title":"compute_Xg_nurbs_1d – ForCAD","text":"impure function compute_Xg_nurbs_1d(Xt, knot, degree, nc, ng, Xc, Wc) result(Xg) Uses forcad_utils proc~~compute_xg_nurbs_1d~~UsesGraph proc~compute_xg_nurbs_1d compute_Xg_nurbs_1d module~forcad_utils forcad_utils proc~compute_xg_nurbs_1d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:) real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: degree integer, intent(in) :: nc integer, intent(in) :: ng real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), contiguous :: Wc (:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_xg_nurbs_1d~~CallsGraph proc~compute_xg_nurbs_1d compute_Xg_nurbs_1d proc~basis_bspline basis_bspline proc~compute_xg_nurbs_1d->proc~basis_bspline Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_xg_nurbs_1d.html"},{"title":"compute_Xg_bspline_1d – ForCAD","text":"impure function compute_Xg_bspline_1d(Xt, knot, degree, nc, ng, Xc) result(Xg) Uses forcad_utils proc~~compute_xg_bspline_1d~~UsesGraph proc~compute_xg_bspline_1d compute_Xg_bspline_1d module~forcad_utils forcad_utils proc~compute_xg_bspline_1d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:) real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: degree integer, intent(in) :: nc integer, intent(in) :: ng real(kind=rk), intent(in), contiguous :: Xc (:,:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_xg_bspline_1d~~CallsGraph proc~compute_xg_bspline_1d compute_Xg_bspline_1d proc~basis_bspline basis_bspline proc~compute_xg_bspline_1d->proc~basis_bspline Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_xg_bspline_1d.html"},{"title":"compute_dTgc_nurbs_1d – ForCAD","text":"impure function compute_dTgc_nurbs_1d(Xt, knot, degree, nc, ng, Wc) result(dTgc) Uses forcad_utils proc~~compute_dtgc_nurbs_1d~~UsesGraph proc~compute_dtgc_nurbs_1d compute_dTgc_nurbs_1d module~forcad_utils forcad_utils proc~compute_dtgc_nurbs_1d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:) real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: degree integer, intent(in) :: nc integer, intent(in) :: ng real(kind=rk), intent(in), contiguous :: Wc (:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_dtgc_nurbs_1d~~CallsGraph proc~compute_dtgc_nurbs_1d compute_dTgc_nurbs_1d proc~basis_bspline_der basis_bspline_der proc~compute_dtgc_nurbs_1d->proc~basis_bspline_der proc~isinf isinf proc~basis_bspline_der->proc~isinf Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_dtgc_nurbs_1d.html"},{"title":"compute_dTgc_bspline_1d – ForCAD","text":"impure function compute_dTgc_bspline_1d(Xt, knot, degree, nc, ng) result(dTgc) Uses forcad_utils proc~~compute_dtgc_bspline_1d~~UsesGraph proc~compute_dtgc_bspline_1d compute_dTgc_bspline_1d module~forcad_utils forcad_utils proc~compute_dtgc_bspline_1d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:) real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: degree integer, intent(in) :: nc integer, intent(in) :: ng Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_dtgc_bspline_1d~~CallsGraph proc~compute_dtgc_bspline_1d compute_dTgc_bspline_1d proc~basis_bspline_der basis_bspline_der proc~compute_dtgc_bspline_1d->proc~basis_bspline_der proc~isinf isinf proc~basis_bspline_der->proc~isinf Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_dtgc_bspline_1d.html"},{"title":"compute_Tgc_nurbs_1d – ForCAD","text":"impure function compute_Tgc_nurbs_1d(Xt, knot, degree, nc, ng, Wc) result(Tgc) Uses forcad_utils proc~~compute_tgc_nurbs_1d~~UsesGraph proc~compute_tgc_nurbs_1d compute_Tgc_nurbs_1d module~forcad_utils forcad_utils proc~compute_tgc_nurbs_1d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:) real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: degree integer, intent(in) :: nc integer, intent(in) :: ng real(kind=rk), intent(in), contiguous :: Wc (:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_tgc_nurbs_1d~~CallsGraph proc~compute_tgc_nurbs_1d compute_Tgc_nurbs_1d proc~basis_bspline basis_bspline proc~compute_tgc_nurbs_1d->proc~basis_bspline Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_tgc_nurbs_1d.html"},{"title":"compute_Tgc_bspline_1d – ForCAD","text":"impure function compute_Tgc_bspline_1d(Xt, knot, degree, nc, ng) result(Tgc) Uses forcad_utils proc~~compute_tgc_bspline_1d~~UsesGraph proc~compute_tgc_bspline_1d compute_Tgc_bspline_1d module~forcad_utils forcad_utils proc~compute_tgc_bspline_1d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:) real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: degree integer, intent(in) :: nc integer, intent(in) :: ng Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_tgc_bspline_1d~~CallsGraph proc~compute_tgc_bspline_1d compute_Tgc_bspline_1d proc~basis_bspline basis_bspline proc~compute_tgc_bspline_1d->proc~basis_bspline Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_tgc_bspline_1d.html"},{"title":"nearest_point_help_1d – ForCAD","text":"impure function nearest_point_help_1d(ng, Xg, point_Xg) result(distances) Uses forcad_utils proc~~nearest_point_help_1d~~UsesGraph proc~nearest_point_help_1d nearest_point_help_1d module~forcad_utils forcad_utils proc~nearest_point_help_1d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name integer, intent(in) :: ng real(kind=rk), intent(in), contiguous :: Xg (:,:) real(kind=rk), intent(in), contiguous :: point_Xg (:) Return Value real(kind=rk), allocatable, (:)","tags":"","loc":"proc/nearest_point_help_1d.html"},{"title":"compute_Xg_nurbs_2d – ForCAD","text":"impure function compute_Xg_nurbs_2d(Xt, knot1, knot2, degree, nc, ng, Xc, Wc) result(Xg) Uses forcad_utils proc~~compute_xg_nurbs_2d~~UsesGraph proc~compute_xg_nurbs_2d compute_Xg_nurbs_2d module~forcad_utils forcad_utils proc~compute_xg_nurbs_2d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) integer, intent(in) :: degree (2) integer, intent(in) :: nc (2) integer, intent(in) :: ng (2) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), contiguous :: Wc (:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_xg_nurbs_2d~~CallsGraph proc~compute_xg_nurbs_2d compute_Xg_nurbs_2d proc~basis_bspline basis_bspline proc~compute_xg_nurbs_2d->proc~basis_bspline proc~kron kron proc~compute_xg_nurbs_2d->proc~kron Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_xg_nurbs_2d.html"},{"title":"compute_Xg_bspline_2d – ForCAD","text":"impure function compute_Xg_bspline_2d(Xt, knot1, knot2, degree, nc, ng, Xc) result(Xg) Uses forcad_utils proc~~compute_xg_bspline_2d~~UsesGraph proc~compute_xg_bspline_2d compute_Xg_bspline_2d module~forcad_utils forcad_utils proc~compute_xg_bspline_2d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) integer, intent(in) :: degree (2) integer, intent(in) :: nc (2) integer, intent(in) :: ng (2) real(kind=rk), intent(in), contiguous :: Xc (:,:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_xg_bspline_2d~~CallsGraph proc~compute_xg_bspline_2d compute_Xg_bspline_2d proc~basis_bspline basis_bspline proc~compute_xg_bspline_2d->proc~basis_bspline proc~kron kron proc~compute_xg_bspline_2d->proc~kron Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_xg_bspline_2d.html"},{"title":"compute_dTgc_nurbs_2d – ForCAD","text":"impure function compute_dTgc_nurbs_2d(Xt, knot1, knot2, degree, nc, ng, Wc) result(dTgc) Uses forcad_utils proc~~compute_dtgc_nurbs_2d~~UsesGraph proc~compute_dtgc_nurbs_2d compute_dTgc_nurbs_2d module~forcad_utils forcad_utils proc~compute_dtgc_nurbs_2d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) integer, intent(in) :: degree (2) integer, intent(in) :: nc (2) integer, intent(in) :: ng (2) real(kind=rk), intent(in), contiguous :: Wc (:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_dtgc_nurbs_2d~~CallsGraph proc~compute_dtgc_nurbs_2d compute_dTgc_nurbs_2d proc~basis_bspline_der basis_bspline_der proc~compute_dtgc_nurbs_2d->proc~basis_bspline_der proc~kron kron proc~compute_dtgc_nurbs_2d->proc~kron proc~isinf isinf proc~basis_bspline_der->proc~isinf Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_dtgc_nurbs_2d.html"},{"title":"compute_dTgc_bspline_2d – ForCAD","text":"impure function compute_dTgc_bspline_2d(Xt, knot1, knot2, degree, nc, ng) result(dTgc) Uses forcad_utils proc~~compute_dtgc_bspline_2d~~UsesGraph proc~compute_dtgc_bspline_2d compute_dTgc_bspline_2d module~forcad_utils forcad_utils proc~compute_dtgc_bspline_2d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) integer, intent(in) :: degree (2) integer, intent(in) :: nc (2) integer, intent(in) :: ng (2) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_dtgc_bspline_2d~~CallsGraph proc~compute_dtgc_bspline_2d compute_dTgc_bspline_2d proc~basis_bspline_der basis_bspline_der proc~compute_dtgc_bspline_2d->proc~basis_bspline_der proc~kron kron proc~compute_dtgc_bspline_2d->proc~kron proc~isinf isinf proc~basis_bspline_der->proc~isinf Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_dtgc_bspline_2d.html"},{"title":"compute_Tgc_nurbs_2d – ForCAD","text":"impure function compute_Tgc_nurbs_2d(Xt, knot1, knot2, degree, nc, ng, Wc) result(Tgc) Uses forcad_utils proc~~compute_tgc_nurbs_2d~~UsesGraph proc~compute_tgc_nurbs_2d compute_Tgc_nurbs_2d module~forcad_utils forcad_utils proc~compute_tgc_nurbs_2d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) integer, intent(in) :: degree (2) integer, intent(in) :: nc (2) integer, intent(in) :: ng (2) real(kind=rk), intent(in), contiguous :: Wc (:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_tgc_nurbs_2d~~CallsGraph proc~compute_tgc_nurbs_2d compute_Tgc_nurbs_2d proc~basis_bspline basis_bspline proc~compute_tgc_nurbs_2d->proc~basis_bspline proc~kron kron proc~compute_tgc_nurbs_2d->proc~kron Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_tgc_nurbs_2d.html"},{"title":"compute_Tgc_bspline_2d – ForCAD","text":"impure function compute_Tgc_bspline_2d(Xt, knot1, knot2, degree, nc, ng) result(Tgc) Uses forcad_utils proc~~compute_tgc_bspline_2d~~UsesGraph proc~compute_tgc_bspline_2d compute_Tgc_bspline_2d module~forcad_utils forcad_utils proc~compute_tgc_bspline_2d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) integer, intent(in) :: degree (2) integer, intent(in) :: nc (2) integer, intent(in) :: ng (2) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_tgc_bspline_2d~~CallsGraph proc~compute_tgc_bspline_2d compute_Tgc_bspline_2d proc~basis_bspline basis_bspline proc~compute_tgc_bspline_2d->proc~basis_bspline proc~kron kron proc~compute_tgc_bspline_2d->proc~kron Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_tgc_bspline_2d.html"},{"title":"nearest_point_help_2d – ForCAD","text":"impure function nearest_point_help_2d(ng, Xg, point_Xg) result(distances) Uses forcad_utils proc~~nearest_point_help_2d~~UsesGraph proc~nearest_point_help_2d nearest_point_help_2d module~forcad_utils forcad_utils proc~nearest_point_help_2d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name integer, intent(in) :: ng (2) real(kind=rk), intent(in), contiguous :: Xg (:,:) real(kind=rk), intent(in), contiguous :: point_Xg (:) Return Value real(kind=rk), allocatable, (:)","tags":"","loc":"proc/nearest_point_help_2d.html"},{"title":"basis_bernstein – ForCAD","text":"public pure function basis_bernstein(Xt, nc) result(B) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: Xt integer, intent(in) :: nc Return Value real(kind=rk), allocatable, (:)","tags":"","loc":"proc/basis_bernstein.html"},{"title":"basis_bspline – ForCAD","text":"public pure function basis_bspline(Xt, knot, nc, degree) result(B) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: Xt real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: nc integer, intent(in) :: degree Return Value real(kind=rk), allocatable, (:) Called by proc~~basis_bspline~~CalledByGraph proc~basis_bspline basis_bspline proc~compute_tgc_bspline_1d compute_Tgc_bspline_1d proc~compute_tgc_bspline_1d->proc~basis_bspline proc~compute_tgc_bspline_2d compute_Tgc_bspline_2d proc~compute_tgc_bspline_2d->proc~basis_bspline proc~compute_tgc_bspline_3d compute_Tgc_bspline_3d proc~compute_tgc_bspline_3d->proc~basis_bspline proc~compute_tgc_nurbs_1d compute_Tgc_nurbs_1d proc~compute_tgc_nurbs_1d->proc~basis_bspline proc~compute_tgc_nurbs_2d compute_Tgc_nurbs_2d proc~compute_tgc_nurbs_2d->proc~basis_bspline proc~compute_tgc_nurbs_3d compute_Tgc_nurbs_3d proc~compute_tgc_nurbs_3d->proc~basis_bspline proc~compute_xg_bspline_1d compute_Xg_bspline_1d proc~compute_xg_bspline_1d->proc~basis_bspline proc~compute_xg_bspline_2d compute_Xg_bspline_2d proc~compute_xg_bspline_2d->proc~basis_bspline proc~compute_xg_bspline_3d compute_Xg_bspline_3d proc~compute_xg_bspline_3d->proc~basis_bspline proc~compute_xg_nurbs_1d compute_Xg_nurbs_1d proc~compute_xg_nurbs_1d->proc~basis_bspline proc~compute_xg_nurbs_2d compute_Xg_nurbs_2d proc~compute_xg_nurbs_2d->proc~basis_bspline proc~compute_xg_nurbs_3d compute_Xg_nurbs_3d proc~compute_xg_nurbs_3d->proc~basis_bspline proc~put_to_nurbs nurbs_volume%put_to_nurbs proc~put_to_nurbs->proc~basis_bspline program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~put_to_nurbs Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/basis_bspline.html"},{"title":"basis_bspline_der – ForCAD","text":"public pure function basis_bspline_der(Xt, knot, nc, degree) result(dB) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: Xt real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: nc integer, intent(in) :: degree Return Value real(kind=rk), allocatable, (:) Calls proc~~basis_bspline_der~~CallsGraph proc~basis_bspline_der basis_bspline_der proc~isinf isinf proc~basis_bspline_der->proc~isinf Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~basis_bspline_der~~CalledByGraph proc~basis_bspline_der basis_bspline_der proc~compute_dtgc_bspline_1d compute_dTgc_bspline_1d proc~compute_dtgc_bspline_1d->proc~basis_bspline_der proc~compute_dtgc_bspline_2d compute_dTgc_bspline_2d proc~compute_dtgc_bspline_2d->proc~basis_bspline_der proc~compute_dtgc_bspline_3d compute_dTgc_bspline_3d proc~compute_dtgc_bspline_3d->proc~basis_bspline_der proc~compute_dtgc_nurbs_1d compute_dTgc_nurbs_1d proc~compute_dtgc_nurbs_1d->proc~basis_bspline_der proc~compute_dtgc_nurbs_2d compute_dTgc_nurbs_2d proc~compute_dtgc_nurbs_2d->proc~basis_bspline_der proc~compute_dtgc_nurbs_3d compute_dTgc_nurbs_3d proc~compute_dtgc_nurbs_3d->proc~basis_bspline_der Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/basis_bspline_der.html"},{"title":"compute_knot_vector – ForCAD","text":"public pure function compute_knot_vector(Xth_dir, degree, continuity) result(knot) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xth_dir (:) integer, intent(in) :: degree integer, intent(in), contiguous :: continuity (:) Return Value real(kind=rk), allocatable, (:) Calls proc~~compute_knot_vector~~CallsGraph proc~compute_knot_vector compute_knot_vector proc~repelem repelem proc~compute_knot_vector->proc~repelem Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~compute_knot_vector~~CalledByGraph proc~compute_knot_vector compute_knot_vector proc~set2 nurbs_volume%set2 proc~set2->proc~compute_knot_vector proc~set2~2 nurbs_curve%set2 proc~set2~2->proc~compute_knot_vector proc~set2~3 nurbs_surface%set2 proc~set2~3->proc~compute_knot_vector none~set nurbs_volume%set none~set->proc~set2 none~set~2 nurbs_curve%set none~set~2->proc~set2~2 none~set~3 nurbs_surface%set none~set~3->proc~set2~3 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->none~set proc~elevate_degree~2 nurbs_curve%elevate_degree proc~elevate_degree~2->none~set~2 proc~elevate_degree~3 nurbs_surface%elevate_degree proc~elevate_degree~3->none~set~3 proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->none~set proc~insert_knots~2 nurbs_curve%insert_knots proc~insert_knots~2->none~set~2 proc~insert_knots~3 nurbs_surface%insert_knots proc~insert_knots~3->none~set~3 proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_wc~2 nurbs_curve%modify_Wc proc~modify_wc~2->none~set~2 proc~modify_wc~3 nurbs_surface%modify_Wc proc~modify_wc~3->none~set~3 proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~modify_xc~2 nurbs_curve%modify_Xc proc~modify_xc~2->none~set~2 proc~modify_xc~3 nurbs_surface%modify_Xc proc~modify_xc~3->none~set~3 proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->none~set proc~remove_knots~2 nurbs_curve%remove_knots proc~remove_knots~2->none~set~2 proc~remove_knots~3 nurbs_surface%remove_knots proc~remove_knots~3->none~set~3 proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_circle nurbs_curve%set_circle proc~set_circle->none~set~2 proc~set_c~2 nurbs_curve%set_C proc~set_c~2->none~set~2 proc~set_c~3 nurbs_surface%set_C proc~set_c~3->none~set~3 proc~set_half_circle nurbs_curve%set_half_circle proc~set_half_circle->none~set~2 proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~3 proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~3 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~3 program~example1_curve example1_curve program~example1_curve->none~set~2 program~example1_curve->proc~elevate_degree~2 program~example1_curve->proc~insert_knots~2 program~example1_curve->proc~remove_knots~2 program~example3_surface example3_surface program~example3_surface->none~set~3 program~example3_surface->proc~elevate_degree~3 program~example3_surface->proc~insert_knots~3 program~example3_surface->proc~remove_knots~3 program~example3_volume example3_volume program~example3_volume->none~set program~example3_volume->proc~elevate_degree program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->none~set~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~3 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~3 program~example_ppm3->proc~set_tetragon program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~2 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~3 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_circle shape_circle program~shape_circle->proc~set_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_knot_vector.html"},{"title":"findspan – ForCAD","text":"public pure function findspan(n, degree, Xth, knot) result(s) Arguments Type Intent Optional Attributes Name integer, intent(in) :: n integer, intent(in) :: degree real(kind=rk), intent(in) :: Xth real(kind=rk), intent(in), contiguous :: knot (:) Return Value integer Called by proc~~findspan~~CalledByGraph proc~findspan findspan proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->proc~findspan proc~insert_knots~2 nurbs_curve%insert_knots proc~insert_knots~2->proc~findspan proc~insert_knots~3 nurbs_surface%insert_knots proc~insert_knots~3->proc~findspan proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->proc~findspan proc~remove_knots~2 nurbs_curve%remove_knots proc~remove_knots~2->proc~findspan proc~remove_knots~3 nurbs_surface%remove_knots proc~remove_knots~3->proc~findspan program~example1_curve example1_curve program~example1_curve->proc~insert_knots~2 program~example1_curve->proc~remove_knots~2 program~example3_surface example3_surface program~example3_surface->proc~insert_knots~3 program~example3_surface->proc~remove_knots~3 program~example3_volume example3_volume program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/findspan.html"},{"title":"hexahedron_Xc – ForCAD","text":"public pure function hexahedron_Xc(L, nc) result(Xc) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: L (3) integer, intent(in) :: nc (3) Return Value real(kind=rk), allocatable, (:,:) Called by proc~~hexahedron_xc~~CalledByGraph proc~hexahedron_xc hexahedron_Xc proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->proc~hexahedron_xc program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~hexahedron_xc program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/hexahedron_xc.html"},{"title":"kron – ForCAD","text":"public pure function kron(u, v) result(w) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: u (:) real(kind=rk), intent(in), contiguous :: v (:) Return Value real(kind=rk), (size(u)*size(v)) Called by proc~~kron~~CalledByGraph proc~kron kron proc~compute_dtgc_bspline_2d compute_dTgc_bspline_2d proc~compute_dtgc_bspline_2d->proc~kron proc~compute_dtgc_bspline_3d compute_dTgc_bspline_3d proc~compute_dtgc_bspline_3d->proc~kron proc~compute_dtgc_nurbs_2d compute_dTgc_nurbs_2d proc~compute_dtgc_nurbs_2d->proc~kron proc~compute_dtgc_nurbs_3d compute_dTgc_nurbs_3d proc~compute_dtgc_nurbs_3d->proc~kron proc~compute_tgc_bspline_2d compute_Tgc_bspline_2d proc~compute_tgc_bspline_2d->proc~kron proc~compute_tgc_bspline_3d compute_Tgc_bspline_3d proc~compute_tgc_bspline_3d->proc~kron proc~compute_tgc_nurbs_2d compute_Tgc_nurbs_2d proc~compute_tgc_nurbs_2d->proc~kron proc~compute_tgc_nurbs_3d compute_Tgc_nurbs_3d proc~compute_tgc_nurbs_3d->proc~kron proc~compute_xg_bspline_2d compute_Xg_bspline_2d proc~compute_xg_bspline_2d->proc~kron proc~compute_xg_bspline_3d compute_Xg_bspline_3d proc~compute_xg_bspline_3d->proc~kron proc~compute_xg_nurbs_2d compute_Xg_nurbs_2d proc~compute_xg_nurbs_2d->proc~kron proc~compute_xg_nurbs_3d compute_Xg_nurbs_3d proc~compute_xg_nurbs_3d->proc~kron proc~put_to_nurbs nurbs_volume%put_to_nurbs proc~put_to_nurbs->proc~kron program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~put_to_nurbs Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/kron.html"},{"title":"rotation – ForCAD","text":"public pure function rotation(alpha, beta, theta) result(R) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta Return Value real(kind=rk), dimension(3,3) Calls proc~~rotation~~CallsGraph proc~rotation rotation cosd cosd proc~rotation->cosd sind sind proc~rotation->sind Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~rotation~~CalledByGraph proc~rotation rotation proc~rotate_xc nurbs_volume%rotate_Xc proc~rotate_xc->proc~rotation proc~rotate_xc~2 nurbs_curve%rotate_Xc proc~rotate_xc~2->proc~rotation proc~rotate_xc~3 nurbs_surface%rotate_Xc proc~rotate_xc~3->proc~rotation proc~rotate_xg nurbs_volume%rotate_Xg proc~rotate_xg->proc~rotation proc~rotate_xg~2 nurbs_curve%rotate_Xg proc~rotate_xg~2->proc~rotation proc~rotate_xg~3 nurbs_surface%rotate_Xg proc~rotate_xg~3->proc~rotation program~example1_curve example1_curve program~example1_curve->proc~rotate_xc~2 program~example1_curve->proc~rotate_xg~2 program~example3_surface example3_surface program~example3_surface->proc~rotate_xc~3 program~example3_surface->proc~rotate_xg~3 program~example3_volume example3_volume program~example3_volume->proc~rotate_xc program~example3_volume->proc~rotate_xg program~example_ppm2 example_ppm2 program~example_ppm2->proc~rotate_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/rotation.html"},{"title":"tetragon_Xc – ForCAD","text":"public pure function tetragon_Xc(L, nc) result(Xc) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: L (2) integer, intent(in) :: nc (2) Return Value real(kind=rk), allocatable, (:,:) Called by proc~~tetragon_xc~~CalledByGraph proc~tetragon_xc tetragon_Xc proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->proc~tetragon_xc program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/tetragon_xc.html"},{"title":"bincoeff – ForCAD","text":"private pure function bincoeff(n, k) result(b) Arguments Type Intent Optional Attributes Name integer, intent(in) :: n integer, intent(in) :: k Return Value real(kind=rk) Calls proc~~bincoeff~~CallsGraph proc~bincoeff bincoeff proc~factln factln proc~bincoeff->proc~factln Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~bincoeff~~CalledByGraph proc~bincoeff bincoeff proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree_a_5_9->proc~bincoeff proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->proc~elevate_degree_a_5_9 proc~elevate_degree~2 nurbs_curve%elevate_degree proc~elevate_degree~2->proc~elevate_degree_a_5_9 proc~elevate_degree~3 nurbs_surface%elevate_degree proc~elevate_degree~3->proc~elevate_degree_a_5_9 program~example1_curve example1_curve program~example1_curve->proc~elevate_degree~2 program~example3_surface example3_surface program~example3_surface->proc~elevate_degree~3 program~example3_volume example3_volume program~example3_volume->proc~elevate_degree Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/bincoeff.html"},{"title":"cmp_elemConn_C0_L – ForCAD","text":"private pure function cmp_elemConn_C0_L(nnode, p) result(elemConn) Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode integer, intent(in) :: p Return Value integer, allocatable, (:,:) Called by proc~~cmp_elemconn_c0_l~~CalledByGraph proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0 elemConn_C0 interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xc_vis~2 nurbs_curve%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elem_xc_vis~3 nurbs_surface%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis~2 nurbs_curve%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~cmp_elem_xg_vis~3 nurbs_surface%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~export_xc nurbs_volume%export_Xc proc~export_xc->proc~cmp_elem_xc_vis proc~export_xc~2 nurbs_curve%export_Xc proc~export_xc~2->proc~cmp_elem_xc_vis~2 proc~export_xc~3 nurbs_surface%export_Xc proc~export_xc~3->proc~cmp_elem_xc_vis~3 proc~export_xg nurbs_volume%export_Xg proc~export_xg->proc~cmp_elem_xg_vis proc~export_xg~2 nurbs_curve%export_Xg proc~export_xg~2->proc~cmp_elem_xg_vis~2 proc~export_xg~3 nurbs_surface%export_Xg proc~export_xg~3->proc~cmp_elem_xg_vis~3 program~example1_curve example1_curve program~example1_curve->proc~export_xc~2 program~example1_curve->proc~export_xg~2 program~example3_surface example3_surface program~example3_surface->proc~export_xc~3 program~example3_surface->proc~export_xg~3 program~example3_volume example3_volume program~example3_volume->proc~export_xc program~example3_volume->proc~export_xg program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~export_xc~2 program~example_nurbs_curve->proc~export_xg~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~export_xc~3 program~example_nurbs_surface->proc~export_xg~3 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~export_xc program~example_nurbs_volume->proc~export_xg program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~export_xc program~example_put_to_nurbs->proc~export_xg program~shape_c_1d shape_C_1d program~shape_c_1d->proc~export_xc~2 program~shape_c_1d->proc~export_xg~2 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~export_xc~3 program~shape_c_2d->proc~export_xg~3 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~export_xc program~shape_c_3d->proc~export_xg program~shape_circle shape_circle program~shape_circle->proc~export_xc~2 program~shape_circle->proc~export_xg~2 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~export_xc~2 program~shape_half_circle->proc~export_xg~2 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~export_xc~3 program~shape_half_ring_2d->proc~export_xg~3 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~export_xc program~shape_half_ring_3d->proc~export_xg program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~export_xc program~shape_hexahedron->proc~export_xg program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~export_xc~3 program~shape_ring_2d->proc~export_xg~3 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~export_xc program~shape_ring_3d->proc~export_xg program~shape_tetragon shape_tetragon program~shape_tetragon->proc~export_xc~3 program~shape_tetragon->proc~export_xg~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elemconn_c0_l.html"},{"title":"cmp_elemConn_C0_S – ForCAD","text":"private pure function cmp_elemConn_C0_S(nnode1, nnode2, p1, p2) result(elemConn) Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: p1 integer, intent(in) :: p2 Return Value integer, allocatable, (:,:) Called by proc~~cmp_elemconn_c0_s~~CalledByGraph proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0 elemConn_C0 interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xc_vis~2 nurbs_curve%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elem_xc_vis~3 nurbs_surface%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis~2 nurbs_curve%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~cmp_elem_xg_vis~3 nurbs_surface%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~export_xc nurbs_volume%export_Xc proc~export_xc->proc~cmp_elem_xc_vis proc~export_xc~2 nurbs_curve%export_Xc proc~export_xc~2->proc~cmp_elem_xc_vis~2 proc~export_xc~3 nurbs_surface%export_Xc proc~export_xc~3->proc~cmp_elem_xc_vis~3 proc~export_xg nurbs_volume%export_Xg proc~export_xg->proc~cmp_elem_xg_vis proc~export_xg~2 nurbs_curve%export_Xg proc~export_xg~2->proc~cmp_elem_xg_vis~2 proc~export_xg~3 nurbs_surface%export_Xg proc~export_xg~3->proc~cmp_elem_xg_vis~3 program~example1_curve example1_curve program~example1_curve->proc~export_xc~2 program~example1_curve->proc~export_xg~2 program~example3_surface example3_surface program~example3_surface->proc~export_xc~3 program~example3_surface->proc~export_xg~3 program~example3_volume example3_volume program~example3_volume->proc~export_xc program~example3_volume->proc~export_xg program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~export_xc~2 program~example_nurbs_curve->proc~export_xg~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~export_xc~3 program~example_nurbs_surface->proc~export_xg~3 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~export_xc program~example_nurbs_volume->proc~export_xg program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~export_xc program~example_put_to_nurbs->proc~export_xg program~shape_c_1d shape_C_1d program~shape_c_1d->proc~export_xc~2 program~shape_c_1d->proc~export_xg~2 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~export_xc~3 program~shape_c_2d->proc~export_xg~3 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~export_xc program~shape_c_3d->proc~export_xg program~shape_circle shape_circle program~shape_circle->proc~export_xc~2 program~shape_circle->proc~export_xg~2 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~export_xc~2 program~shape_half_circle->proc~export_xg~2 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~export_xc~3 program~shape_half_ring_2d->proc~export_xg~3 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~export_xc program~shape_half_ring_3d->proc~export_xg program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~export_xc program~shape_hexahedron->proc~export_xg program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~export_xc~3 program~shape_ring_2d->proc~export_xg~3 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~export_xc program~shape_ring_3d->proc~export_xg program~shape_tetragon shape_tetragon program~shape_tetragon->proc~export_xc~3 program~shape_tetragon->proc~export_xg~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elemconn_c0_s.html"},{"title":"cmp_elemConn_C0_V – ForCAD","text":"private pure function cmp_elemConn_C0_V(nnode1, nnode2, nnode3, p1, p2, p3) result(elemConn) Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: nnode3 integer, intent(in) :: p1 integer, intent(in) :: p2 integer, intent(in) :: p3 Return Value integer, allocatable, (:,:) Called by proc~~cmp_elemconn_c0_v~~CalledByGraph proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0 elemConn_C0 interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xc_vis~2 nurbs_curve%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elem_xc_vis~3 nurbs_surface%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis~2 nurbs_curve%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~cmp_elem_xg_vis~3 nurbs_surface%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~export_xc nurbs_volume%export_Xc proc~export_xc->proc~cmp_elem_xc_vis proc~export_xc~2 nurbs_curve%export_Xc proc~export_xc~2->proc~cmp_elem_xc_vis~2 proc~export_xc~3 nurbs_surface%export_Xc proc~export_xc~3->proc~cmp_elem_xc_vis~3 proc~export_xg nurbs_volume%export_Xg proc~export_xg->proc~cmp_elem_xg_vis proc~export_xg~2 nurbs_curve%export_Xg proc~export_xg~2->proc~cmp_elem_xg_vis~2 proc~export_xg~3 nurbs_surface%export_Xg proc~export_xg~3->proc~cmp_elem_xg_vis~3 program~example1_curve example1_curve program~example1_curve->proc~export_xc~2 program~example1_curve->proc~export_xg~2 program~example3_surface example3_surface program~example3_surface->proc~export_xc~3 program~example3_surface->proc~export_xg~3 program~example3_volume example3_volume program~example3_volume->proc~export_xc program~example3_volume->proc~export_xg program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~export_xc~2 program~example_nurbs_curve->proc~export_xg~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~export_xc~3 program~example_nurbs_surface->proc~export_xg~3 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~export_xc program~example_nurbs_volume->proc~export_xg program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~export_xc program~example_put_to_nurbs->proc~export_xg program~shape_c_1d shape_C_1d program~shape_c_1d->proc~export_xc~2 program~shape_c_1d->proc~export_xg~2 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~export_xc~3 program~shape_c_2d->proc~export_xg~3 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~export_xc program~shape_c_3d->proc~export_xg program~shape_circle shape_circle program~shape_circle->proc~export_xc~2 program~shape_circle->proc~export_xg~2 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~export_xc~2 program~shape_half_circle->proc~export_xg~2 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~export_xc~3 program~shape_half_ring_2d->proc~export_xg~3 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~export_xc program~shape_half_ring_3d->proc~export_xg program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~export_xc program~shape_hexahedron->proc~export_xg program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~export_xc~3 program~shape_ring_2d->proc~export_xg~3 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~export_xc program~shape_ring_3d->proc~export_xg program~shape_tetragon shape_tetragon program~shape_tetragon->proc~export_xc~3 program~shape_tetragon->proc~export_xg~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elemconn_c0_v.html"},{"title":"compute_multiplicity1 – ForCAD","text":"private pure function compute_multiplicity1(knot) result(multiplicity) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: knot (:) Return Value integer, allocatable, (:) Called by proc~~compute_multiplicity1~~CalledByGraph proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity compute_multiplicity interface~compute_multiplicity->proc~compute_multiplicity1 proc~cmp_nc nurbs_volume%cmp_nc proc~cmp_nc->interface~compute_multiplicity proc~cmp_nc~2 nurbs_curve%cmp_nc proc~cmp_nc~2->interface~compute_multiplicity proc~cmp_nc~3 nurbs_surface%cmp_nc proc~cmp_nc~3->interface~compute_multiplicity proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree_a_5_9->interface~compute_multiplicity proc~get_continuity nurbs_volume%get_continuity proc~get_continuity->interface~compute_multiplicity proc~get_continuity~2 nurbs_curve%get_continuity proc~get_continuity~2->interface~compute_multiplicity proc~get_continuity~3 nurbs_surface%get_continuity proc~get_continuity~3->interface~compute_multiplicity proc~get_multiplicity nurbs_volume%get_multiplicity proc~get_multiplicity->interface~compute_multiplicity proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~get_nc get_nc proc~get_nc->interface~compute_multiplicity proc~get_nc~3 nurbs_surface%get_nc proc~get_nc~3->interface~compute_multiplicity proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->interface~compute_multiplicity none~set nurbs_volume%set proc~insert_knots->none~set proc~insert_knots~2 nurbs_curve%insert_knots proc~insert_knots~2->interface~compute_multiplicity none~set~2 nurbs_curve%set proc~insert_knots~2->none~set~2 proc~insert_knots~3 nurbs_surface%insert_knots proc~insert_knots~3->interface~compute_multiplicity none~set~3 nurbs_surface%set proc~insert_knots~3->none~set~3 proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->interface~compute_multiplicity proc~remove_knots->none~set proc~remove_knots~2 nurbs_curve%remove_knots proc~remove_knots~2->interface~compute_multiplicity proc~remove_knots~2->none~set~2 proc~remove_knots~3 nurbs_surface%remove_knots proc~remove_knots~3->interface~compute_multiplicity proc~remove_knots~3->none~set~3 proc~cmp_degree nurbs_volume%cmp_degree proc~cmp_degree->proc~get_multiplicity proc~cmp_degree~2 nurbs_curve%cmp_degree proc~cmp_degree~2->proc~get_multiplicity~2 proc~cmp_degree~3 nurbs_surface%cmp_degree proc~cmp_degree~3->proc~get_multiplicity~3 proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->proc~get_multiplicity proc~cmp_elem~2 nurbs_curve%cmp_elem proc~cmp_elem~2->proc~get_multiplicity~2 proc~cmp_elem~3 nurbs_surface%cmp_elem proc~cmp_elem~3->proc~get_multiplicity~3 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->proc~elevate_degree_a_5_9 proc~elevate_degree->none~set proc~elevate_degree~2 nurbs_curve%elevate_degree proc~elevate_degree~2->proc~elevate_degree_a_5_9 proc~elevate_degree~2->none~set~2 proc~elevate_degree~3 nurbs_surface%elevate_degree proc~elevate_degree~3->proc~elevate_degree_a_5_9 proc~elevate_degree~3->none~set~3 proc~set1 nurbs_volume%set1 proc~set1->proc~cmp_nc proc~set1->proc~cmp_degree proc~set1~3 nurbs_surface%set1 proc~set1~3->proc~cmp_nc~3 proc~set1~3->proc~cmp_degree~3 proc~set2 nurbs_volume%set2 proc~set2->proc~cmp_nc proc~set2~3 nurbs_surface%set2 proc~set2~3->proc~cmp_nc~3 program~example1_curve example1_curve program~example1_curve->proc~insert_knots~2 program~example1_curve->proc~remove_knots~2 program~example1_curve->proc~elevate_degree~2 program~example1_curve->none~set~2 program~example3_surface example3_surface program~example3_surface->proc~insert_knots~3 program~example3_surface->proc~remove_knots~3 program~example3_surface->proc~elevate_degree~3 program~example3_surface->none~set~3 program~example3_volume example3_volume program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example3_volume->proc~elevate_degree program~example3_volume->none~set none~set->proc~set1 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 none~set~3->proc~set1~3 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 proc~set1~2 nurbs_curve%set1 proc~set1~2->proc~cmp_degree~2 proc~set3->proc~cmp_degree proc~set3~2 nurbs_curve%set3 proc~set3~2->proc~cmp_degree~2 proc~set3~3->proc~cmp_degree~3 none~set~2->proc~set1~2 none~set~2->proc~set3~2 proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_wc~3 nurbs_surface%modify_Wc proc~modify_wc~3->none~set~3 proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~modify_xc~3 nurbs_surface%modify_Xc proc~modify_xc~3->none~set~3 proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_c~3 nurbs_surface%set_C proc~set_c~3->none~set~3 proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~3 proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~3 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~3 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set proc~modify_wc~2 nurbs_curve%modify_Wc proc~modify_wc~2->none~set~2 proc~modify_xc~2 nurbs_curve%modify_Xc proc~modify_xc~2->none~set~2 proc~set_circle nurbs_curve%set_circle proc~set_circle->none~set~2 proc~set_c~2 nurbs_curve%set_C proc~set_c~2->none~set~2 proc~set_half_circle nurbs_curve%set_half_circle proc~set_half_circle->none~set~2 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->none~set~2 program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~3 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~3 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~2 program~shape_circle shape_circle program~shape_circle->proc~set_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_multiplicity1.html"},{"title":"compute_multiplicity2 – ForCAD","text":"private pure function compute_multiplicity2(knot, Xth) result(multiplicity) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: knot (:) real(kind=rk), intent(in) :: Xth Return Value integer Called by proc~~compute_multiplicity2~~CalledByGraph proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity compute_multiplicity interface~compute_multiplicity->proc~compute_multiplicity2 proc~cmp_nc nurbs_volume%cmp_nc proc~cmp_nc->interface~compute_multiplicity proc~cmp_nc~2 nurbs_curve%cmp_nc proc~cmp_nc~2->interface~compute_multiplicity proc~cmp_nc~3 nurbs_surface%cmp_nc proc~cmp_nc~3->interface~compute_multiplicity proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree_a_5_9->interface~compute_multiplicity proc~get_continuity nurbs_volume%get_continuity proc~get_continuity->interface~compute_multiplicity proc~get_continuity~2 nurbs_curve%get_continuity proc~get_continuity~2->interface~compute_multiplicity proc~get_continuity~3 nurbs_surface%get_continuity proc~get_continuity~3->interface~compute_multiplicity proc~get_multiplicity nurbs_volume%get_multiplicity proc~get_multiplicity->interface~compute_multiplicity proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~get_nc get_nc proc~get_nc->interface~compute_multiplicity proc~get_nc~3 nurbs_surface%get_nc proc~get_nc~3->interface~compute_multiplicity proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->interface~compute_multiplicity none~set nurbs_volume%set proc~insert_knots->none~set proc~insert_knots~2 nurbs_curve%insert_knots proc~insert_knots~2->interface~compute_multiplicity none~set~2 nurbs_curve%set proc~insert_knots~2->none~set~2 proc~insert_knots~3 nurbs_surface%insert_knots proc~insert_knots~3->interface~compute_multiplicity none~set~3 nurbs_surface%set proc~insert_knots~3->none~set~3 proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->interface~compute_multiplicity proc~remove_knots->none~set proc~remove_knots~2 nurbs_curve%remove_knots proc~remove_knots~2->interface~compute_multiplicity proc~remove_knots~2->none~set~2 proc~remove_knots~3 nurbs_surface%remove_knots proc~remove_knots~3->interface~compute_multiplicity proc~remove_knots~3->none~set~3 proc~cmp_degree nurbs_volume%cmp_degree proc~cmp_degree->proc~get_multiplicity proc~cmp_degree~2 nurbs_curve%cmp_degree proc~cmp_degree~2->proc~get_multiplicity~2 proc~cmp_degree~3 nurbs_surface%cmp_degree proc~cmp_degree~3->proc~get_multiplicity~3 proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->proc~get_multiplicity proc~cmp_elem~2 nurbs_curve%cmp_elem proc~cmp_elem~2->proc~get_multiplicity~2 proc~cmp_elem~3 nurbs_surface%cmp_elem proc~cmp_elem~3->proc~get_multiplicity~3 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->proc~elevate_degree_a_5_9 proc~elevate_degree->none~set proc~elevate_degree~2 nurbs_curve%elevate_degree proc~elevate_degree~2->proc~elevate_degree_a_5_9 proc~elevate_degree~2->none~set~2 proc~elevate_degree~3 nurbs_surface%elevate_degree proc~elevate_degree~3->proc~elevate_degree_a_5_9 proc~elevate_degree~3->none~set~3 proc~set1 nurbs_volume%set1 proc~set1->proc~cmp_nc proc~set1->proc~cmp_degree proc~set1~3 nurbs_surface%set1 proc~set1~3->proc~cmp_nc~3 proc~set1~3->proc~cmp_degree~3 proc~set2 nurbs_volume%set2 proc~set2->proc~cmp_nc proc~set2~3 nurbs_surface%set2 proc~set2~3->proc~cmp_nc~3 program~example1_curve example1_curve program~example1_curve->proc~insert_knots~2 program~example1_curve->proc~remove_knots~2 program~example1_curve->proc~elevate_degree~2 program~example1_curve->none~set~2 program~example3_surface example3_surface program~example3_surface->proc~insert_knots~3 program~example3_surface->proc~remove_knots~3 program~example3_surface->proc~elevate_degree~3 program~example3_surface->none~set~3 program~example3_volume example3_volume program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example3_volume->proc~elevate_degree program~example3_volume->none~set none~set->proc~set1 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 none~set~3->proc~set1~3 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 proc~set1~2 nurbs_curve%set1 proc~set1~2->proc~cmp_degree~2 proc~set3->proc~cmp_degree proc~set3~2 nurbs_curve%set3 proc~set3~2->proc~cmp_degree~2 proc~set3~3->proc~cmp_degree~3 none~set~2->proc~set1~2 none~set~2->proc~set3~2 proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_wc~3 nurbs_surface%modify_Wc proc~modify_wc~3->none~set~3 proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~modify_xc~3 nurbs_surface%modify_Xc proc~modify_xc~3->none~set~3 proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_c~3 nurbs_surface%set_C proc~set_c~3->none~set~3 proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~3 proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~3 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~3 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set proc~modify_wc~2 nurbs_curve%modify_Wc proc~modify_wc~2->none~set~2 proc~modify_xc~2 nurbs_curve%modify_Xc proc~modify_xc~2->none~set~2 proc~set_circle nurbs_curve%set_circle proc~set_circle->none~set~2 proc~set_c~2 nurbs_curve%set_C proc~set_c~2->none~set~2 proc~set_half_circle nurbs_curve%set_half_circle proc~set_half_circle->none~set~2 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->none~set~2 program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~3 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~3 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~2 program~shape_circle shape_circle program~shape_circle->proc~set_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_multiplicity2.html"},{"title":"factln – ForCAD","text":"private pure function factln(n) result(f) Arguments Type Intent Optional Attributes Name integer, intent(in) :: n Return Value real(kind=rk) Called by proc~~factln~~CalledByGraph proc~factln factln proc~bincoeff bincoeff proc~bincoeff->proc~factln proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree_a_5_9->proc~bincoeff proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->proc~elevate_degree_a_5_9 proc~elevate_degree~2 nurbs_curve%elevate_degree proc~elevate_degree~2->proc~elevate_degree_a_5_9 proc~elevate_degree~3 nurbs_surface%elevate_degree proc~elevate_degree~3->proc~elevate_degree_a_5_9 program~example1_curve example1_curve program~example1_curve->proc~elevate_degree~2 program~example3_surface example3_surface program~example3_surface->proc~elevate_degree~3 program~example3_volume example3_volume program~example3_volume->proc~elevate_degree Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/factln.html"},{"title":"isinf – ForCAD","text":"private pure elemental function isinf(x) result(output) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: x Return Value logical Called by proc~~isinf~~CalledByGraph proc~isinf isinf proc~basis_bspline_der basis_bspline_der proc~basis_bspline_der->proc~isinf proc~compute_dtgc_bspline_1d compute_dTgc_bspline_1d proc~compute_dtgc_bspline_1d->proc~basis_bspline_der proc~compute_dtgc_bspline_2d compute_dTgc_bspline_2d proc~compute_dtgc_bspline_2d->proc~basis_bspline_der proc~compute_dtgc_bspline_3d compute_dTgc_bspline_3d proc~compute_dtgc_bspline_3d->proc~basis_bspline_der proc~compute_dtgc_nurbs_1d compute_dTgc_nurbs_1d proc~compute_dtgc_nurbs_1d->proc~basis_bspline_der proc~compute_dtgc_nurbs_2d compute_dTgc_nurbs_2d proc~compute_dtgc_nurbs_2d->proc~basis_bspline_der proc~compute_dtgc_nurbs_3d compute_dTgc_nurbs_3d proc~compute_dtgc_nurbs_3d->proc~basis_bspline_der Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/isinf.html"},{"title":"isnan – ForCAD","text":"private pure elemental function isnan(x) result(output) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: x Return Value logical","tags":"","loc":"proc/isnan.html"},{"title":"repelem – ForCAD","text":"private pure function repelem(a, b) result(c) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: a (:) integer, intent(in), contiguous :: b (:) Return Value real(kind=rk), (sum(b)) Called by proc~~repelem~~CalledByGraph proc~repelem repelem proc~compute_knot_vector compute_knot_vector proc~compute_knot_vector->proc~repelem proc~set2 nurbs_volume%set2 proc~set2->proc~compute_knot_vector proc~set2~2 nurbs_curve%set2 proc~set2~2->proc~compute_knot_vector proc~set2~3 nurbs_surface%set2 proc~set2~3->proc~compute_knot_vector none~set nurbs_volume%set none~set->proc~set2 none~set~2 nurbs_curve%set none~set~2->proc~set2~2 none~set~3 nurbs_surface%set none~set~3->proc~set2~3 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->none~set proc~elevate_degree~2 nurbs_curve%elevate_degree proc~elevate_degree~2->none~set~2 proc~elevate_degree~3 nurbs_surface%elevate_degree proc~elevate_degree~3->none~set~3 proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->none~set proc~insert_knots~2 nurbs_curve%insert_knots proc~insert_knots~2->none~set~2 proc~insert_knots~3 nurbs_surface%insert_knots proc~insert_knots~3->none~set~3 proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_wc~2 nurbs_curve%modify_Wc proc~modify_wc~2->none~set~2 proc~modify_wc~3 nurbs_surface%modify_Wc proc~modify_wc~3->none~set~3 proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~modify_xc~2 nurbs_curve%modify_Xc proc~modify_xc~2->none~set~2 proc~modify_xc~3 nurbs_surface%modify_Xc proc~modify_xc~3->none~set~3 proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->none~set proc~remove_knots~2 nurbs_curve%remove_knots proc~remove_knots~2->none~set~2 proc~remove_knots~3 nurbs_surface%remove_knots proc~remove_knots~3->none~set~3 proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_circle nurbs_curve%set_circle proc~set_circle->none~set~2 proc~set_c~2 nurbs_curve%set_C proc~set_c~2->none~set~2 proc~set_c~3 nurbs_surface%set_C proc~set_c~3->none~set~3 proc~set_half_circle nurbs_curve%set_half_circle proc~set_half_circle->none~set~2 proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~3 proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~3 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~3 program~example1_curve example1_curve program~example1_curve->none~set~2 program~example1_curve->proc~elevate_degree~2 program~example1_curve->proc~insert_knots~2 program~example1_curve->proc~remove_knots~2 program~example3_surface example3_surface program~example3_surface->none~set~3 program~example3_surface->proc~elevate_degree~3 program~example3_surface->proc~insert_knots~3 program~example3_surface->proc~remove_knots~3 program~example3_volume example3_volume program~example3_volume->none~set program~example3_volume->proc~elevate_degree program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->none~set~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~3 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~3 program~example_ppm3->proc~set_tetragon program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~2 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~3 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_circle shape_circle program~shape_circle->proc~set_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/repelem.html"},{"title":"unique_integer – ForCAD","text":"private pure function unique_integer(vec) result(output) Arguments Type Intent Optional Attributes Name integer, intent(in), dimension(:), contiguous :: vec Return Value integer, dimension(:), allocatable Called by proc~~unique_integer~~CalledByGraph proc~unique_integer unique_integer interface~unique unique interface~unique->proc~unique_integer proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->interface~unique proc~cmp_elem~2 nurbs_curve%cmp_elem proc~cmp_elem~2->interface~unique proc~cmp_elem~3 nurbs_surface%cmp_elem proc~cmp_elem~3->interface~unique Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/unique_integer.html"},{"title":"unique_real – ForCAD","text":"private pure function unique_real(vec) result(output) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), dimension(:), contiguous :: vec Return Value real(kind=rk), dimension(:), allocatable Called by proc~~unique_real~~CalledByGraph proc~unique_real unique_real interface~unique unique interface~unique->proc~unique_real proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->interface~unique proc~cmp_elem~2 nurbs_curve%cmp_elem proc~cmp_elem~2->interface~unique proc~cmp_elem~3 nurbs_surface%cmp_elem proc~cmp_elem~3->interface~unique Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/unique_real.html"},{"title":"elevate_degree_A_5_9 – ForCAD","text":"public pure subroutine elevate_degree_A_5_9(t, knot, degree, Xcw, nc_new, knot_new, Xcw_new) Arguments Type Intent Optional Attributes Name integer, intent(in) :: t real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: degree real(kind=rk), intent(in), contiguous :: Xcw (:,:) integer, intent(out) :: nc_new real(kind=rk), intent(out), allocatable :: knot_new (:) real(kind=rk), intent(out), allocatable :: Xcw_new (:,:) Calls proc~~elevate_degree_a_5_9~~CallsGraph proc~elevate_degree_a_5_9 elevate_degree_A_5_9 interface~compute_multiplicity compute_multiplicity proc~elevate_degree_a_5_9->interface~compute_multiplicity proc~bincoeff bincoeff proc~elevate_degree_a_5_9->proc~bincoeff proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~factln factln proc~bincoeff->proc~factln Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~elevate_degree_a_5_9~~CalledByGraph proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->proc~elevate_degree_a_5_9 proc~elevate_degree~2 nurbs_curve%elevate_degree proc~elevate_degree~2->proc~elevate_degree_a_5_9 proc~elevate_degree~3 nurbs_surface%elevate_degree proc~elevate_degree~3->proc~elevate_degree_a_5_9 program~example1_curve example1_curve program~example1_curve->proc~elevate_degree~2 program~example3_surface example3_surface program~example3_surface->proc~elevate_degree~3 program~example3_volume example3_volume program~example3_volume->proc~elevate_degree Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/elevate_degree_a_5_9.html"},{"title":"insert_knot_A_5_1 – ForCAD","text":"public pure subroutine insert_knot_A_5_1(p, UP, Pw, u, k, s, r, nq, UQ, Qw) Arguments Type Intent Optional Attributes Name integer, intent(in) :: p real(kind=rk), intent(in), contiguous :: UP (0:) real(kind=rk), intent(in), contiguous :: Pw (0:,:) real(kind=rk), intent(in) :: u integer, intent(in) :: k integer, intent(in) :: s integer, intent(in) :: r integer, intent(out) :: nq real(kind=rk), intent(out), allocatable :: UQ (:) real(kind=rk), intent(out), allocatable :: Qw (:,:) Called by proc~~insert_knot_a_5_1~~CalledByGraph proc~insert_knot_a_5_1 insert_knot_A_5_1 proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->proc~insert_knot_a_5_1 proc~insert_knots~2 nurbs_curve%insert_knots proc~insert_knots~2->proc~insert_knot_a_5_1 proc~insert_knots~3 nurbs_surface%insert_knots proc~insert_knots~3->proc~insert_knot_a_5_1 program~example1_curve example1_curve program~example1_curve->proc~insert_knots~2 program~example3_surface example3_surface program~example3_surface->proc~insert_knots~3 program~example3_volume example3_volume program~example3_volume->proc~insert_knots Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/insert_knot_a_5_1.html"},{"title":"remove_knots_A_5_8 – ForCAD","text":"public pure subroutine remove_knots_A_5_8(p, knot, Pw, u, r, s, num, t, knot_new, Pw_new) Arguments Type Intent Optional Attributes Name integer, intent(in) :: p real(kind=rk), intent(in), contiguous :: knot (:) real(kind=rk), intent(in), contiguous :: Pw (:,:) real(kind=rk), intent(in) :: u integer, intent(in) :: r integer, intent(in) :: s integer, intent(in) :: num integer, intent(out) :: t real(kind=rk), intent(out), allocatable :: knot_new (:) real(kind=rk), intent(out), allocatable :: Pw_new (:,:) Called by proc~~remove_knots_a_5_8~~CalledByGraph proc~remove_knots_a_5_8 remove_knots_A_5_8 proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->proc~remove_knots_a_5_8 proc~remove_knots~2 nurbs_curve%remove_knots proc~remove_knots~2->proc~remove_knots_a_5_8 proc~remove_knots~3 nurbs_surface%remove_knots proc~remove_knots~3->proc~remove_knots_a_5_8 program~example1_curve example1_curve program~example1_curve->proc~remove_knots~2 program~example3_surface example3_surface program~example3_surface->proc~remove_knots~3 program~example3_volume example3_volume program~example3_volume->proc~remove_knots Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/remove_knots_a_5_8.html"},{"title":"cmp_elemConn_Cn_L – ForCAD","text":"private pure subroutine cmp_elemConn_Cn_L(nnode, p, Xth, vecKnot_mul, elemConn) Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode integer, intent(in) :: p real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: vecKnot_mul (:) integer, intent(out), allocatable :: elemConn (:,:) Called by proc~~cmp_elemconn_cn_l~~CalledByGraph proc~cmp_elemconn_cn_l cmp_elemConn_Cn_L interface~elemconn_cn elemConn_Cn interface~elemconn_cn->proc~cmp_elemconn_cn_l proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->interface~elemconn_cn proc~cmp_elem~2 nurbs_curve%cmp_elem proc~cmp_elem~2->interface~elemconn_cn proc~cmp_elem~3 nurbs_surface%cmp_elem proc~cmp_elem~3->interface~elemconn_cn Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elemconn_cn_l.html"},{"title":"cmp_elemConn_Cn_S – ForCAD","text":"private pure subroutine cmp_elemConn_Cn_S(nnode1, nnode2, p1, p2, Xth1, Xth2, vecKnot_mul1, vecKnot_mul2, elemConn) Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: p1 integer, intent(in) :: p2 real(kind=rk), intent(in), contiguous :: Xth1 (:) real(kind=rk), intent(in), contiguous :: Xth2 (:) integer, intent(in), contiguous :: vecKnot_mul1 (:) integer, intent(in), contiguous :: vecKnot_mul2 (:) integer, intent(out), allocatable :: elemConn (:,:) Called by proc~~cmp_elemconn_cn_s~~CalledByGraph proc~cmp_elemconn_cn_s cmp_elemConn_Cn_S interface~elemconn_cn elemConn_Cn interface~elemconn_cn->proc~cmp_elemconn_cn_s proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->interface~elemconn_cn proc~cmp_elem~2 nurbs_curve%cmp_elem proc~cmp_elem~2->interface~elemconn_cn proc~cmp_elem~3 nurbs_surface%cmp_elem proc~cmp_elem~3->interface~elemconn_cn Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elemconn_cn_s.html"},{"title":"cmp_elemConn_Cn_V – ForCAD","text":"private pure subroutine cmp_elemConn_Cn_V(nnode1, nnode2, nnode3, p1, p2, p3, Xth1, Xth2, Xth3, vecKnot_mul1, vecKnot_mul2, vecKnot_mul3, elemConn) Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: nnode3 integer, intent(in) :: p1 integer, intent(in) :: p2 integer, intent(in) :: p3 real(kind=rk), intent(in), contiguous :: Xth1 (:) real(kind=rk), intent(in), contiguous :: Xth2 (:) real(kind=rk), intent(in), contiguous :: Xth3 (:) integer, intent(in), contiguous :: vecKnot_mul1 (:) integer, intent(in), contiguous :: vecKnot_mul2 (:) integer, intent(in), contiguous :: vecKnot_mul3 (:) integer, intent(out), allocatable :: elemConn (:,:) Called by proc~~cmp_elemconn_cn_v~~CalledByGraph proc~cmp_elemconn_cn_v cmp_elemConn_Cn_V interface~elemconn_cn elemConn_Cn interface~elemconn_cn->proc~cmp_elemconn_cn_v proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->interface~elemconn_cn proc~cmp_elem~2 nurbs_curve%cmp_elem proc~cmp_elem~2->interface~elemconn_cn proc~cmp_elem~3 nurbs_surface%cmp_elem proc~cmp_elem~3->interface~elemconn_cn Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elemconn_cn_v.html"},{"title":"ndgrid2 – ForCAD","text":"private pure subroutine ndgrid2(X_dir1, X_dir2, Xt) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: X_dir1 (:) real(kind=rk), intent(in), contiguous :: X_dir2 (:) real(kind=rk), intent(out), allocatable :: Xt (:,:) Called by proc~~ndgrid2~~CalledByGraph proc~ndgrid2 ndgrid2 interface~ndgrid ndgrid interface~ndgrid->proc~ndgrid2 proc~basis nurbs_volume%basis proc~basis->interface~ndgrid proc~basis~3 nurbs_surface%basis proc~basis~3->interface~ndgrid proc~create nurbs_volume%create proc~create->interface~ndgrid proc~create~3 nurbs_surface%create proc~create~3->interface~ndgrid proc~derivative nurbs_volume%derivative proc~derivative->interface~ndgrid proc~derivative~3 nurbs_surface%derivative proc~derivative~3->interface~ndgrid program~example3_surface example3_surface program~example3_surface->proc~create~3 program~example3_volume example3_volume program~example3_volume->proc~create program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~create~3 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~create program~example_ppm1 example_ppm1 program~example_ppm1->proc~create~3 program~example_ppm2 example_ppm2 program~example_ppm2->proc~create~3 program~example_ppm3 example_ppm3 program~example_ppm3->proc~create~3 program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~create~3 program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~create~3 program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~create program~shape_c_2d shape_C_2d program~shape_c_2d->proc~create~3 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~create program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~create~3 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~create program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~create program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~create~3 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~create program~shape_tetragon shape_tetragon program~shape_tetragon->proc~create~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/ndgrid2.html"},{"title":"ndgrid3 – ForCAD","text":"private pure subroutine ndgrid3(X_dir1, X_dir2, X_dir3, Xt) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: X_dir1 (:) real(kind=rk), intent(in), contiguous :: X_dir2 (:) real(kind=rk), intent(in), contiguous :: X_dir3 (:) real(kind=rk), intent(out), allocatable :: Xt (:,:) Called by proc~~ndgrid3~~CalledByGraph proc~ndgrid3 ndgrid3 interface~ndgrid ndgrid interface~ndgrid->proc~ndgrid3 proc~basis nurbs_volume%basis proc~basis->interface~ndgrid proc~basis~3 nurbs_surface%basis proc~basis~3->interface~ndgrid proc~create nurbs_volume%create proc~create->interface~ndgrid proc~create~3 nurbs_surface%create proc~create~3->interface~ndgrid proc~derivative nurbs_volume%derivative proc~derivative->interface~ndgrid proc~derivative~3 nurbs_surface%derivative proc~derivative~3->interface~ndgrid program~example3_surface example3_surface program~example3_surface->proc~create~3 program~example3_volume example3_volume program~example3_volume->proc~create program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~create~3 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~create program~example_ppm1 example_ppm1 program~example_ppm1->proc~create~3 program~example_ppm2 example_ppm2 program~example_ppm2->proc~create~3 program~example_ppm3 example_ppm3 program~example_ppm3->proc~create~3 program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~create~3 program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~create~3 program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~create program~shape_c_2d shape_C_2d program~shape_c_2d->proc~create~3 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~create program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~create~3 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~create program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~create program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~create~3 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~create program~shape_tetragon shape_tetragon program~shape_tetragon->proc~create~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/ndgrid3.html"},{"title":"compute_multiplicity – ForCAD","text":"public interface compute_multiplicity Calls interface~~compute_multiplicity~~CallsGraph interface~compute_multiplicity compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by interface~~compute_multiplicity~~CalledByGraph interface~compute_multiplicity compute_multiplicity proc~cmp_nc nurbs_volume%cmp_nc proc~cmp_nc->interface~compute_multiplicity proc~cmp_nc~2 nurbs_curve%cmp_nc proc~cmp_nc~2->interface~compute_multiplicity proc~cmp_nc~3 nurbs_surface%cmp_nc proc~cmp_nc~3->interface~compute_multiplicity proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree_a_5_9->interface~compute_multiplicity proc~get_continuity nurbs_volume%get_continuity proc~get_continuity->interface~compute_multiplicity proc~get_continuity~2 nurbs_curve%get_continuity proc~get_continuity~2->interface~compute_multiplicity proc~get_continuity~3 nurbs_surface%get_continuity proc~get_continuity~3->interface~compute_multiplicity proc~get_multiplicity nurbs_volume%get_multiplicity proc~get_multiplicity->interface~compute_multiplicity proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~get_nc get_nc proc~get_nc->interface~compute_multiplicity proc~get_nc~3 nurbs_surface%get_nc proc~get_nc~3->interface~compute_multiplicity proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->interface~compute_multiplicity none~set nurbs_volume%set proc~insert_knots->none~set proc~insert_knots~2 nurbs_curve%insert_knots proc~insert_knots~2->interface~compute_multiplicity none~set~2 nurbs_curve%set proc~insert_knots~2->none~set~2 proc~insert_knots~3 nurbs_surface%insert_knots proc~insert_knots~3->interface~compute_multiplicity none~set~3 nurbs_surface%set proc~insert_knots~3->none~set~3 proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->interface~compute_multiplicity proc~remove_knots->none~set proc~remove_knots~2 nurbs_curve%remove_knots proc~remove_knots~2->interface~compute_multiplicity proc~remove_knots~2->none~set~2 proc~remove_knots~3 nurbs_surface%remove_knots proc~remove_knots~3->interface~compute_multiplicity proc~remove_knots~3->none~set~3 proc~cmp_degree nurbs_volume%cmp_degree proc~cmp_degree->proc~get_multiplicity proc~cmp_degree~2 nurbs_curve%cmp_degree proc~cmp_degree~2->proc~get_multiplicity~2 proc~cmp_degree~3 nurbs_surface%cmp_degree proc~cmp_degree~3->proc~get_multiplicity~3 proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->proc~get_multiplicity proc~cmp_elem~2 nurbs_curve%cmp_elem proc~cmp_elem~2->proc~get_multiplicity~2 proc~cmp_elem~3 nurbs_surface%cmp_elem proc~cmp_elem~3->proc~get_multiplicity~3 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->proc~elevate_degree_a_5_9 proc~elevate_degree->none~set proc~elevate_degree~2 nurbs_curve%elevate_degree proc~elevate_degree~2->proc~elevate_degree_a_5_9 proc~elevate_degree~2->none~set~2 proc~elevate_degree~3 nurbs_surface%elevate_degree proc~elevate_degree~3->proc~elevate_degree_a_5_9 proc~elevate_degree~3->none~set~3 proc~set1 nurbs_volume%set1 proc~set1->proc~cmp_nc proc~set1->proc~cmp_degree proc~set1~3 nurbs_surface%set1 proc~set1~3->proc~cmp_nc~3 proc~set1~3->proc~cmp_degree~3 proc~set2 nurbs_volume%set2 proc~set2->proc~cmp_nc proc~set2~3 nurbs_surface%set2 proc~set2~3->proc~cmp_nc~3 program~example1_curve example1_curve program~example1_curve->proc~insert_knots~2 program~example1_curve->proc~remove_knots~2 program~example1_curve->proc~elevate_degree~2 program~example1_curve->none~set~2 program~example3_surface example3_surface program~example3_surface->proc~insert_knots~3 program~example3_surface->proc~remove_knots~3 program~example3_surface->proc~elevate_degree~3 program~example3_surface->none~set~3 program~example3_volume example3_volume program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example3_volume->proc~elevate_degree program~example3_volume->none~set none~set->proc~set1 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 none~set~3->proc~set1~3 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 proc~set1~2 nurbs_curve%set1 proc~set1~2->proc~cmp_degree~2 proc~set3->proc~cmp_degree proc~set3~2 nurbs_curve%set3 proc~set3~2->proc~cmp_degree~2 proc~set3~3->proc~cmp_degree~3 none~set~2->proc~set1~2 none~set~2->proc~set3~2 proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_wc~3 nurbs_surface%modify_Wc proc~modify_wc~3->none~set~3 proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~modify_xc~3 nurbs_surface%modify_Xc proc~modify_xc~3->none~set~3 proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_c~3 nurbs_surface%set_C proc~set_c~3->none~set~3 proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~3 proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~3 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~3 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set proc~modify_wc~2 nurbs_curve%modify_Wc proc~modify_wc~2->none~set~2 proc~modify_xc~2 nurbs_curve%modify_Xc proc~modify_xc~2->none~set~2 proc~set_circle nurbs_curve%set_circle proc~set_circle->none~set~2 proc~set_c~2 nurbs_curve%set_C proc~set_c~2->none~set~2 proc~set_half_circle nurbs_curve%set_half_circle proc~set_half_circle->none~set~2 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->none~set~2 program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~3 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~3 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~2 program~shape_circle shape_circle program~shape_circle->proc~set_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Module Procedures private pure function compute_multiplicity1 (knot) result(multiplicity) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: knot (:) Return Value integer, allocatable, (:) private pure function compute_multiplicity2 (knot, Xth) result(multiplicity) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: knot (:) real(kind=rk), intent(in) :: Xth Return Value integer","tags":"","loc":"interface/compute_multiplicity.html"},{"title":"elemConn_C0 – ForCAD","text":"public interface elemConn_C0 Calls interface~~elemconn_c0~~CallsGraph interface~elemconn_c0 elemConn_C0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by interface~~elemconn_c0~~CalledByGraph interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xc_vis~2 nurbs_curve%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elem_xc_vis~3 nurbs_surface%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis~2 nurbs_curve%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~cmp_elem_xg_vis~3 nurbs_surface%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~export_xc nurbs_volume%export_Xc proc~export_xc->proc~cmp_elem_xc_vis proc~export_xc~2 nurbs_curve%export_Xc proc~export_xc~2->proc~cmp_elem_xc_vis~2 proc~export_xc~3 nurbs_surface%export_Xc proc~export_xc~3->proc~cmp_elem_xc_vis~3 proc~export_xg nurbs_volume%export_Xg proc~export_xg->proc~cmp_elem_xg_vis proc~export_xg~2 nurbs_curve%export_Xg proc~export_xg~2->proc~cmp_elem_xg_vis~2 proc~export_xg~3 nurbs_surface%export_Xg proc~export_xg~3->proc~cmp_elem_xg_vis~3 program~example1_curve example1_curve program~example1_curve->proc~export_xc~2 program~example1_curve->proc~export_xg~2 program~example3_surface example3_surface program~example3_surface->proc~export_xc~3 program~example3_surface->proc~export_xg~3 program~example3_volume example3_volume program~example3_volume->proc~export_xc program~example3_volume->proc~export_xg program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~export_xc~2 program~example_nurbs_curve->proc~export_xg~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~export_xc~3 program~example_nurbs_surface->proc~export_xg~3 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~export_xc program~example_nurbs_volume->proc~export_xg program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~export_xc program~example_put_to_nurbs->proc~export_xg program~shape_c_1d shape_C_1d program~shape_c_1d->proc~export_xc~2 program~shape_c_1d->proc~export_xg~2 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~export_xc~3 program~shape_c_2d->proc~export_xg~3 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~export_xc program~shape_c_3d->proc~export_xg program~shape_circle shape_circle program~shape_circle->proc~export_xc~2 program~shape_circle->proc~export_xg~2 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~export_xc~2 program~shape_half_circle->proc~export_xg~2 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~export_xc~3 program~shape_half_ring_2d->proc~export_xg~3 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~export_xc program~shape_half_ring_3d->proc~export_xg program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~export_xc program~shape_hexahedron->proc~export_xg program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~export_xc~3 program~shape_ring_2d->proc~export_xg~3 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~export_xc program~shape_ring_3d->proc~export_xg program~shape_tetragon shape_tetragon program~shape_tetragon->proc~export_xc~3 program~shape_tetragon->proc~export_xg~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Module Procedures private pure function cmp_elemConn_C0_L (nnode, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode integer, intent(in) :: p Return Value integer, allocatable, (:,:) private pure function cmp_elemConn_C0_S (nnode1, nnode2, p1, p2) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: p1 integer, intent(in) :: p2 Return Value integer, allocatable, (:,:) private pure function cmp_elemConn_C0_V (nnode1, nnode2, nnode3, p1, p2, p3) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: nnode3 integer, intent(in) :: p1 integer, intent(in) :: p2 integer, intent(in) :: p3 Return Value integer, allocatable, (:,:)","tags":"","loc":"interface/elemconn_c0.html"},{"title":"elemConn_Cn – ForCAD","text":"public interface elemConn_Cn Calls interface~~elemconn_cn~~CallsGraph interface~elemconn_cn elemConn_Cn proc~cmp_elemconn_cn_l cmp_elemConn_Cn_L interface~elemconn_cn->proc~cmp_elemconn_cn_l proc~cmp_elemconn_cn_s cmp_elemConn_Cn_S interface~elemconn_cn->proc~cmp_elemconn_cn_s proc~cmp_elemconn_cn_v cmp_elemConn_Cn_V interface~elemconn_cn->proc~cmp_elemconn_cn_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by interface~~elemconn_cn~~CalledByGraph interface~elemconn_cn elemConn_Cn proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->interface~elemconn_cn proc~cmp_elem~2 nurbs_curve%cmp_elem proc~cmp_elem~2->interface~elemconn_cn proc~cmp_elem~3 nurbs_surface%cmp_elem proc~cmp_elem~3->interface~elemconn_cn Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Module Procedures private pure subroutine cmp_elemConn_Cn_L (nnode, p, Xth, vecKnot_mul, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode integer, intent(in) :: p real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: vecKnot_mul (:) integer, intent(out), allocatable :: elemConn (:,:) private pure subroutine cmp_elemConn_Cn_S (nnode1, nnode2, p1, p2, Xth1, Xth2, vecKnot_mul1, vecKnot_mul2, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: p1 integer, intent(in) :: p2 real(kind=rk), intent(in), contiguous :: Xth1 (:) real(kind=rk), intent(in), contiguous :: Xth2 (:) integer, intent(in), contiguous :: vecKnot_mul1 (:) integer, intent(in), contiguous :: vecKnot_mul2 (:) integer, intent(out), allocatable :: elemConn (:,:) private pure subroutine cmp_elemConn_Cn_V (nnode1, nnode2, nnode3, p1, p2, p3, Xth1, Xth2, Xth3, vecKnot_mul1, vecKnot_mul2, vecKnot_mul3, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: nnode3 integer, intent(in) :: p1 integer, intent(in) :: p2 integer, intent(in) :: p3 real(kind=rk), intent(in), contiguous :: Xth1 (:) real(kind=rk), intent(in), contiguous :: Xth2 (:) real(kind=rk), intent(in), contiguous :: Xth3 (:) integer, intent(in), contiguous :: vecKnot_mul1 (:) integer, intent(in), contiguous :: vecKnot_mul2 (:) integer, intent(in), contiguous :: vecKnot_mul3 (:) integer, intent(out), allocatable :: elemConn (:,:)","tags":"","loc":"interface/elemconn_cn.html"},{"title":"ndgrid – ForCAD","text":"public interface ndgrid Calls interface~~ndgrid~~CallsGraph interface~ndgrid ndgrid proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by interface~~ndgrid~~CalledByGraph interface~ndgrid ndgrid proc~basis nurbs_volume%basis proc~basis->interface~ndgrid proc~basis~3 nurbs_surface%basis proc~basis~3->interface~ndgrid proc~create nurbs_volume%create proc~create->interface~ndgrid proc~create~3 nurbs_surface%create proc~create~3->interface~ndgrid proc~derivative nurbs_volume%derivative proc~derivative->interface~ndgrid proc~derivative~3 nurbs_surface%derivative proc~derivative~3->interface~ndgrid program~example3_surface example3_surface program~example3_surface->proc~create~3 program~example3_volume example3_volume program~example3_volume->proc~create program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~create~3 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~create program~example_ppm1 example_ppm1 program~example_ppm1->proc~create~3 program~example_ppm2 example_ppm2 program~example_ppm2->proc~create~3 program~example_ppm3 example_ppm3 program~example_ppm3->proc~create~3 program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~create~3 program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~create~3 program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~create program~shape_c_2d shape_C_2d program~shape_c_2d->proc~create~3 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~create program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~create~3 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~create program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~create program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~create~3 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~create program~shape_tetragon shape_tetragon program~shape_tetragon->proc~create~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Module Procedures private pure subroutine ndgrid2 (X_dir1, X_dir2, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: X_dir1 (:) real(kind=rk), intent(in), contiguous :: X_dir2 (:) real(kind=rk), intent(out), allocatable :: Xt (:,:) private pure subroutine ndgrid3 (X_dir1, X_dir2, X_dir3, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: X_dir1 (:) real(kind=rk), intent(in), contiguous :: X_dir2 (:) real(kind=rk), intent(in), contiguous :: X_dir3 (:) real(kind=rk), intent(out), allocatable :: Xt (:,:)","tags":"","loc":"interface/ndgrid.html"},{"title":"unique – ForCAD","text":"public interface unique Calls interface~~unique~~CallsGraph interface~unique unique proc~unique_integer unique_integer interface~unique->proc~unique_integer proc~unique_real unique_real interface~unique->proc~unique_real Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by interface~~unique~~CalledByGraph interface~unique unique proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->interface~unique proc~cmp_elem~2 nurbs_curve%cmp_elem proc~cmp_elem~2->interface~unique proc~cmp_elem~3 nurbs_surface%cmp_elem proc~cmp_elem~3->interface~unique Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Module Procedures private pure function unique_integer (vec) result(output) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in), dimension(:), contiguous :: vec Return Value integer, dimension(:), allocatable private pure function unique_real (vec) result(output) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), dimension(:), contiguous :: vec Return Value real(kind=rk), dimension(:), allocatable","tags":"","loc":"interface/unique.html"},{"title":"generate_Xc – ForCAD","text":"function generate_Xc(num_rows, num_cols, peak_height) result(control_points) Arguments Type Intent Optional Attributes Name integer, intent(in) :: num_rows integer, intent(in) :: num_cols real(kind=rk), intent(in) :: peak_height Return Value real(kind=rk), allocatable, (:,:) Called by proc~~generate_xc~~CalledByGraph proc~generate_xc generate_Xc program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~generate_xc Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/generate_xc.html"},{"title":"generate_Xc – ForCAD","text":"function generate_Xc(L) result(control_points) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: L Return Value real(kind=rk), allocatable, (:,:) Called by proc~~generate_xc~2~~CalledByGraph proc~generate_xc~2 generate_Xc program~example3_volume example3_volume program~example3_volume->proc~generate_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/generate_xc~2.html"},{"title":"cmp_elem – ForCAD","text":"private pure function cmp_elem(this) result(elemConn) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:) Calls proc~~cmp_elem~~CallsGraph proc~cmp_elem nurbs_volume%cmp_elem interface~elemconn_cn elemConn_Cn proc~cmp_elem->interface~elemconn_cn interface~unique unique proc~cmp_elem->interface~unique proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_elem->proc~get_multiplicity proc~cmp_elemconn_cn_l cmp_elemConn_Cn_L interface~elemconn_cn->proc~cmp_elemconn_cn_l proc~cmp_elemconn_cn_s cmp_elemConn_Cn_S interface~elemconn_cn->proc~cmp_elemconn_cn_s proc~cmp_elemconn_cn_v cmp_elemConn_Cn_V interface~elemconn_cn->proc~cmp_elemconn_cn_v proc~unique_integer unique_integer interface~unique->proc~unique_integer proc~unique_real unique_real interface~unique->proc~unique_real interface~compute_multiplicity compute_multiplicity proc~get_multiplicity->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elem.html"},{"title":"cmp_elem_Xc_vis – ForCAD","text":"private pure function cmp_elem_Xc_vis(this, p) result(elemConn) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) Calls proc~~cmp_elem_xc_vis~~CallsGraph proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_elem_xc_vis~~CalledByGraph proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~export_xc nurbs_volume%export_Xc proc~export_xc->proc~cmp_elem_xc_vis program~example3_volume example3_volume program~example3_volume->proc~export_xc program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~export_xc program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~export_xc program~shape_c_3d shape_C_3d program~shape_c_3d->proc~export_xc program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~export_xc program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~export_xc program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~export_xc Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elem_xc_vis.html"},{"title":"cmp_elem_Xg_vis – ForCAD","text":"private pure function cmp_elem_Xg_vis(this, p) result(elemConn) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) Calls proc~~cmp_elem_xg_vis~~CallsGraph proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_elem_xg_vis~~CalledByGraph proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~export_xg nurbs_volume%export_Xg proc~export_xg->proc~cmp_elem_xg_vis program~example3_volume example3_volume program~example3_volume->proc~export_xg program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~export_xg program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~export_xg program~shape_c_3d shape_C_3d program~shape_c_3d->proc~export_xg program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~export_xg program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~export_xg program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~export_xg Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elem_xg_vis.html"},{"title":"get_Wc_all – ForCAD","text":"private pure function get_Wc_all(this) result(Wc) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) Called by proc~~get_wc_all~~CalledByGraph proc~get_wc_all nurbs_volume%get_Wc_all none~get_wc nurbs_volume%get_Wc none~get_wc->proc~get_wc_all proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~get_wc proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~get_wc Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_wc_all.html"},{"title":"get_Wci – ForCAD","text":"private pure function get_Wci(this, n) result(Wc) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) Called by proc~~get_wci~~CalledByGraph proc~get_wci nurbs_volume%get_Wci none~get_wc nurbs_volume%get_Wc none~get_wc->proc~get_wci proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~get_wc proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~get_wc Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_wci.html"},{"title":"get_Xc_all – ForCAD","text":"private pure function get_Xc_all(this) result(Xc) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) Called by proc~~get_xc_all~~CalledByGraph proc~get_xc_all nurbs_volume%get_Xc_all none~get_xc nurbs_volume%get_Xc none~get_xc->proc~get_xc_all proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~get_xc proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~get_xc Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xc_all.html"},{"title":"get_Xci – ForCAD","text":"private pure function get_Xci(this, n) result(Xc) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) Called by proc~~get_xci~~CalledByGraph proc~get_xci nurbs_volume%get_Xci none~get_xc nurbs_volume%get_Xc none~get_xc->proc~get_xci proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~get_xc proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~get_xc Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xci.html"},{"title":"get_Xcid – ForCAD","text":"private pure function get_Xcid(this, n, dir) result(Xc) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) Called by proc~~get_xcid~~CalledByGraph proc~get_xcid nurbs_volume%get_Xcid none~get_xc nurbs_volume%get_Xc none~get_xc->proc~get_xcid proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~get_xc proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~get_xc Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xcid.html"},{"title":"get_Xg_all – ForCAD","text":"private pure function get_Xg_all(this) result(Xg) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:)","tags":"","loc":"proc/get_xg_all.html"},{"title":"get_Xgi – ForCAD","text":"private pure function get_Xgi(this, n) result(Xg) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:)","tags":"","loc":"proc/get_xgi.html"},{"title":"get_Xgid – ForCAD","text":"private pure function get_Xgid(this, n, dir) result(Xg) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk)","tags":"","loc":"proc/get_xgid.html"},{"title":"get_Xt – ForCAD","text":"private pure function get_Xt(this, dir) result(Xt) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:)","tags":"","loc":"proc/get_xt.html"},{"title":"get_continuity – ForCAD","text":"private pure function get_continuity(this, dir) result(c) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) Calls proc~~get_continuity~~CallsGraph proc~get_continuity nurbs_volume%get_continuity interface~compute_multiplicity compute_multiplicity proc~get_continuity->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_continuity.html"},{"title":"get_degree_all – ForCAD","text":"private pure function get_degree_all(this) result(degree) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, (3) Called by proc~~get_degree_all~~CalledByGraph proc~get_degree_all nurbs_volume%get_degree_all none~get_degree nurbs_volume%get_degree none~get_degree->proc~get_degree_all program~example3_volume example3_volume program~example3_volume->none~get_degree Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_degree_all.html"},{"title":"get_degree_dir – ForCAD","text":"private pure function get_degree_dir(this, dir) result(degree) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer Called by proc~~get_degree_dir~~CalledByGraph proc~get_degree_dir nurbs_volume%get_degree_dir none~get_degree nurbs_volume%get_degree none~get_degree->proc~get_degree_dir program~example3_volume example3_volume program~example3_volume->none~get_degree Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_degree_dir.html"},{"title":"get_elem – ForCAD","text":"private pure function get_elem(this) result(elemConn) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:)","tags":"","loc":"proc/get_elem.html"},{"title":"get_elem_Xc_vis – ForCAD","text":"private pure function get_elem_Xc_vis(this) result(elemConn) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:)","tags":"","loc":"proc/get_elem_xc_vis.html"},{"title":"get_elem_Xg_vis – ForCAD","text":"private pure function get_elem_Xg_vis(this) result(elemConn) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:)","tags":"","loc":"proc/get_elem_xg_vis.html"},{"title":"get_knot_all – ForCAD","text":"private pure function get_knot_all(this, dir) result(knot) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) Called by proc~~get_knot_all~~CalledByGraph proc~get_knot_all nurbs_volume%get_knot_all none~get_knot nurbs_volume%get_knot none~get_knot->proc~get_knot_all proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->none~get_knot proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->none~get_knot proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~get_knot proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~get_knot proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->none~get_knot program~example3_volume example3_volume program~example3_volume->none~get_knot program~example3_volume->proc~elevate_degree program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_knot_all.html"},{"title":"get_knoti – ForCAD","text":"private pure function get_knoti(this, dir, i) result(knot) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir integer, intent(in) :: i Return Value real(kind=rk) Called by proc~~get_knoti~~CalledByGraph proc~get_knoti nurbs_volume%get_knoti none~get_knot nurbs_volume%get_knot none~get_knot->proc~get_knoti proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->none~get_knot proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->none~get_knot proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~get_knot proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~get_knot proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->none~get_knot program~example3_volume example3_volume program~example3_volume->none~get_knot program~example3_volume->proc~elevate_degree program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_knoti.html"},{"title":"get_multiplicity – ForCAD","text":"private pure function get_multiplicity(this, dir) result(m) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) Calls proc~~get_multiplicity~~CallsGraph proc~get_multiplicity nurbs_volume%get_multiplicity interface~compute_multiplicity compute_multiplicity proc~get_multiplicity->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~get_multiplicity~~CalledByGraph proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree nurbs_volume%cmp_degree proc~cmp_degree->proc~get_multiplicity proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->proc~get_multiplicity proc~set1 nurbs_volume%set1 proc~set1->proc~cmp_degree proc~set3 nurbs_volume%set3 proc~set3->proc~cmp_degree none~set nurbs_volume%set none~set->proc~set1 none~set->proc~set3 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->none~set proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->none~set proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->none~set proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set program~example3_volume example3_volume program~example3_volume->none~set program~example3_volume->proc~elevate_degree program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_multiplicity.html"},{"title":"get_nc – ForCAD","text":"private pure function get_nc(this, dir) result(nc) Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer Calls proc~~get_nc~~CallsGraph proc~get_nc get_nc interface~compute_multiplicity compute_multiplicity proc~get_nc->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_nc.html"},{"title":"get_ng – ForCAD","text":"private pure function get_ng(this) result(ng) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, (3)","tags":"","loc":"proc/get_ng.html"},{"title":"is_rational – ForCAD","text":"private pure function is_rational(this) result(r) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value logical Called by proc~~is_rational~~CalledByGraph proc~is_rational nurbs_volume%is_rational proc~derivative nurbs_volume%derivative proc~derivative->proc~is_rational Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/is_rational.html"},{"title":"basis – ForCAD","text":"private pure subroutine basis(this, res1, res2, res3, Xt1, Xt2, Xt3, Tgc) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 integer, intent(in), optional :: res3 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt3 (:) real(kind=rk), intent(out), allocatable :: Tgc (:,:) Calls proc~~basis~~CallsGraph proc~basis nurbs_volume%basis interface~ndgrid ndgrid proc~basis->interface~ndgrid proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/basis.html"},{"title":"cmp_degree – ForCAD","text":"private pure subroutine cmp_degree(this, dir) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: dir Calls proc~~cmp_degree~~CallsGraph proc~cmp_degree nurbs_volume%cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~get_multiplicity->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_degree~~CalledByGraph proc~cmp_degree nurbs_volume%cmp_degree proc~set1 nurbs_volume%set1 proc~set1->proc~cmp_degree proc~set3 nurbs_volume%set3 proc~set3->proc~cmp_degree none~set nurbs_volume%set none~set->proc~set1 none~set->proc~set3 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->none~set proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->none~set proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->none~set proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set program~example3_volume example3_volume program~example3_volume->none~set program~example3_volume->proc~elevate_degree program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_degree.html"},{"title":"cmp_nc – ForCAD","text":"private pure subroutine cmp_nc(this, dir) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: dir Calls proc~~cmp_nc~~CallsGraph proc~cmp_nc nurbs_volume%cmp_nc interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_nc~~CalledByGraph proc~cmp_nc nurbs_volume%cmp_nc proc~set1 nurbs_volume%set1 proc~set1->proc~cmp_nc proc~set2 nurbs_volume%set2 proc~set2->proc~cmp_nc none~set nurbs_volume%set none~set->proc~set1 none~set->proc~set2 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->none~set proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->none~set proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->none~set proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set program~example3_volume example3_volume program~example3_volume->none~set program~example3_volume->proc~elevate_degree program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_nc.html"},{"title":"create – ForCAD","text":"private pure subroutine create(this, res1, res2, res3, Xt1, Xt2, Xt3, Xt) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 integer, intent(in), optional :: res3 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt3 (:) real(kind=rk), intent(in), optional, contiguous :: Xt (:,:) Calls proc~~create~~CallsGraph proc~create nurbs_volume%create interface~ndgrid ndgrid proc~create->interface~ndgrid proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~create~~CalledByGraph proc~create nurbs_volume%create program~example3_volume example3_volume program~example3_volume->proc~create program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~create program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~create program~shape_c_3d shape_C_3d program~shape_c_3d->proc~create program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~create program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~create program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~create Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/create.html"},{"title":"derivative – ForCAD","text":"private pure subroutine derivative(this, res1, res2, res3, Xt1, Xt2, Xt3, dTgc) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 integer, intent(in), optional :: res3 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt3 (:) real(kind=rk), intent(out), allocatable :: dTgc (:,:) Calls proc~~derivative~~CallsGraph proc~derivative nurbs_volume%derivative interface~ndgrid ndgrid proc~derivative->interface~ndgrid proc~is_rational nurbs_volume%is_rational proc~derivative->proc~is_rational proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/derivative.html"},{"title":"elevate_degree – ForCAD","text":"private pure subroutine elevate_degree(this, dir, t) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in) :: dir integer, intent(in) :: t Calls proc~~elevate_degree~~CallsGraph proc~elevate_degree nurbs_volume%elevate_degree none~get_knot nurbs_volume%get_knot proc~elevate_degree->none~get_knot none~set nurbs_volume%set proc~elevate_degree->none~set proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree->proc~elevate_degree_a_5_9 proc~get_knot_all nurbs_volume%get_knot_all none~get_knot->proc~get_knot_all proc~get_knoti nurbs_volume%get_knoti none~get_knot->proc~get_knoti proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 interface~compute_multiplicity compute_multiplicity proc~elevate_degree_a_5_9->interface~compute_multiplicity proc~bincoeff bincoeff proc~elevate_degree_a_5_9->proc~bincoeff proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~factln factln proc~bincoeff->proc~factln proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~elevate_degree~~CalledByGraph proc~elevate_degree nurbs_volume%elevate_degree program~example3_volume example3_volume program~example3_volume->proc~elevate_degree Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/elevate_degree.html"},{"title":"export_Xc – ForCAD","text":"private impure subroutine export_Xc(this, filename) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this character(len=*), intent(in) :: filename Calls proc~~export_xc~~CallsGraph proc~export_xc nurbs_volume%export_Xc proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~export_xc->proc~cmp_elem_xc_vis interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~export_xc~~CalledByGraph proc~export_xc nurbs_volume%export_Xc program~example3_volume example3_volume program~example3_volume->proc~export_xc program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~export_xc program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~export_xc program~shape_c_3d shape_C_3d program~shape_c_3d->proc~export_xc program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~export_xc program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~export_xc program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~export_xc Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/export_xc.html"},{"title":"export_Xg – ForCAD","text":"private impure subroutine export_Xg(this, filename) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this character(len=*), intent(in) :: filename Calls proc~~export_xg~~CallsGraph proc~export_xg nurbs_volume%export_Xg proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~export_xg->proc~cmp_elem_xg_vis interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~export_xg~~CalledByGraph proc~export_xg nurbs_volume%export_Xg program~example3_volume example3_volume program~example3_volume->proc~export_xg program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~export_xg program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~export_xg program~shape_c_3d shape_C_3d program~shape_c_3d->proc~export_xg program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~export_xg program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~export_xg program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~export_xg Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/export_xg.html"},{"title":"finalize – ForCAD","text":"private pure subroutine finalize(this) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this Called by proc~~finalize~~CalledByGraph proc~finalize nurbs_volume%finalize program~example3_volume example3_volume program~example3_volume->proc~finalize program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~finalize program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~finalize program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~finalize program~shape_c_3d shape_C_3d program~shape_c_3d->proc~finalize program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~finalize program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~finalize program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~finalize Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/finalize.html"},{"title":"insert_knots – ForCAD","text":"private pure subroutine insert_knots(this, dir, Xth, r) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) Calls proc~~insert_knots~~CallsGraph proc~insert_knots nurbs_volume%insert_knots interface~compute_multiplicity compute_multiplicity proc~insert_knots->interface~compute_multiplicity none~get_knot nurbs_volume%get_knot proc~insert_knots->none~get_knot none~set nurbs_volume%set proc~insert_knots->none~set proc~findspan findspan proc~insert_knots->proc~findspan proc~insert_knot_a_5_1 insert_knot_A_5_1 proc~insert_knots->proc~insert_knot_a_5_1 proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_knot_all nurbs_volume%get_knot_all none~get_knot->proc~get_knot_all proc~get_knoti nurbs_volume%get_knoti none~get_knot->proc~get_knoti proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~insert_knots~~CalledByGraph proc~insert_knots nurbs_volume%insert_knots program~example3_volume example3_volume program~example3_volume->proc~insert_knots Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/insert_knots.html"},{"title":"modify_Wc – ForCAD","text":"private pure subroutine modify_Wc(this, W, num) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: W integer, intent(in) :: num Calls proc~~modify_wc~~CallsGraph proc~modify_wc nurbs_volume%modify_Wc none~get_knot nurbs_volume%get_knot proc~modify_wc->none~get_knot none~get_wc nurbs_volume%get_Wc proc~modify_wc->none~get_wc none~get_xc nurbs_volume%get_Xc proc~modify_wc->none~get_xc none~set nurbs_volume%set proc~modify_wc->none~set proc~get_knot_all nurbs_volume%get_knot_all none~get_knot->proc~get_knot_all proc~get_knoti nurbs_volume%get_knoti none~get_knot->proc~get_knoti proc~get_wc_all nurbs_volume%get_Wc_all none~get_wc->proc~get_wc_all proc~get_wci nurbs_volume%get_Wci none~get_wc->proc~get_wci proc~get_xc_all nurbs_volume%get_Xc_all none~get_xc->proc~get_xc_all proc~get_xci nurbs_volume%get_Xci none~get_xc->proc~get_xci proc~get_xcid nurbs_volume%get_Xcid none~get_xc->proc~get_xcid proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/modify_wc.html"},{"title":"modify_Xc – ForCAD","text":"private pure subroutine modify_Xc(this, X, num, dir) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: X integer, intent(in) :: num integer, intent(in) :: dir Calls proc~~modify_xc~~CallsGraph proc~modify_xc nurbs_volume%modify_Xc none~get_knot nurbs_volume%get_knot proc~modify_xc->none~get_knot none~get_wc nurbs_volume%get_Wc proc~modify_xc->none~get_wc none~get_xc nurbs_volume%get_Xc proc~modify_xc->none~get_xc none~set nurbs_volume%set proc~modify_xc->none~set proc~get_knot_all nurbs_volume%get_knot_all none~get_knot->proc~get_knot_all proc~get_knoti nurbs_volume%get_knoti none~get_knot->proc~get_knoti proc~get_wc_all nurbs_volume%get_Wc_all none~get_wc->proc~get_wc_all proc~get_wci nurbs_volume%get_Wci none~get_wc->proc~get_wci proc~get_xc_all nurbs_volume%get_Xc_all none~get_xc->proc~get_xc_all proc~get_xci nurbs_volume%get_Xci none~get_xc->proc~get_xci proc~get_xcid nurbs_volume%get_Xcid none~get_xc->proc~get_xcid proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/modify_xc.html"},{"title":"nearest_point – ForCAD","text":"private pure subroutine nearest_point(this, point_Xg, nearest_Xg, nearest_Xt, id) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this real(kind=rk), intent(in) :: point_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xt (:) integer, intent(out), optional :: id Called by proc~~nearest_point~~CalledByGraph proc~nearest_point nurbs_volume%nearest_point program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~nearest_point Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/nearest_point.html"},{"title":"put_to_nurbs – ForCAD","text":"private pure subroutine put_to_nurbs(this, X, elemConn) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: X (:,:) integer, intent(in), contiguous :: elemConn (:,:) Calls proc~~put_to_nurbs~~CallsGraph proc~put_to_nurbs nurbs_volume%put_to_nurbs proc~basis_bspline basis_bspline proc~put_to_nurbs->proc~basis_bspline proc~kron kron proc~put_to_nurbs->proc~kron proc~set_elem_xg_vis nurbs_volume%set_elem_Xg_vis proc~put_to_nurbs->proc~set_elem_xg_vis Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~put_to_nurbs~~CalledByGraph proc~put_to_nurbs nurbs_volume%put_to_nurbs program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~put_to_nurbs Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/put_to_nurbs.html"},{"title":"remove_knots – ForCAD","text":"private pure subroutine remove_knots(this, dir, Xth, r) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) Calls proc~~remove_knots~~CallsGraph proc~remove_knots nurbs_volume%remove_knots interface~compute_multiplicity compute_multiplicity proc~remove_knots->interface~compute_multiplicity none~get_knot nurbs_volume%get_knot proc~remove_knots->none~get_knot none~set nurbs_volume%set proc~remove_knots->none~set proc~findspan findspan proc~remove_knots->proc~findspan proc~remove_knots_a_5_8 remove_knots_A_5_8 proc~remove_knots->proc~remove_knots_a_5_8 proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_knot_all nurbs_volume%get_knot_all none~get_knot->proc~get_knot_all proc~get_knoti nurbs_volume%get_knoti none~get_knot->proc~get_knoti proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~remove_knots~~CalledByGraph proc~remove_knots nurbs_volume%remove_knots program~example3_volume example3_volume program~example3_volume->proc~remove_knots Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/remove_knots.html"},{"title":"rotate_Xc – ForCAD","text":"private pure subroutine rotate_Xc(this, alpha, beta, theta) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta Calls proc~~rotate_xc~~CallsGraph proc~rotate_xc nurbs_volume%rotate_Xc proc~rotation rotation proc~rotate_xc->proc~rotation cosd cosd proc~rotation->cosd sind sind proc~rotation->sind Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~rotate_xc~~CalledByGraph proc~rotate_xc nurbs_volume%rotate_Xc program~example3_volume example3_volume program~example3_volume->proc~rotate_xc Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/rotate_xc.html"},{"title":"rotate_Xg – ForCAD","text":"private pure subroutine rotate_Xg(this, alpha, beta, theta) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta Calls proc~~rotate_xg~~CallsGraph proc~rotate_xg nurbs_volume%rotate_Xg proc~rotation rotation proc~rotate_xg->proc~rotation cosd cosd proc~rotation->cosd sind sind proc~rotation->sind Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~rotate_xg~~CalledByGraph proc~rotate_xg nurbs_volume%rotate_Xg program~example3_volume example3_volume program~example3_volume->proc~rotate_xg Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/rotate_xg.html"},{"title":"set1 – ForCAD","text":"private pure subroutine set1(this, knot1, knot2, knot3, Xc, Wc) Set control points and weights for the NURBS volume object. Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: knot3 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set1~~CallsGraph proc~set1 nurbs_volume%set1 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set1~~CalledByGraph proc~set1 nurbs_volume%set1 none~set nurbs_volume%set none~set->proc~set1 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->none~set proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->none~set proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->none~set proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set program~example3_volume example3_volume program~example3_volume->none~set program~example3_volume->proc~elevate_degree program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set1.html"},{"title":"set2 – ForCAD","text":"private pure subroutine set2(this, Xth_dir1, Xth_dir2, Xth_dir3, degree, continuity1, continuity2, continuity3, Xc, Wc) Set control points and weights for the NURBS volume object. Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir1 (:) real(kind=rk), intent(in), contiguous :: Xth_dir2 (:) real(kind=rk), intent(in), contiguous :: Xth_dir3 (:) integer, intent(in), contiguous :: degree (:) integer, intent(in), contiguous :: continuity1 (:) integer, intent(in), contiguous :: continuity2 (:) integer, intent(in), contiguous :: continuity3 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set2~~CallsGraph proc~set2 nurbs_volume%set2 proc~cmp_nc nurbs_volume%cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set2~~CalledByGraph proc~set2 nurbs_volume%set2 none~set nurbs_volume%set none~set->proc~set2 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->none~set proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->none~set proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->none~set proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set program~example3_volume example3_volume program~example3_volume->none~set program~example3_volume->proc~elevate_degree program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set2.html"},{"title":"set3 – ForCAD","text":"private pure subroutine set3(this, nc, Xc, Wc) Set Bezier or Rational Bezier volume using control points and weights. Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set3~~CallsGraph proc~set3 nurbs_volume%set3 proc~cmp_degree nurbs_volume%cmp_degree proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~get_multiplicity->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set3~~CalledByGraph proc~set3 nurbs_volume%set3 none~set nurbs_volume%set none~set->proc~set3 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->none~set proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->none~set proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->none~set proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set program~example3_volume example3_volume program~example3_volume->none~set program~example3_volume->proc~elevate_degree program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set3.html"},{"title":"set_C – ForCAD","text":"private pure subroutine set_C(this, center, radius1, radius2, length) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 real(kind=rk), intent(in) :: length Calls proc~~set_c~~CallsGraph proc~set_c nurbs_volume%set_C none~set nurbs_volume%set proc~set_c->none~set proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_c~~CalledByGraph proc~set_c nurbs_volume%set_C program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_c.html"},{"title":"set_elem – ForCAD","text":"private pure subroutine set_elem(this, elemConn) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:)","tags":"","loc":"proc/set_elem.html"},{"title":"set_elem_Xc_vis – ForCAD","text":"private pure subroutine set_elem_Xc_vis(this, elemConn) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:)","tags":"","loc":"proc/set_elem_xc_vis.html"},{"title":"set_elem_Xg_vis – ForCAD","text":"private pure subroutine set_elem_Xg_vis(this, elemConn) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) Called by proc~~set_elem_xg_vis~~CalledByGraph proc~set_elem_xg_vis nurbs_volume%set_elem_Xg_vis proc~put_to_nurbs nurbs_volume%put_to_nurbs proc~put_to_nurbs->proc~set_elem_xg_vis program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~put_to_nurbs Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_elem_xg_vis.html"},{"title":"set_half_ring – ForCAD","text":"private pure subroutine set_half_ring(this, center, radius1, radius2, length) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 real(kind=rk), intent(in) :: length Calls proc~~set_half_ring~~CallsGraph proc~set_half_ring nurbs_volume%set_half_ring none~set nurbs_volume%set proc~set_half_ring->none~set proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_half_ring~~CalledByGraph proc~set_half_ring nurbs_volume%set_half_ring program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_half_ring.html"},{"title":"set_hexahedron – ForCAD","text":"private pure subroutine set_hexahedron(this, L, nc, Wc) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: L (:) integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set_hexahedron~~CallsGraph proc~set_hexahedron nurbs_volume%set_hexahedron none~set nurbs_volume%set proc~set_hexahedron->none~set proc~hexahedron_xc hexahedron_Xc proc~set_hexahedron->proc~hexahedron_xc proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_hexahedron~~CalledByGraph proc~set_hexahedron nurbs_volume%set_hexahedron program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_hexahedron.html"},{"title":"set_ring – ForCAD","text":"private pure subroutine set_ring(this, center, radius1, radius2, length) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 real(kind=rk), intent(in) :: length Calls proc~~set_ring~~CallsGraph proc~set_ring nurbs_volume%set_ring none~set nurbs_volume%set proc~set_ring->none~set proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_ring~~CalledByGraph proc~set_ring nurbs_volume%set_ring program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_ring.html"},{"title":"show – ForCAD","text":"private impure subroutine show(this, vtkfile_Xc, vtkfile_Xg) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this character(len=*), intent(in) :: vtkfile_Xc character(len=*), intent(in) :: vtkfile_Xg Called by proc~~show~~CalledByGraph proc~show nurbs_volume%show program~example3_volume example3_volume program~example3_volume->proc~show program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~show program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~show program~shape_c_3d shape_C_3d program~shape_c_3d->proc~show program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~show program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~show program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~show Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/show.html"},{"title":"translate_Xc – ForCAD","text":"private pure subroutine translate_Xc(this, vec) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) Called by proc~~translate_xc~~CalledByGraph proc~translate_xc nurbs_volume%translate_Xc program~example3_volume example3_volume program~example3_volume->proc~translate_xc Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/translate_xc.html"},{"title":"translate_Xg – ForCAD","text":"private pure subroutine translate_Xg(this, vec) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) Called by proc~~translate_xg~~CalledByGraph proc~translate_xg nurbs_volume%translate_Xg program~example3_volume example3_volume program~example3_volume->proc~translate_xg Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/translate_xg.html"},{"title":"generate_Xc – ForCAD","text":"function generate_Xc(num_coils, radius, height, num_points_per_coil) result(control_points) Arguments Type Intent Optional Attributes Name integer, intent(in) :: num_coils real(kind=rk), intent(in) :: radius real(kind=rk), intent(in) :: height integer, intent(in) :: num_points_per_coil Return Value real(kind=rk), allocatable, (:,:) Called by proc~~generate_xc~3~~CalledByGraph proc~generate_xc~3 generate_Xc program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~generate_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/generate_xc~3.html"},{"title":"generate_Xc – ForCAD","text":"function generate_Xc(num_rows, num_cols, peak_height) result(control_points) Arguments Type Intent Optional Attributes Name integer, intent(in) :: num_rows integer, intent(in) :: num_cols real(kind=rk), intent(in) :: peak_height Return Value real(kind=rk), allocatable, (:,:) Called by proc~~generate_xc~4~~CalledByGraph proc~generate_xc~4 generate_Xc program~example3_surface example3_surface program~example3_surface->proc~generate_xc~4 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/generate_xc~4.html"},{"title":"cmp_elem – ForCAD","text":"private pure function cmp_elem(this) result(elemConn) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:) Calls proc~~cmp_elem~2~~CallsGraph proc~cmp_elem~2 nurbs_curve%cmp_elem interface~elemconn_cn elemConn_Cn proc~cmp_elem~2->interface~elemconn_cn interface~unique unique proc~cmp_elem~2->interface~unique proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~cmp_elem~2->proc~get_multiplicity~2 proc~cmp_elemconn_cn_l cmp_elemConn_Cn_L interface~elemconn_cn->proc~cmp_elemconn_cn_l proc~cmp_elemconn_cn_s cmp_elemConn_Cn_S interface~elemconn_cn->proc~cmp_elemconn_cn_s proc~cmp_elemconn_cn_v cmp_elemConn_Cn_V interface~elemconn_cn->proc~cmp_elemconn_cn_v proc~unique_integer unique_integer interface~unique->proc~unique_integer proc~unique_real unique_real interface~unique->proc~unique_real interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elem~2.html"},{"title":"cmp_elem_Xc_vis – ForCAD","text":"private pure function cmp_elem_Xc_vis(this, p) result(elemConn) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in), optional :: p Return Value integer, allocatable, (:,:) Calls proc~~cmp_elem_xc_vis~2~~CallsGraph proc~cmp_elem_xc_vis~2 nurbs_curve%cmp_elem_Xc_vis interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_elem_xc_vis~2~~CalledByGraph proc~cmp_elem_xc_vis~2 nurbs_curve%cmp_elem_Xc_vis proc~export_xc~2 nurbs_curve%export_Xc proc~export_xc~2->proc~cmp_elem_xc_vis~2 program~example1_curve example1_curve program~example1_curve->proc~export_xc~2 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~export_xc~2 program~shape_c_1d shape_C_1d program~shape_c_1d->proc~export_xc~2 program~shape_circle shape_circle program~shape_circle->proc~export_xc~2 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~export_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elem_xc_vis~2.html"},{"title":"cmp_elem_Xg_vis – ForCAD","text":"private pure function cmp_elem_Xg_vis(this, p) result(elemConn) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in), optional :: p Return Value integer, allocatable, (:,:) Calls proc~~cmp_elem_xg_vis~2~~CallsGraph proc~cmp_elem_xg_vis~2 nurbs_curve%cmp_elem_Xg_vis interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_elem_xg_vis~2~~CalledByGraph proc~cmp_elem_xg_vis~2 nurbs_curve%cmp_elem_Xg_vis proc~export_xg~2 nurbs_curve%export_Xg proc~export_xg~2->proc~cmp_elem_xg_vis~2 program~example1_curve example1_curve program~example1_curve->proc~export_xg~2 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~export_xg~2 program~shape_c_1d shape_C_1d program~shape_c_1d->proc~export_xg~2 program~shape_circle shape_circle program~shape_circle->proc~export_xg~2 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~export_xg~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elem_xg_vis~2.html"},{"title":"get_Wc_all – ForCAD","text":"private pure function get_Wc_all(this) result(Wc) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) Called by proc~~get_wc_all~2~~CalledByGraph proc~get_wc_all~2 nurbs_curve%get_Wc_all none~get_wc~2 nurbs_curve%get_Wc none~get_wc~2->proc~get_wc_all~2 proc~modify_wc~2 nurbs_curve%modify_Wc proc~modify_wc~2->none~get_wc~2 proc~modify_xc~2 nurbs_curve%modify_Xc proc~modify_xc~2->none~get_wc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_wc_all~2.html"},{"title":"get_Wci – ForCAD","text":"private pure function get_Wci(this, n) result(Wc) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) Called by proc~~get_wci~2~~CalledByGraph proc~get_wci~2 nurbs_curve%get_Wci none~get_wc~2 nurbs_curve%get_Wc none~get_wc~2->proc~get_wci~2 proc~modify_wc~2 nurbs_curve%modify_Wc proc~modify_wc~2->none~get_wc~2 proc~modify_xc~2 nurbs_curve%modify_Xc proc~modify_xc~2->none~get_wc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_wci~2.html"},{"title":"get_Xc_all – ForCAD","text":"private pure function get_Xc_all(this) result(Xc) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) Called by proc~~get_xc_all~2~~CalledByGraph proc~get_xc_all~2 nurbs_curve%get_Xc_all none~get_xc~2 nurbs_curve%get_Xc none~get_xc~2->proc~get_xc_all~2 proc~modify_wc~2 nurbs_curve%modify_Wc proc~modify_wc~2->none~get_xc~2 proc~modify_xc~2 nurbs_curve%modify_Xc proc~modify_xc~2->none~get_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xc_all~2.html"},{"title":"get_Xci – ForCAD","text":"private pure function get_Xci(this, n) result(Xc) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) Called by proc~~get_xci~2~~CalledByGraph proc~get_xci~2 nurbs_curve%get_Xci none~get_xc~2 nurbs_curve%get_Xc none~get_xc~2->proc~get_xci~2 proc~modify_wc~2 nurbs_curve%modify_Wc proc~modify_wc~2->none~get_xc~2 proc~modify_xc~2 nurbs_curve%modify_Xc proc~modify_xc~2->none~get_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xci~2.html"},{"title":"get_Xcid – ForCAD","text":"private pure function get_Xcid(this, n, dir) result(Xc) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) Called by proc~~get_xcid~2~~CalledByGraph proc~get_xcid~2 nurbs_curve%get_Xcid none~get_xc~2 nurbs_curve%get_Xc none~get_xc~2->proc~get_xcid~2 proc~modify_wc~2 nurbs_curve%modify_Wc proc~modify_wc~2->none~get_xc~2 proc~modify_xc~2 nurbs_curve%modify_Xc proc~modify_xc~2->none~get_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xcid~2.html"},{"title":"get_Xg_all – ForCAD","text":"private pure function get_Xg_all(this) result(Xg) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:)","tags":"","loc":"proc/get_xg_all~2.html"},{"title":"get_Xgi – ForCAD","text":"private pure function get_Xgi(this, n) result(Xg) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:)","tags":"","loc":"proc/get_xgi~2.html"},{"title":"get_Xgid – ForCAD","text":"private pure function get_Xgid(this, n, dir) result(Xg) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk)","tags":"","loc":"proc/get_xgid~2.html"},{"title":"get_Xt – ForCAD","text":"private pure function get_Xt(this) result(Xt) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:)","tags":"","loc":"proc/get_xt~2.html"},{"title":"get_continuity – ForCAD","text":"private pure function get_continuity(this) result(c) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:) Calls proc~~get_continuity~2~~CallsGraph proc~get_continuity~2 nurbs_curve%get_continuity interface~compute_multiplicity compute_multiplicity proc~get_continuity~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_continuity~2.html"},{"title":"get_degree – ForCAD","text":"private pure function get_degree(this) result(degree) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer Called by proc~~get_degree~~CalledByGraph proc~get_degree nurbs_curve%get_degree program~example1_curve example1_curve program~example1_curve->proc~get_degree Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_degree.html"},{"title":"get_elem – ForCAD","text":"private pure function get_elem(this) result(elemConn) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:)","tags":"","loc":"proc/get_elem~2.html"},{"title":"get_elem_Xc_vis – ForCAD","text":"private pure function get_elem_Xc_vis(this) result(elemConn) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:)","tags":"","loc":"proc/get_elem_xc_vis~2.html"},{"title":"get_elem_Xg_vis – ForCAD","text":"private pure function get_elem_Xg_vis(this) result(elemConn) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:)","tags":"","loc":"proc/get_elem_xg_vis~2.html"},{"title":"get_knot_all – ForCAD","text":"private pure function get_knot_all(this) result(knot) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) Called by proc~~get_knot_all~2~~CalledByGraph proc~get_knot_all~2 nurbs_curve%get_knot_all none~get_knot~2 nurbs_curve%get_knot none~get_knot~2->proc~get_knot_all~2 proc~modify_wc~2 nurbs_curve%modify_Wc proc~modify_wc~2->none~get_knot~2 proc~modify_xc~2 nurbs_curve%modify_Xc proc~modify_xc~2->none~get_knot~2 program~example1_curve example1_curve program~example1_curve->none~get_knot~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_knot_all~2.html"},{"title":"get_knoti – ForCAD","text":"private pure function get_knoti(this, i) result(knot) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: i Return Value real(kind=rk) Called by proc~~get_knoti~2~~CalledByGraph proc~get_knoti~2 nurbs_curve%get_knoti none~get_knot~2 nurbs_curve%get_knot none~get_knot~2->proc~get_knoti~2 proc~modify_wc~2 nurbs_curve%modify_Wc proc~modify_wc~2->none~get_knot~2 proc~modify_xc~2 nurbs_curve%modify_Xc proc~modify_xc~2->none~get_knot~2 program~example1_curve example1_curve program~example1_curve->none~get_knot~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_knoti~2.html"},{"title":"get_multiplicity – ForCAD","text":"private pure function get_multiplicity(this) result(m) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:) Calls proc~~get_multiplicity~2~~CallsGraph proc~get_multiplicity~2 nurbs_curve%get_multiplicity interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~get_multiplicity~2~~CalledByGraph proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~cmp_degree~2 nurbs_curve%cmp_degree proc~cmp_degree~2->proc~get_multiplicity~2 proc~cmp_elem~2 nurbs_curve%cmp_elem proc~cmp_elem~2->proc~get_multiplicity~2 proc~set1~2 nurbs_curve%set1 proc~set1~2->proc~cmp_degree~2 proc~set3~2 nurbs_curve%set3 proc~set3~2->proc~cmp_degree~2 none~set~2 nurbs_curve%set none~set~2->proc~set1~2 none~set~2->proc~set3~2 proc~elevate_degree~2 nurbs_curve%elevate_degree proc~elevate_degree~2->none~set~2 proc~insert_knots~2 nurbs_curve%insert_knots proc~insert_knots~2->none~set~2 proc~modify_wc~2 nurbs_curve%modify_Wc proc~modify_wc~2->none~set~2 proc~modify_xc~2 nurbs_curve%modify_Xc proc~modify_xc~2->none~set~2 proc~remove_knots~2 nurbs_curve%remove_knots proc~remove_knots~2->none~set~2 proc~set_circle nurbs_curve%set_circle proc~set_circle->none~set~2 proc~set_c~2 nurbs_curve%set_C proc~set_c~2->none~set~2 proc~set_half_circle nurbs_curve%set_half_circle proc~set_half_circle->none~set~2 program~example1_curve example1_curve program~example1_curve->none~set~2 program~example1_curve->proc~elevate_degree~2 program~example1_curve->proc~insert_knots~2 program~example1_curve->proc~remove_knots~2 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->none~set~2 program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~2 program~shape_circle shape_circle program~shape_circle->proc~set_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_multiplicity~2.html"},{"title":"get_nc – ForCAD","text":"private pure function get_nc(this) result(nc) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer","tags":"","loc":"proc/get_nc~2.html"},{"title":"get_ng – ForCAD","text":"private pure function get_ng(this) result(ng) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer","tags":"","loc":"proc/get_ng~2.html"},{"title":"is_rational – ForCAD","text":"private pure function is_rational(this) result(r) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value logical Called by proc~~is_rational~2~~CalledByGraph proc~is_rational~2 nurbs_curve%is_rational proc~basis~2 nurbs_curve%basis proc~basis~2->proc~is_rational~2 proc~create~2 nurbs_curve%create proc~create~2->proc~is_rational~2 proc~derivative~2 nurbs_curve%derivative proc~derivative~2->proc~is_rational~2 proc~elevate_degree~2 nurbs_curve%elevate_degree proc~elevate_degree~2->proc~is_rational~2 proc~insert_knots~2 nurbs_curve%insert_knots proc~insert_knots~2->proc~is_rational~2 proc~remove_knots~2 nurbs_curve%remove_knots proc~remove_knots~2->proc~is_rational~2 program~example1_curve example1_curve program~example1_curve->proc~create~2 program~example1_curve->proc~elevate_degree~2 program~example1_curve->proc~insert_knots~2 program~example1_curve->proc~remove_knots~2 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~create~2 program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~create~2 program~shape_c_1d shape_C_1d program~shape_c_1d->proc~create~2 program~shape_circle shape_circle program~shape_circle->proc~create~2 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~create~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/is_rational~2.html"},{"title":"basis – ForCAD","text":"private pure subroutine basis(this, res, Xt, Tgc) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), optional :: res real(kind=rk), intent(in), optional, contiguous :: Xt (:) real(kind=rk), intent(out), allocatable :: Tgc (:,:) Calls proc~~basis~2~~CallsGraph proc~basis~2 nurbs_curve%basis proc~is_rational~2 nurbs_curve%is_rational proc~basis~2->proc~is_rational~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/basis~2.html"},{"title":"cmp_degree – ForCAD","text":"private pure subroutine cmp_degree(this) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this Calls proc~~cmp_degree~2~~CallsGraph proc~cmp_degree~2 nurbs_curve%cmp_degree proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_degree~2~~CalledByGraph proc~cmp_degree~2 nurbs_curve%cmp_degree proc~set1~2 nurbs_curve%set1 proc~set1~2->proc~cmp_degree~2 proc~set3~2 nurbs_curve%set3 proc~set3~2->proc~cmp_degree~2 none~set~2 nurbs_curve%set none~set~2->proc~set1~2 none~set~2->proc~set3~2 proc~elevate_degree~2 nurbs_curve%elevate_degree proc~elevate_degree~2->none~set~2 proc~insert_knots~2 nurbs_curve%insert_knots proc~insert_knots~2->none~set~2 proc~modify_wc~2 nurbs_curve%modify_Wc proc~modify_wc~2->none~set~2 proc~modify_xc~2 nurbs_curve%modify_Xc proc~modify_xc~2->none~set~2 proc~remove_knots~2 nurbs_curve%remove_knots proc~remove_knots~2->none~set~2 proc~set_circle nurbs_curve%set_circle proc~set_circle->none~set~2 proc~set_c~2 nurbs_curve%set_C proc~set_c~2->none~set~2 proc~set_half_circle nurbs_curve%set_half_circle proc~set_half_circle->none~set~2 program~example1_curve example1_curve program~example1_curve->none~set~2 program~example1_curve->proc~elevate_degree~2 program~example1_curve->proc~insert_knots~2 program~example1_curve->proc~remove_knots~2 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->none~set~2 program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~2 program~shape_circle shape_circle program~shape_circle->proc~set_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_degree~2.html"},{"title":"cmp_nc – ForCAD","text":"private pure subroutine cmp_nc(this) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this Calls proc~~cmp_nc~2~~CallsGraph proc~cmp_nc~2 nurbs_curve%cmp_nc interface~compute_multiplicity compute_multiplicity proc~cmp_nc~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_nc~2.html"},{"title":"create – ForCAD","text":"private pure subroutine create(this, res, Xt) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), optional :: res real(kind=rk), intent(in), optional, contiguous :: Xt (:) Calls proc~~create~2~~CallsGraph proc~create~2 nurbs_curve%create proc~is_rational~2 nurbs_curve%is_rational proc~create~2->proc~is_rational~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~create~2~~CalledByGraph proc~create~2 nurbs_curve%create program~example1_curve example1_curve program~example1_curve->proc~create~2 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~create~2 program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~create~2 program~shape_c_1d shape_C_1d program~shape_c_1d->proc~create~2 program~shape_circle shape_circle program~shape_circle->proc~create~2 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~create~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/create~2.html"},{"title":"derivative – ForCAD","text":"private pure subroutine derivative(this, res, Xt, dTgc) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), optional :: res real(kind=rk), intent(in), optional, contiguous :: Xt (:) real(kind=rk), intent(out), allocatable :: dTgc (:,:) Calls proc~~derivative~2~~CallsGraph proc~derivative~2 nurbs_curve%derivative proc~is_rational~2 nurbs_curve%is_rational proc~derivative~2->proc~is_rational~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/derivative~2.html"},{"title":"elevate_degree – ForCAD","text":"private pure subroutine elevate_degree(this, t) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in) :: t Calls proc~~elevate_degree~2~~CallsGraph proc~elevate_degree~2 nurbs_curve%elevate_degree none~set~2 nurbs_curve%set proc~elevate_degree~2->none~set~2 proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree~2->proc~elevate_degree_a_5_9 proc~is_rational~2 nurbs_curve%is_rational proc~elevate_degree~2->proc~is_rational~2 proc~set1~2 nurbs_curve%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_curve%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_curve%set3 none~set~2->proc~set3~2 interface~compute_multiplicity compute_multiplicity proc~elevate_degree_a_5_9->interface~compute_multiplicity proc~bincoeff bincoeff proc~elevate_degree_a_5_9->proc~bincoeff proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~factln factln proc~bincoeff->proc~factln proc~cmp_degree~2 nurbs_curve%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~elevate_degree~2~~CalledByGraph proc~elevate_degree~2 nurbs_curve%elevate_degree program~example1_curve example1_curve program~example1_curve->proc~elevate_degree~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/elevate_degree~2.html"},{"title":"export_Xc – ForCAD","text":"private impure subroutine export_Xc(this, filename) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this character(len=*), intent(in) :: filename Calls proc~~export_xc~2~~CallsGraph proc~export_xc~2 nurbs_curve%export_Xc proc~cmp_elem_xc_vis~2 nurbs_curve%cmp_elem_Xc_vis proc~export_xc~2->proc~cmp_elem_xc_vis~2 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~export_xc~2~~CalledByGraph proc~export_xc~2 nurbs_curve%export_Xc program~example1_curve example1_curve program~example1_curve->proc~export_xc~2 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~export_xc~2 program~shape_c_1d shape_C_1d program~shape_c_1d->proc~export_xc~2 program~shape_circle shape_circle program~shape_circle->proc~export_xc~2 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~export_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/export_xc~2.html"},{"title":"export_Xg – ForCAD","text":"private impure subroutine export_Xg(this, filename) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this character(len=*), intent(in) :: filename Calls proc~~export_xg~2~~CallsGraph proc~export_xg~2 nurbs_curve%export_Xg proc~cmp_elem_xg_vis~2 nurbs_curve%cmp_elem_Xg_vis proc~export_xg~2->proc~cmp_elem_xg_vis~2 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~export_xg~2~~CalledByGraph proc~export_xg~2 nurbs_curve%export_Xg program~example1_curve example1_curve program~example1_curve->proc~export_xg~2 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~export_xg~2 program~shape_c_1d shape_C_1d program~shape_c_1d->proc~export_xg~2 program~shape_circle shape_circle program~shape_circle->proc~export_xg~2 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~export_xg~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/export_xg~2.html"},{"title":"finalize – ForCAD","text":"private pure subroutine finalize(this) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this Called by proc~~finalize~2~~CalledByGraph proc~finalize~2 nurbs_curve%finalize program~example1_curve example1_curve program~example1_curve->proc~finalize~2 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~finalize~2 program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~finalize~2 program~shape_c_1d shape_C_1d program~shape_c_1d->proc~finalize~2 program~shape_circle shape_circle program~shape_circle->proc~finalize~2 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~finalize~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/finalize~2.html"},{"title":"insert_knots – ForCAD","text":"private pure subroutine insert_knots(this, Xth, r) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) Calls proc~~insert_knots~2~~CallsGraph proc~insert_knots~2 nurbs_curve%insert_knots interface~compute_multiplicity compute_multiplicity proc~insert_knots~2->interface~compute_multiplicity none~set~2 nurbs_curve%set proc~insert_knots~2->none~set~2 proc~findspan findspan proc~insert_knots~2->proc~findspan proc~insert_knot_a_5_1 insert_knot_A_5_1 proc~insert_knots~2->proc~insert_knot_a_5_1 proc~is_rational~2 nurbs_curve%is_rational proc~insert_knots~2->proc~is_rational~2 proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~set1~2 nurbs_curve%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_curve%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_curve%set3 none~set~2->proc~set3~2 proc~cmp_degree~2 nurbs_curve%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~insert_knots~2~~CalledByGraph proc~insert_knots~2 nurbs_curve%insert_knots program~example1_curve example1_curve program~example1_curve->proc~insert_knots~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/insert_knots~2.html"},{"title":"modify_Wc – ForCAD","text":"private pure subroutine modify_Wc(this, W, num) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: W integer, intent(in) :: num Calls proc~~modify_wc~2~~CallsGraph proc~modify_wc~2 nurbs_curve%modify_Wc none~get_knot~2 nurbs_curve%get_knot proc~modify_wc~2->none~get_knot~2 none~get_wc~2 nurbs_curve%get_Wc proc~modify_wc~2->none~get_wc~2 none~get_xc~2 nurbs_curve%get_Xc proc~modify_wc~2->none~get_xc~2 none~set~2 nurbs_curve%set proc~modify_wc~2->none~set~2 proc~get_knot_all~2 nurbs_curve%get_knot_all none~get_knot~2->proc~get_knot_all~2 proc~get_knoti~2 nurbs_curve%get_knoti none~get_knot~2->proc~get_knoti~2 proc~get_wc_all~2 nurbs_curve%get_Wc_all none~get_wc~2->proc~get_wc_all~2 proc~get_wci~2 nurbs_curve%get_Wci none~get_wc~2->proc~get_wci~2 proc~get_xc_all~2 nurbs_curve%get_Xc_all none~get_xc~2->proc~get_xc_all~2 proc~get_xcid~2 nurbs_curve%get_Xcid none~get_xc~2->proc~get_xcid~2 proc~get_xci~2 nurbs_curve%get_Xci none~get_xc~2->proc~get_xci~2 proc~set1~2 nurbs_curve%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_curve%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_curve%set3 none~set~2->proc~set3~2 proc~cmp_degree~2 nurbs_curve%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 proc~repelem repelem proc~compute_knot_vector->proc~repelem interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/modify_wc~2.html"},{"title":"modify_Xc – ForCAD","text":"private pure subroutine modify_Xc(this, X, num, dir) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: X integer, intent(in) :: num integer, intent(in) :: dir Calls proc~~modify_xc~2~~CallsGraph proc~modify_xc~2 nurbs_curve%modify_Xc none~get_knot~2 nurbs_curve%get_knot proc~modify_xc~2->none~get_knot~2 none~get_wc~2 nurbs_curve%get_Wc proc~modify_xc~2->none~get_wc~2 none~get_xc~2 nurbs_curve%get_Xc proc~modify_xc~2->none~get_xc~2 none~set~2 nurbs_curve%set proc~modify_xc~2->none~set~2 proc~get_knot_all~2 nurbs_curve%get_knot_all none~get_knot~2->proc~get_knot_all~2 proc~get_knoti~2 nurbs_curve%get_knoti none~get_knot~2->proc~get_knoti~2 proc~get_wc_all~2 nurbs_curve%get_Wc_all none~get_wc~2->proc~get_wc_all~2 proc~get_wci~2 nurbs_curve%get_Wci none~get_wc~2->proc~get_wci~2 proc~get_xc_all~2 nurbs_curve%get_Xc_all none~get_xc~2->proc~get_xc_all~2 proc~get_xcid~2 nurbs_curve%get_Xcid none~get_xc~2->proc~get_xcid~2 proc~get_xci~2 nurbs_curve%get_Xci none~get_xc~2->proc~get_xci~2 proc~set1~2 nurbs_curve%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_curve%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_curve%set3 none~set~2->proc~set3~2 proc~cmp_degree~2 nurbs_curve%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 proc~repelem repelem proc~compute_knot_vector->proc~repelem interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/modify_xc~2.html"},{"title":"nearest_point – ForCAD","text":"private pure subroutine nearest_point(this, point_Xg, nearest_Xg, nearest_Xt, id) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this real(kind=rk), intent(in) :: point_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xg (:) real(kind=rk), intent(out), optional :: nearest_Xt integer, intent(out), optional :: id Called by proc~~nearest_point~2~~CalledByGraph proc~nearest_point~2 nurbs_curve%nearest_point program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~nearest_point~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/nearest_point~2.html"},{"title":"remove_knots – ForCAD","text":"private pure subroutine remove_knots(this, Xth, r) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) Calls proc~~remove_knots~2~~CallsGraph proc~remove_knots~2 nurbs_curve%remove_knots interface~compute_multiplicity compute_multiplicity proc~remove_knots~2->interface~compute_multiplicity none~set~2 nurbs_curve%set proc~remove_knots~2->none~set~2 proc~findspan findspan proc~remove_knots~2->proc~findspan proc~is_rational~2 nurbs_curve%is_rational proc~remove_knots~2->proc~is_rational~2 proc~remove_knots_a_5_8 remove_knots_A_5_8 proc~remove_knots~2->proc~remove_knots_a_5_8 proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~set1~2 nurbs_curve%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_curve%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_curve%set3 none~set~2->proc~set3~2 proc~cmp_degree~2 nurbs_curve%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~remove_knots~2~~CalledByGraph proc~remove_knots~2 nurbs_curve%remove_knots program~example1_curve example1_curve program~example1_curve->proc~remove_knots~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/remove_knots~2.html"},{"title":"rotate_Xc – ForCAD","text":"private pure subroutine rotate_Xc(this, alpha, beta, theta) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta Calls proc~~rotate_xc~2~~CallsGraph proc~rotate_xc~2 nurbs_curve%rotate_Xc proc~rotation rotation proc~rotate_xc~2->proc~rotation cosd cosd proc~rotation->cosd sind sind proc~rotation->sind Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~rotate_xc~2~~CalledByGraph proc~rotate_xc~2 nurbs_curve%rotate_Xc program~example1_curve example1_curve program~example1_curve->proc~rotate_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/rotate_xc~2.html"},{"title":"rotate_Xg – ForCAD","text":"private pure subroutine rotate_Xg(this, alpha, beta, theta) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta Calls proc~~rotate_xg~2~~CallsGraph proc~rotate_xg~2 nurbs_curve%rotate_Xg proc~rotation rotation proc~rotate_xg~2->proc~rotation cosd cosd proc~rotation->cosd sind sind proc~rotation->sind Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~rotate_xg~2~~CalledByGraph proc~rotate_xg~2 nurbs_curve%rotate_Xg program~example1_curve example1_curve program~example1_curve->proc~rotate_xg~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/rotate_xg~2.html"},{"title":"set1 – ForCAD","text":"private pure subroutine set1(this, knot, Xc, Wc) Set knot vector, control points and weights for the NURBS curve object. Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set1~2~~CallsGraph proc~set1~2 nurbs_curve%set1 proc~cmp_degree~2 nurbs_curve%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set1~2~~CalledByGraph proc~set1~2 nurbs_curve%set1 none~set~2 nurbs_curve%set none~set~2->proc~set1~2 proc~elevate_degree~2 nurbs_curve%elevate_degree proc~elevate_degree~2->none~set~2 proc~insert_knots~2 nurbs_curve%insert_knots proc~insert_knots~2->none~set~2 proc~modify_wc~2 nurbs_curve%modify_Wc proc~modify_wc~2->none~set~2 proc~modify_xc~2 nurbs_curve%modify_Xc proc~modify_xc~2->none~set~2 proc~remove_knots~2 nurbs_curve%remove_knots proc~remove_knots~2->none~set~2 proc~set_circle nurbs_curve%set_circle proc~set_circle->none~set~2 proc~set_c~2 nurbs_curve%set_C proc~set_c~2->none~set~2 proc~set_half_circle nurbs_curve%set_half_circle proc~set_half_circle->none~set~2 program~example1_curve example1_curve program~example1_curve->none~set~2 program~example1_curve->proc~elevate_degree~2 program~example1_curve->proc~insert_knots~2 program~example1_curve->proc~remove_knots~2 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->none~set~2 program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~2 program~shape_circle shape_circle program~shape_circle->proc~set_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set1~2.html"},{"title":"set2 – ForCAD","text":"private pure subroutine set2(this, Xth_dir, degree, continuity, Xc, Wc) Set NURBS curve using nodes of parameter space (Xth), degree, continuity, control points and weights. Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir (:) integer, intent(in) :: degree integer, intent(in), contiguous :: continuity (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set2~2~~CallsGraph proc~set2~2 nurbs_curve%set2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~repelem repelem proc~compute_knot_vector->proc~repelem Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set2~2~~CalledByGraph proc~set2~2 nurbs_curve%set2 none~set~2 nurbs_curve%set none~set~2->proc~set2~2 proc~elevate_degree~2 nurbs_curve%elevate_degree proc~elevate_degree~2->none~set~2 proc~insert_knots~2 nurbs_curve%insert_knots proc~insert_knots~2->none~set~2 proc~modify_wc~2 nurbs_curve%modify_Wc proc~modify_wc~2->none~set~2 proc~modify_xc~2 nurbs_curve%modify_Xc proc~modify_xc~2->none~set~2 proc~remove_knots~2 nurbs_curve%remove_knots proc~remove_knots~2->none~set~2 proc~set_circle nurbs_curve%set_circle proc~set_circle->none~set~2 proc~set_c~2 nurbs_curve%set_C proc~set_c~2->none~set~2 proc~set_half_circle nurbs_curve%set_half_circle proc~set_half_circle->none~set~2 program~example1_curve example1_curve program~example1_curve->none~set~2 program~example1_curve->proc~elevate_degree~2 program~example1_curve->proc~insert_knots~2 program~example1_curve->proc~remove_knots~2 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->none~set~2 program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~2 program~shape_circle shape_circle program~shape_circle->proc~set_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set2~2.html"},{"title":"set3 – ForCAD","text":"private pure subroutine set3(this, Xc, Wc) Set Bezier or Rational Bezier curve using control points and weights. Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set3~2~~CallsGraph proc~set3~2 nurbs_curve%set3 proc~cmp_degree~2 nurbs_curve%cmp_degree proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set3~2~~CalledByGraph proc~set3~2 nurbs_curve%set3 none~set~2 nurbs_curve%set none~set~2->proc~set3~2 proc~elevate_degree~2 nurbs_curve%elevate_degree proc~elevate_degree~2->none~set~2 proc~insert_knots~2 nurbs_curve%insert_knots proc~insert_knots~2->none~set~2 proc~modify_wc~2 nurbs_curve%modify_Wc proc~modify_wc~2->none~set~2 proc~modify_xc~2 nurbs_curve%modify_Xc proc~modify_xc~2->none~set~2 proc~remove_knots~2 nurbs_curve%remove_knots proc~remove_knots~2->none~set~2 proc~set_circle nurbs_curve%set_circle proc~set_circle->none~set~2 proc~set_c~2 nurbs_curve%set_C proc~set_c~2->none~set~2 proc~set_half_circle nurbs_curve%set_half_circle proc~set_half_circle->none~set~2 program~example1_curve example1_curve program~example1_curve->none~set~2 program~example1_curve->proc~elevate_degree~2 program~example1_curve->proc~insert_knots~2 program~example1_curve->proc~remove_knots~2 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->none~set~2 program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~2 program~shape_circle shape_circle program~shape_circle->proc~set_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set3~2.html"},{"title":"set_C – ForCAD","text":"private pure subroutine set_C(this, center, radius) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius Calls proc~~set_c~2~~CallsGraph proc~set_c~2 nurbs_curve%set_C none~set~2 nurbs_curve%set proc~set_c~2->none~set~2 proc~set1~2 nurbs_curve%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_curve%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_curve%set3 none~set~2->proc~set3~2 proc~cmp_degree~2 nurbs_curve%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 proc~repelem repelem proc~compute_knot_vector->proc~repelem interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_c~2~~CalledByGraph proc~set_c~2 nurbs_curve%set_C program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_c~2.html"},{"title":"set_circle – ForCAD","text":"private pure subroutine set_circle(this, center, radius) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius Calls proc~~set_circle~~CallsGraph proc~set_circle nurbs_curve%set_circle none~set~2 nurbs_curve%set proc~set_circle->none~set~2 proc~set1~2 nurbs_curve%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_curve%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_curve%set3 none~set~2->proc~set3~2 proc~cmp_degree~2 nurbs_curve%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 proc~repelem repelem proc~compute_knot_vector->proc~repelem interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_circle~~CalledByGraph proc~set_circle nurbs_curve%set_circle program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~shape_circle shape_circle program~shape_circle->proc~set_circle Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_circle.html"},{"title":"set_elem – ForCAD","text":"private pure subroutine set_elem(this, elemConn) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:)","tags":"","loc":"proc/set_elem~2.html"},{"title":"set_elem_Xc_vis – ForCAD","text":"private pure subroutine set_elem_Xc_vis(this, elemConn) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:)","tags":"","loc":"proc/set_elem_xc_vis~2.html"},{"title":"set_elem_Xg_vis – ForCAD","text":"private pure subroutine set_elem_Xg_vis(this, elemConn) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:)","tags":"","loc":"proc/set_elem_xg_vis~2.html"},{"title":"set_half_circle – ForCAD","text":"private pure subroutine set_half_circle(this, center, radius) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius Calls proc~~set_half_circle~~CallsGraph proc~set_half_circle nurbs_curve%set_half_circle none~set~2 nurbs_curve%set proc~set_half_circle->none~set~2 proc~set1~2 nurbs_curve%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_curve%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_curve%set3 none~set~2->proc~set3~2 proc~cmp_degree~2 nurbs_curve%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 proc~repelem repelem proc~compute_knot_vector->proc~repelem interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_half_circle~~CalledByGraph proc~set_half_circle nurbs_curve%set_half_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_half_circle.html"},{"title":"show – ForCAD","text":"private impure subroutine show(this, vtkfile_Xc, vtkfile_Xg) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this character(len=*), intent(in) :: vtkfile_Xc character(len=*), intent(in) :: vtkfile_Xg Called by proc~~show~2~~CalledByGraph proc~show~2 nurbs_curve%show program~example1_curve example1_curve program~example1_curve->proc~show~2 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~show~2 program~shape_c_1d shape_C_1d program~shape_c_1d->proc~show~2 program~shape_circle shape_circle program~shape_circle->proc~show~2 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~show~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/show~2.html"},{"title":"translate_Xc – ForCAD","text":"private pure subroutine translate_Xc(this, vec) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) Called by proc~~translate_xc~2~~CalledByGraph proc~translate_xc~2 nurbs_curve%translate_Xc program~example1_curve example1_curve program~example1_curve->proc~translate_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/translate_xc~2.html"},{"title":"translate_Xg – ForCAD","text":"private pure subroutine translate_Xg(this, vec) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) Called by proc~~translate_xg~2~~CalledByGraph proc~translate_xg~2 nurbs_curve%translate_Xg program~example1_curve example1_curve program~example1_curve->proc~translate_xg~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/translate_xg~2.html"},{"title":"cmp_elem – ForCAD","text":"private pure function cmp_elem(this) result(elemConn) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:) Calls proc~~cmp_elem~3~~CallsGraph proc~cmp_elem~3 nurbs_surface%cmp_elem interface~elemconn_cn elemConn_Cn proc~cmp_elem~3->interface~elemconn_cn interface~unique unique proc~cmp_elem~3->interface~unique proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_elem~3->proc~get_multiplicity~3 proc~cmp_elemconn_cn_l cmp_elemConn_Cn_L interface~elemconn_cn->proc~cmp_elemconn_cn_l proc~cmp_elemconn_cn_s cmp_elemConn_Cn_S interface~elemconn_cn->proc~cmp_elemconn_cn_s proc~cmp_elemconn_cn_v cmp_elemConn_Cn_V interface~elemconn_cn->proc~cmp_elemconn_cn_v proc~unique_integer unique_integer interface~unique->proc~unique_integer proc~unique_real unique_real interface~unique->proc~unique_real interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elem~3.html"},{"title":"cmp_elem_Xc_vis – ForCAD","text":"private pure function cmp_elem_Xc_vis(this, p) result(elemConn) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) Calls proc~~cmp_elem_xc_vis~3~~CallsGraph proc~cmp_elem_xc_vis~3 nurbs_surface%cmp_elem_Xc_vis interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_elem_xc_vis~3~~CalledByGraph proc~cmp_elem_xc_vis~3 nurbs_surface%cmp_elem_Xc_vis proc~export_xc~3 nurbs_surface%export_Xc proc~export_xc~3->proc~cmp_elem_xc_vis~3 program~example3_surface example3_surface program~example3_surface->proc~export_xc~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~export_xc~3 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~export_xc~3 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~export_xc~3 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~export_xc~3 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~export_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elem_xc_vis~3.html"},{"title":"cmp_elem_Xg_vis – ForCAD","text":"private pure function cmp_elem_Xg_vis(this, p) result(elemConn) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) Calls proc~~cmp_elem_xg_vis~3~~CallsGraph proc~cmp_elem_xg_vis~3 nurbs_surface%cmp_elem_Xg_vis interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_elem_xg_vis~3~~CalledByGraph proc~cmp_elem_xg_vis~3 nurbs_surface%cmp_elem_Xg_vis proc~export_xg~3 nurbs_surface%export_Xg proc~export_xg~3->proc~cmp_elem_xg_vis~3 program~example3_surface example3_surface program~example3_surface->proc~export_xg~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~export_xg~3 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~export_xg~3 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~export_xg~3 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~export_xg~3 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~export_xg~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elem_xg_vis~3.html"},{"title":"get_Wc_all – ForCAD","text":"private pure function get_Wc_all(this) result(Wc) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) Called by proc~~get_wc_all~3~~CalledByGraph proc~get_wc_all~3 nurbs_surface%get_Wc_all none~get_wc~3 nurbs_surface%get_Wc none~get_wc~3->proc~get_wc_all~3 proc~modify_wc~3 nurbs_surface%modify_Wc proc~modify_wc~3->none~get_wc~3 proc~modify_xc~3 nurbs_surface%modify_Xc proc~modify_xc~3->none~get_wc~3 program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_wc_all~3.html"},{"title":"get_Wci – ForCAD","text":"private pure function get_Wci(this, n) result(Wc) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) Called by proc~~get_wci~3~~CalledByGraph proc~get_wci~3 nurbs_surface%get_Wci none~get_wc~3 nurbs_surface%get_Wc none~get_wc~3->proc~get_wci~3 proc~modify_wc~3 nurbs_surface%modify_Wc proc~modify_wc~3->none~get_wc~3 proc~modify_xc~3 nurbs_surface%modify_Xc proc~modify_xc~3->none~get_wc~3 program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_wci~3.html"},{"title":"get_Xc_all – ForCAD","text":"private pure function get_Xc_all(this) result(Xc) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) Called by proc~~get_xc_all~3~~CalledByGraph proc~get_xc_all~3 nurbs_surface%get_Xc_all none~get_xc~3 nurbs_surface%get_Xc none~get_xc~3->proc~get_xc_all~3 proc~modify_wc~3 nurbs_surface%modify_Wc proc~modify_wc~3->none~get_xc~3 proc~modify_xc~3 nurbs_surface%modify_Xc proc~modify_xc~3->none~get_xc~3 program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xc_all~3.html"},{"title":"get_Xci – ForCAD","text":"private pure function get_Xci(this, n) result(Xc) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) Called by proc~~get_xci~3~~CalledByGraph proc~get_xci~3 nurbs_surface%get_Xci none~get_xc~3 nurbs_surface%get_Xc none~get_xc~3->proc~get_xci~3 proc~modify_wc~3 nurbs_surface%modify_Wc proc~modify_wc~3->none~get_xc~3 proc~modify_xc~3 nurbs_surface%modify_Xc proc~modify_xc~3->none~get_xc~3 program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xci~3.html"},{"title":"get_Xcid – ForCAD","text":"private pure function get_Xcid(this, n, dir) result(Xc) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) Called by proc~~get_xcid~3~~CalledByGraph proc~get_xcid~3 nurbs_surface%get_Xcid none~get_xc~3 nurbs_surface%get_Xc none~get_xc~3->proc~get_xcid~3 proc~modify_wc~3 nurbs_surface%modify_Wc proc~modify_wc~3->none~get_xc~3 proc~modify_xc~3 nurbs_surface%modify_Xc proc~modify_xc~3->none~get_xc~3 program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xcid~3.html"},{"title":"get_Xg_all – ForCAD","text":"private pure function get_Xg_all(this) result(Xg) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) Called by proc~~get_xg_all~3~~CalledByGraph proc~get_xg_all~3 nurbs_surface%get_Xg_all none~get_xg~3 nurbs_surface%get_Xg none~get_xg~3->proc~get_xg_all~3 program~example_ppm1 example_ppm1 program~example_ppm1->none~get_xg~3 program~example_ppm2 example_ppm2 program~example_ppm2->none~get_xg~3 program~example_ppm3 example_ppm3 program~example_ppm3->none~get_xg~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xg_all~3.html"},{"title":"get_Xgi – ForCAD","text":"private pure function get_Xgi(this, n) result(Xg) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) Called by proc~~get_xgi~3~~CalledByGraph proc~get_xgi~3 nurbs_surface%get_Xgi none~get_xg~3 nurbs_surface%get_Xg none~get_xg~3->proc~get_xgi~3 program~example_ppm1 example_ppm1 program~example_ppm1->none~get_xg~3 program~example_ppm2 example_ppm2 program~example_ppm2->none~get_xg~3 program~example_ppm3 example_ppm3 program~example_ppm3->none~get_xg~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xgi~3.html"},{"title":"get_Xgid – ForCAD","text":"private pure function get_Xgid(this, n, dir) result(Xg) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) Called by proc~~get_xgid~3~~CalledByGraph proc~get_xgid~3 nurbs_surface%get_Xgid none~get_xg~3 nurbs_surface%get_Xg none~get_xg~3->proc~get_xgid~3 program~example_ppm1 example_ppm1 program~example_ppm1->none~get_xg~3 program~example_ppm2 example_ppm2 program~example_ppm2->none~get_xg~3 program~example_ppm3 example_ppm3 program~example_ppm3->none~get_xg~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xgid~3.html"},{"title":"get_Xt – ForCAD","text":"private pure function get_Xt(this, dir) result(Xt) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:)","tags":"","loc":"proc/get_xt~3.html"},{"title":"get_continuity – ForCAD","text":"private pure function get_continuity(this, dir) result(c) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) Calls proc~~get_continuity~3~~CallsGraph proc~get_continuity~3 nurbs_surface%get_continuity interface~compute_multiplicity compute_multiplicity proc~get_continuity~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_continuity~3.html"},{"title":"get_degree_all – ForCAD","text":"private pure function get_degree_all(this) result(degree) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, (2) Called by proc~~get_degree_all~2~~CalledByGraph proc~get_degree_all~2 nurbs_surface%get_degree_all none~get_degree~3 nurbs_surface%get_degree none~get_degree~3->proc~get_degree_all~2 program~example3_surface example3_surface program~example3_surface->none~get_degree~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_degree_all~2.html"},{"title":"get_degree_dir – ForCAD","text":"private pure function get_degree_dir(this, dir) result(degree) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer Called by proc~~get_degree_dir~2~~CalledByGraph proc~get_degree_dir~2 nurbs_surface%get_degree_dir none~get_degree~3 nurbs_surface%get_degree none~get_degree~3->proc~get_degree_dir~2 program~example3_surface example3_surface program~example3_surface->none~get_degree~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_degree_dir~2.html"},{"title":"get_elem – ForCAD","text":"private pure function get_elem(this) result(elemConn) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:)","tags":"","loc":"proc/get_elem~3.html"},{"title":"get_elem_Xc_vis – ForCAD","text":"private pure function get_elem_Xc_vis(this) result(elemConn) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:)","tags":"","loc":"proc/get_elem_xc_vis~3.html"},{"title":"get_elem_Xg_vis – ForCAD","text":"private pure function get_elem_Xg_vis(this) result(elemConn) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:)","tags":"","loc":"proc/get_elem_xg_vis~3.html"},{"title":"get_knot_all – ForCAD","text":"private pure function get_knot_all(this, dir) result(knot) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) Called by proc~~get_knot_all~3~~CalledByGraph proc~get_knot_all~3 nurbs_surface%get_knot_all none~get_knot~3 nurbs_surface%get_knot none~get_knot~3->proc~get_knot_all~3 proc~elevate_degree~3 nurbs_surface%elevate_degree proc~elevate_degree~3->none~get_knot~3 proc~insert_knots~3 nurbs_surface%insert_knots proc~insert_knots~3->none~get_knot~3 proc~modify_wc~3 nurbs_surface%modify_Wc proc~modify_wc~3->none~get_knot~3 proc~modify_xc~3 nurbs_surface%modify_Xc proc~modify_xc~3->none~get_knot~3 proc~remove_knots~3 nurbs_surface%remove_knots proc~remove_knots~3->none~get_knot~3 program~example3_surface example3_surface program~example3_surface->none~get_knot~3 program~example3_surface->proc~elevate_degree~3 program~example3_surface->proc~insert_knots~3 program~example3_surface->proc~remove_knots~3 program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_knot_all~3.html"},{"title":"get_knoti – ForCAD","text":"private pure function get_knoti(this, dir, i) result(knot) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir integer, intent(in) :: i Return Value real(kind=rk) Called by proc~~get_knoti~3~~CalledByGraph proc~get_knoti~3 nurbs_surface%get_knoti none~get_knot~3 nurbs_surface%get_knot none~get_knot~3->proc~get_knoti~3 proc~elevate_degree~3 nurbs_surface%elevate_degree proc~elevate_degree~3->none~get_knot~3 proc~insert_knots~3 nurbs_surface%insert_knots proc~insert_knots~3->none~get_knot~3 proc~modify_wc~3 nurbs_surface%modify_Wc proc~modify_wc~3->none~get_knot~3 proc~modify_xc~3 nurbs_surface%modify_Xc proc~modify_xc~3->none~get_knot~3 proc~remove_knots~3 nurbs_surface%remove_knots proc~remove_knots~3->none~get_knot~3 program~example3_surface example3_surface program~example3_surface->none~get_knot~3 program~example3_surface->proc~elevate_degree~3 program~example3_surface->proc~insert_knots~3 program~example3_surface->proc~remove_knots~3 program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_knoti~3.html"},{"title":"get_multiplicity – ForCAD","text":"private pure function get_multiplicity(this, dir) result(m) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) Calls proc~~get_multiplicity~3~~CallsGraph proc~get_multiplicity~3 nurbs_surface%get_multiplicity interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~get_multiplicity~3~~CalledByGraph proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3 nurbs_surface%cmp_degree proc~cmp_degree~3->proc~get_multiplicity~3 proc~cmp_elem~3 nurbs_surface%cmp_elem proc~cmp_elem~3->proc~get_multiplicity~3 proc~set1~3 nurbs_surface%set1 proc~set1~3->proc~cmp_degree~3 proc~set3~3 nurbs_surface%set3 proc~set3~3->proc~cmp_degree~3 none~set~3 nurbs_surface%set none~set~3->proc~set1~3 none~set~3->proc~set3~3 proc~elevate_degree~3 nurbs_surface%elevate_degree proc~elevate_degree~3->none~set~3 proc~insert_knots~3 nurbs_surface%insert_knots proc~insert_knots~3->none~set~3 proc~modify_wc~3 nurbs_surface%modify_Wc proc~modify_wc~3->none~set~3 proc~modify_xc~3 nurbs_surface%modify_Xc proc~modify_xc~3->none~set~3 proc~remove_knots~3 nurbs_surface%remove_knots proc~remove_knots~3->none~set~3 proc~set_c~3 nurbs_surface%set_C proc~set_c~3->none~set~3 proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~3 proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~3 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~3 program~example3_surface example3_surface program~example3_surface->none~set~3 program~example3_surface->proc~elevate_degree~3 program~example3_surface->proc~insert_knots~3 program~example3_surface->proc~remove_knots~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~3 program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~3 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~3 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_multiplicity~3.html"},{"title":"get_nc – ForCAD","text":"private pure function get_nc(this, dir) result(nc) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer Calls proc~~get_nc~3~~CallsGraph proc~get_nc~3 nurbs_surface%get_nc interface~compute_multiplicity compute_multiplicity proc~get_nc~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_nc~3.html"},{"title":"get_ng – ForCAD","text":"private pure function get_ng(this) result(ng) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, (2) Called by proc~~get_ng~3~~CalledByGraph proc~get_ng~3 nurbs_surface%get_ng program~example_ppm1 example_ppm1 program~example_ppm1->proc~get_ng~3 program~example_ppm2 example_ppm2 program~example_ppm2->proc~get_ng~3 program~example_ppm3 example_ppm3 program~example_ppm3->proc~get_ng~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_ng~3.html"},{"title":"is_rational – ForCAD","text":"private pure function is_rational(this) result(r) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value logical Called by proc~~is_rational~3~~CalledByGraph proc~is_rational~3 nurbs_surface%is_rational proc~basis~3 nurbs_surface%basis proc~basis~3->proc~is_rational~3 proc~create~3 nurbs_surface%create proc~create~3->proc~is_rational~3 proc~derivative~3 nurbs_surface%derivative proc~derivative~3->proc~is_rational~3 proc~elevate_degree~3 nurbs_surface%elevate_degree proc~elevate_degree~3->proc~is_rational~3 proc~insert_knots~3 nurbs_surface%insert_knots proc~insert_knots~3->proc~is_rational~3 proc~remove_knots~3 nurbs_surface%remove_knots proc~remove_knots~3->proc~is_rational~3 program~example3_surface example3_surface program~example3_surface->proc~create~3 program~example3_surface->proc~elevate_degree~3 program~example3_surface->proc~insert_knots~3 program~example3_surface->proc~remove_knots~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~create~3 program~example_ppm1 example_ppm1 program~example_ppm1->proc~create~3 program~example_ppm2 example_ppm2 program~example_ppm2->proc~create~3 program~example_ppm3 example_ppm3 program~example_ppm3->proc~create~3 program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~create~3 program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~create~3 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~create~3 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~create~3 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~create~3 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~create~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/is_rational~3.html"},{"title":"basis – ForCAD","text":"private pure subroutine basis(this, res1, res2, Xt1, Xt2, Tgc) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(out), allocatable :: Tgc (:,:) Calls proc~~basis~3~~CallsGraph proc~basis~3 nurbs_surface%basis interface~ndgrid ndgrid proc~basis~3->interface~ndgrid proc~is_rational~3 nurbs_surface%is_rational proc~basis~3->proc~is_rational~3 proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/basis~3.html"},{"title":"cmp_degree – ForCAD","text":"private pure subroutine cmp_degree(this, dir) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: dir Calls proc~~cmp_degree~3~~CallsGraph proc~cmp_degree~3 nurbs_surface%cmp_degree proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_degree~3~~CalledByGraph proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3 nurbs_surface%set1 proc~set1~3->proc~cmp_degree~3 proc~set3~3 nurbs_surface%set3 proc~set3~3->proc~cmp_degree~3 none~set~3 nurbs_surface%set none~set~3->proc~set1~3 none~set~3->proc~set3~3 proc~elevate_degree~3 nurbs_surface%elevate_degree proc~elevate_degree~3->none~set~3 proc~insert_knots~3 nurbs_surface%insert_knots proc~insert_knots~3->none~set~3 proc~modify_wc~3 nurbs_surface%modify_Wc proc~modify_wc~3->none~set~3 proc~modify_xc~3 nurbs_surface%modify_Xc proc~modify_xc~3->none~set~3 proc~remove_knots~3 nurbs_surface%remove_knots proc~remove_knots~3->none~set~3 proc~set_c~3 nurbs_surface%set_C proc~set_c~3->none~set~3 proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~3 proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~3 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~3 program~example3_surface example3_surface program~example3_surface->none~set~3 program~example3_surface->proc~elevate_degree~3 program~example3_surface->proc~insert_knots~3 program~example3_surface->proc~remove_knots~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~3 program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~3 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~3 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_degree~3.html"},{"title":"cmp_nc – ForCAD","text":"private pure subroutine cmp_nc(this, dir) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: dir Calls proc~~cmp_nc~3~~CallsGraph proc~cmp_nc~3 nurbs_surface%cmp_nc interface~compute_multiplicity compute_multiplicity proc~cmp_nc~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_nc~3~~CalledByGraph proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3 nurbs_surface%set1 proc~set1~3->proc~cmp_nc~3 proc~set2~3 nurbs_surface%set2 proc~set2~3->proc~cmp_nc~3 none~set~3 nurbs_surface%set none~set~3->proc~set1~3 none~set~3->proc~set2~3 proc~elevate_degree~3 nurbs_surface%elevate_degree proc~elevate_degree~3->none~set~3 proc~insert_knots~3 nurbs_surface%insert_knots proc~insert_knots~3->none~set~3 proc~modify_wc~3 nurbs_surface%modify_Wc proc~modify_wc~3->none~set~3 proc~modify_xc~3 nurbs_surface%modify_Xc proc~modify_xc~3->none~set~3 proc~remove_knots~3 nurbs_surface%remove_knots proc~remove_knots~3->none~set~3 proc~set_c~3 nurbs_surface%set_C proc~set_c~3->none~set~3 proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~3 proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~3 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~3 program~example3_surface example3_surface program~example3_surface->none~set~3 program~example3_surface->proc~elevate_degree~3 program~example3_surface->proc~insert_knots~3 program~example3_surface->proc~remove_knots~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~3 program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~3 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~3 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_nc~3.html"},{"title":"create – ForCAD","text":"private pure subroutine create(this, res1, res2, Xt1, Xt2, Xt) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt (:,:) Calls proc~~create~3~~CallsGraph proc~create~3 nurbs_surface%create interface~ndgrid ndgrid proc~create~3->interface~ndgrid proc~is_rational~3 nurbs_surface%is_rational proc~create~3->proc~is_rational~3 proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~create~3~~CalledByGraph proc~create~3 nurbs_surface%create program~example3_surface example3_surface program~example3_surface->proc~create~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~create~3 program~example_ppm1 example_ppm1 program~example_ppm1->proc~create~3 program~example_ppm2 example_ppm2 program~example_ppm2->proc~create~3 program~example_ppm3 example_ppm3 program~example_ppm3->proc~create~3 program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~create~3 program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~create~3 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~create~3 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~create~3 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~create~3 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~create~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/create~3.html"},{"title":"derivative – ForCAD","text":"private pure subroutine derivative(this, res1, res2, Xt1, Xt2, dTgc) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(out), allocatable :: dTgc (:,:) Calls proc~~derivative~3~~CallsGraph proc~derivative~3 nurbs_surface%derivative interface~ndgrid ndgrid proc~derivative~3->interface~ndgrid proc~is_rational~3 nurbs_surface%is_rational proc~derivative~3->proc~is_rational~3 proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/derivative~3.html"},{"title":"elevate_degree – ForCAD","text":"private pure subroutine elevate_degree(this, dir, t) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in) :: dir integer, intent(in) :: t Calls proc~~elevate_degree~3~~CallsGraph proc~elevate_degree~3 nurbs_surface%elevate_degree none~get_knot~3 nurbs_surface%get_knot proc~elevate_degree~3->none~get_knot~3 none~set~3 nurbs_surface%set proc~elevate_degree~3->none~set~3 proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree~3->proc~elevate_degree_a_5_9 proc~is_rational~3 nurbs_surface%is_rational proc~elevate_degree~3->proc~is_rational~3 proc~get_knot_all~3 nurbs_surface%get_knot_all none~get_knot~3->proc~get_knot_all~3 proc~get_knoti~3 nurbs_surface%get_knoti none~get_knot~3->proc~get_knoti~3 proc~set1~3 nurbs_surface%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_surface%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 interface~compute_multiplicity compute_multiplicity proc~elevate_degree_a_5_9->interface~compute_multiplicity proc~bincoeff bincoeff proc~elevate_degree_a_5_9->proc~bincoeff proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~factln factln proc~bincoeff->proc~factln proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3->proc~cmp_nc~3 proc~set2~3->proc~cmp_nc~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 proc~cmp_nc~3->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~elevate_degree~3~~CalledByGraph proc~elevate_degree~3 nurbs_surface%elevate_degree program~example3_surface example3_surface program~example3_surface->proc~elevate_degree~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/elevate_degree~3.html"},{"title":"export_Xc – ForCAD","text":"private impure subroutine export_Xc(this, filename) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this character(len=*), intent(in) :: filename Calls proc~~export_xc~3~~CallsGraph proc~export_xc~3 nurbs_surface%export_Xc proc~cmp_elem_xc_vis~3 nurbs_surface%cmp_elem_Xc_vis proc~export_xc~3->proc~cmp_elem_xc_vis~3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~export_xc~3~~CalledByGraph proc~export_xc~3 nurbs_surface%export_Xc program~example3_surface example3_surface program~example3_surface->proc~export_xc~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~export_xc~3 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~export_xc~3 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~export_xc~3 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~export_xc~3 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~export_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/export_xc~3.html"},{"title":"export_Xg – ForCAD","text":"private impure subroutine export_Xg(this, filename) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this character(len=*), intent(in) :: filename Calls proc~~export_xg~3~~CallsGraph proc~export_xg~3 nurbs_surface%export_Xg proc~cmp_elem_xg_vis~3 nurbs_surface%cmp_elem_Xg_vis proc~export_xg~3->proc~cmp_elem_xg_vis~3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~export_xg~3~~CalledByGraph proc~export_xg~3 nurbs_surface%export_Xg program~example3_surface example3_surface program~example3_surface->proc~export_xg~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~export_xg~3 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~export_xg~3 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~export_xg~3 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~export_xg~3 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~export_xg~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/export_xg~3.html"},{"title":"finalize – ForCAD","text":"private pure subroutine finalize(this) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this Called by proc~~finalize~3~~CalledByGraph proc~finalize~3 nurbs_surface%finalize program~example3_surface example3_surface program~example3_surface->proc~finalize~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~finalize~3 program~example_ppm1 example_ppm1 program~example_ppm1->proc~finalize~3 program~example_ppm2 example_ppm2 program~example_ppm2->proc~finalize~3 program~example_ppm3 example_ppm3 program~example_ppm3->proc~finalize~3 program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~finalize~3 program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~finalize~3 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~finalize~3 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~finalize~3 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~finalize~3 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~finalize~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/finalize~3.html"},{"title":"insert_knots – ForCAD","text":"private pure subroutine insert_knots(this, dir, Xth, r) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) Calls proc~~insert_knots~3~~CallsGraph proc~insert_knots~3 nurbs_surface%insert_knots interface~compute_multiplicity compute_multiplicity proc~insert_knots~3->interface~compute_multiplicity none~get_knot~3 nurbs_surface%get_knot proc~insert_knots~3->none~get_knot~3 none~set~3 nurbs_surface%set proc~insert_knots~3->none~set~3 proc~findspan findspan proc~insert_knots~3->proc~findspan proc~insert_knot_a_5_1 insert_knot_A_5_1 proc~insert_knots~3->proc~insert_knot_a_5_1 proc~is_rational~3 nurbs_surface%is_rational proc~insert_knots~3->proc~is_rational~3 proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_knot_all~3 nurbs_surface%get_knot_all none~get_knot~3->proc~get_knot_all~3 proc~get_knoti~3 nurbs_surface%get_knoti none~get_knot~3->proc~get_knoti~3 proc~set1~3 nurbs_surface%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_surface%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3->proc~cmp_nc~3 proc~set2~3->proc~cmp_nc~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 proc~cmp_nc~3->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~insert_knots~3~~CalledByGraph proc~insert_knots~3 nurbs_surface%insert_knots program~example3_surface example3_surface program~example3_surface->proc~insert_knots~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/insert_knots~3.html"},{"title":"modify_Wc – ForCAD","text":"private pure subroutine modify_Wc(this, W, num) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: W integer, intent(in) :: num Calls proc~~modify_wc~3~~CallsGraph proc~modify_wc~3 nurbs_surface%modify_Wc none~get_knot~3 nurbs_surface%get_knot proc~modify_wc~3->none~get_knot~3 none~get_wc~3 nurbs_surface%get_Wc proc~modify_wc~3->none~get_wc~3 none~get_xc~3 nurbs_surface%get_Xc proc~modify_wc~3->none~get_xc~3 none~set~3 nurbs_surface%set proc~modify_wc~3->none~set~3 proc~get_knot_all~3 nurbs_surface%get_knot_all none~get_knot~3->proc~get_knot_all~3 proc~get_knoti~3 nurbs_surface%get_knoti none~get_knot~3->proc~get_knoti~3 proc~get_wc_all~3 nurbs_surface%get_Wc_all none~get_wc~3->proc~get_wc_all~3 proc~get_wci~3 nurbs_surface%get_Wci none~get_wc~3->proc~get_wci~3 proc~get_xc_all~3 nurbs_surface%get_Xc_all none~get_xc~3->proc~get_xc_all~3 proc~get_xcid~3 nurbs_surface%get_Xcid none~get_xc~3->proc~get_xcid~3 proc~get_xci~3 nurbs_surface%get_Xci none~get_xc~3->proc~get_xci~3 proc~set1~3 nurbs_surface%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_surface%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3->proc~cmp_nc~3 proc~set2~3->proc~cmp_nc~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~3->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/modify_wc~3.html"},{"title":"modify_Xc – ForCAD","text":"private pure subroutine modify_Xc(this, X, num, dir) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: X integer, intent(in) :: num integer, intent(in) :: dir Calls proc~~modify_xc~3~~CallsGraph proc~modify_xc~3 nurbs_surface%modify_Xc none~get_knot~3 nurbs_surface%get_knot proc~modify_xc~3->none~get_knot~3 none~get_wc~3 nurbs_surface%get_Wc proc~modify_xc~3->none~get_wc~3 none~get_xc~3 nurbs_surface%get_Xc proc~modify_xc~3->none~get_xc~3 none~set~3 nurbs_surface%set proc~modify_xc~3->none~set~3 proc~get_knot_all~3 nurbs_surface%get_knot_all none~get_knot~3->proc~get_knot_all~3 proc~get_knoti~3 nurbs_surface%get_knoti none~get_knot~3->proc~get_knoti~3 proc~get_wc_all~3 nurbs_surface%get_Wc_all none~get_wc~3->proc~get_wc_all~3 proc~get_wci~3 nurbs_surface%get_Wci none~get_wc~3->proc~get_wci~3 proc~get_xc_all~3 nurbs_surface%get_Xc_all none~get_xc~3->proc~get_xc_all~3 proc~get_xcid~3 nurbs_surface%get_Xcid none~get_xc~3->proc~get_xcid~3 proc~get_xci~3 nurbs_surface%get_Xci none~get_xc~3->proc~get_xci~3 proc~set1~3 nurbs_surface%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_surface%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3->proc~cmp_nc~3 proc~set2~3->proc~cmp_nc~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~3->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~modify_xc~3~~CalledByGraph proc~modify_xc~3 nurbs_surface%modify_Xc program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/modify_xc~3.html"},{"title":"nearest_point – ForCAD","text":"private pure subroutine nearest_point(this, point_Xg, nearest_Xg, nearest_Xt, id) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this real(kind=rk), intent(in) :: point_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xt (:) integer, intent(out), optional :: id Called by proc~~nearest_point~3~~CalledByGraph proc~nearest_point~3 nurbs_surface%nearest_point program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~nearest_point~3 program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~nearest_point~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/nearest_point~3.html"},{"title":"remove_knots – ForCAD","text":"private pure subroutine remove_knots(this, dir, Xth, r) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) Calls proc~~remove_knots~3~~CallsGraph proc~remove_knots~3 nurbs_surface%remove_knots interface~compute_multiplicity compute_multiplicity proc~remove_knots~3->interface~compute_multiplicity none~get_knot~3 nurbs_surface%get_knot proc~remove_knots~3->none~get_knot~3 none~set~3 nurbs_surface%set proc~remove_knots~3->none~set~3 proc~findspan findspan proc~remove_knots~3->proc~findspan proc~is_rational~3 nurbs_surface%is_rational proc~remove_knots~3->proc~is_rational~3 proc~remove_knots_a_5_8 remove_knots_A_5_8 proc~remove_knots~3->proc~remove_knots_a_5_8 proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_knot_all~3 nurbs_surface%get_knot_all none~get_knot~3->proc~get_knot_all~3 proc~get_knoti~3 nurbs_surface%get_knoti none~get_knot~3->proc~get_knoti~3 proc~set1~3 nurbs_surface%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_surface%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3->proc~cmp_nc~3 proc~set2~3->proc~cmp_nc~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 proc~cmp_nc~3->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~remove_knots~3~~CalledByGraph proc~remove_knots~3 nurbs_surface%remove_knots program~example3_surface example3_surface program~example3_surface->proc~remove_knots~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/remove_knots~3.html"},{"title":"rotate_Xc – ForCAD","text":"private pure subroutine rotate_Xc(this, alpha, beta, theta) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta Calls proc~~rotate_xc~3~~CallsGraph proc~rotate_xc~3 nurbs_surface%rotate_Xc proc~rotation rotation proc~rotate_xc~3->proc~rotation cosd cosd proc~rotation->cosd sind sind proc~rotation->sind Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~rotate_xc~3~~CalledByGraph proc~rotate_xc~3 nurbs_surface%rotate_Xc program~example3_surface example3_surface program~example3_surface->proc~rotate_xc~3 program~example_ppm2 example_ppm2 program~example_ppm2->proc~rotate_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/rotate_xc~3.html"},{"title":"rotate_Xg – ForCAD","text":"private pure subroutine rotate_Xg(this, alpha, beta, theta) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta Calls proc~~rotate_xg~3~~CallsGraph proc~rotate_xg~3 nurbs_surface%rotate_Xg proc~rotation rotation proc~rotate_xg~3->proc~rotation cosd cosd proc~rotation->cosd sind sind proc~rotation->sind Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~rotate_xg~3~~CalledByGraph proc~rotate_xg~3 nurbs_surface%rotate_Xg program~example3_surface example3_surface program~example3_surface->proc~rotate_xg~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/rotate_xg~3.html"},{"title":"set1 – ForCAD","text":"private pure subroutine set1(this, knot1, knot2, Xc, Wc) Set knot vectors, control points and weights for the NURBS surface object. Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set1~3~~CallsGraph proc~set1~3 nurbs_surface%set1 proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3->proc~cmp_nc~3 proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set1~3~~CalledByGraph proc~set1~3 nurbs_surface%set1 none~set~3 nurbs_surface%set none~set~3->proc~set1~3 proc~elevate_degree~3 nurbs_surface%elevate_degree proc~elevate_degree~3->none~set~3 proc~insert_knots~3 nurbs_surface%insert_knots proc~insert_knots~3->none~set~3 proc~modify_wc~3 nurbs_surface%modify_Wc proc~modify_wc~3->none~set~3 proc~modify_xc~3 nurbs_surface%modify_Xc proc~modify_xc~3->none~set~3 proc~remove_knots~3 nurbs_surface%remove_knots proc~remove_knots~3->none~set~3 proc~set_c~3 nurbs_surface%set_C proc~set_c~3->none~set~3 proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~3 proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~3 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~3 program~example3_surface example3_surface program~example3_surface->none~set~3 program~example3_surface->proc~elevate_degree~3 program~example3_surface->proc~insert_knots~3 program~example3_surface->proc~remove_knots~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~3 program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~3 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~3 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set1~3.html"},{"title":"set2 – ForCAD","text":"private pure subroutine set2(this, Xth_dir1, Xth_dir2, degree, continuity1, continuity2, Xc, Wc) Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir1 (:) real(kind=rk), intent(in), contiguous :: Xth_dir2 (:) integer, intent(in), contiguous :: degree (:) integer, intent(in), contiguous :: continuity1 (:) integer, intent(in), contiguous :: continuity2 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set2~3~~CallsGraph proc~set2~3 nurbs_surface%set2 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set2~3->proc~cmp_nc~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector interface~compute_multiplicity compute_multiplicity proc~cmp_nc~3->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set2~3~~CalledByGraph proc~set2~3 nurbs_surface%set2 none~set~3 nurbs_surface%set none~set~3->proc~set2~3 proc~elevate_degree~3 nurbs_surface%elevate_degree proc~elevate_degree~3->none~set~3 proc~insert_knots~3 nurbs_surface%insert_knots proc~insert_knots~3->none~set~3 proc~modify_wc~3 nurbs_surface%modify_Wc proc~modify_wc~3->none~set~3 proc~modify_xc~3 nurbs_surface%modify_Xc proc~modify_xc~3->none~set~3 proc~remove_knots~3 nurbs_surface%remove_knots proc~remove_knots~3->none~set~3 proc~set_c~3 nurbs_surface%set_C proc~set_c~3->none~set~3 proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~3 proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~3 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~3 program~example3_surface example3_surface program~example3_surface->none~set~3 program~example3_surface->proc~elevate_degree~3 program~example3_surface->proc~insert_knots~3 program~example3_surface->proc~remove_knots~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~3 program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~3 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~3 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set2~3.html"},{"title":"set3 – ForCAD","text":"private pure subroutine set3(this, nc, Xc, Wc) Set Bezier or Rational Bezier surface using control points and weights. Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set3~3~~CallsGraph proc~set3~3 nurbs_surface%set3 proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set3~3~~CalledByGraph proc~set3~3 nurbs_surface%set3 none~set~3 nurbs_surface%set none~set~3->proc~set3~3 proc~elevate_degree~3 nurbs_surface%elevate_degree proc~elevate_degree~3->none~set~3 proc~insert_knots~3 nurbs_surface%insert_knots proc~insert_knots~3->none~set~3 proc~modify_wc~3 nurbs_surface%modify_Wc proc~modify_wc~3->none~set~3 proc~modify_xc~3 nurbs_surface%modify_Xc proc~modify_xc~3->none~set~3 proc~remove_knots~3 nurbs_surface%remove_knots proc~remove_knots~3->none~set~3 proc~set_c~3 nurbs_surface%set_C proc~set_c~3->none~set~3 proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~3 proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~3 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~3 program~example3_surface example3_surface program~example3_surface->none~set~3 program~example3_surface->proc~elevate_degree~3 program~example3_surface->proc~insert_knots~3 program~example3_surface->proc~remove_knots~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~3 program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~3 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~3 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set3~3.html"},{"title":"set_C – ForCAD","text":"private pure subroutine set_C(this, center, radius1, radius2) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 Calls proc~~set_c~3~~CallsGraph proc~set_c~3 nurbs_surface%set_C none~set~3 nurbs_surface%set proc~set_c~3->none~set~3 proc~set1~3 nurbs_surface%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_surface%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3->proc~cmp_nc~3 proc~set2~3->proc~cmp_nc~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~3->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_c~3~~CalledByGraph proc~set_c~3 nurbs_surface%set_C program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_c~3.html"},{"title":"set_elem – ForCAD","text":"private pure subroutine set_elem(this, elemConn) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:)","tags":"","loc":"proc/set_elem~3.html"},{"title":"set_elem_Xc_vis – ForCAD","text":"private pure subroutine set_elem_Xc_vis(this, elemConn) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:)","tags":"","loc":"proc/set_elem_xc_vis~3.html"},{"title":"set_elem_Xg_vis – ForCAD","text":"private pure subroutine set_elem_Xg_vis(this, elemConn) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:)","tags":"","loc":"proc/set_elem_xg_vis~3.html"},{"title":"set_half_ring – ForCAD","text":"private pure subroutine set_half_ring(this, center, radius1, radius2) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 Calls proc~~set_half_ring~2~~CallsGraph proc~set_half_ring~2 nurbs_surface%set_half_ring none~set~3 nurbs_surface%set proc~set_half_ring~2->none~set~3 proc~set1~3 nurbs_surface%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_surface%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3->proc~cmp_nc~3 proc~set2~3->proc~cmp_nc~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~3->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_half_ring~2~~CalledByGraph proc~set_half_ring~2 nurbs_surface%set_half_ring program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_half_ring~2.html"},{"title":"set_ring – ForCAD","text":"private pure subroutine set_ring(this, center, radius1, radius2) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 Calls proc~~set_ring~2~~CallsGraph proc~set_ring~2 nurbs_surface%set_ring none~set~3 nurbs_surface%set proc~set_ring~2->none~set~3 proc~set1~3 nurbs_surface%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_surface%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3->proc~cmp_nc~3 proc~set2~3->proc~cmp_nc~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~3->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_ring~2~~CalledByGraph proc~set_ring~2 nurbs_surface%set_ring program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_ring~2.html"},{"title":"set_tetragon – ForCAD","text":"private pure subroutine set_tetragon(this, L, nc, Wc) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: L (2) integer, intent(in) :: nc (2) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set_tetragon~~CallsGraph proc~set_tetragon nurbs_surface%set_tetragon none~set~3 nurbs_surface%set proc~set_tetragon->none~set~3 proc~tetragon_xc tetragon_Xc proc~set_tetragon->proc~tetragon_xc proc~set1~3 nurbs_surface%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_surface%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3->proc~cmp_nc~3 proc~set2~3->proc~cmp_nc~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~3->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_tetragon~~CalledByGraph proc~set_tetragon nurbs_surface%set_tetragon program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_tetragon.html"},{"title":"show – ForCAD","text":"private impure subroutine show(this, vtkfile_Xc, vtkfile_Xg) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this character(len=*), intent(in) :: vtkfile_Xc character(len=*), intent(in) :: vtkfile_Xg Called by proc~~show~3~~CalledByGraph proc~show~3 nurbs_surface%show program~example3_surface example3_surface program~example3_surface->proc~show~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~show~3 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~show~3 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~show~3 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~show~3 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~show~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/show~3.html"},{"title":"translate_Xc – ForCAD","text":"private pure subroutine translate_Xc(this, vec) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) Called by proc~~translate_xc~3~~CalledByGraph proc~translate_xc~3 nurbs_surface%translate_Xc program~example3_surface example3_surface program~example3_surface->proc~translate_xc~3 program~example_ppm2 example_ppm2 program~example_ppm2->proc~translate_xc~3 program~example_ppm3 example_ppm3 program~example_ppm3->proc~translate_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/translate_xc~3.html"},{"title":"translate_Xg – ForCAD","text":"private pure subroutine translate_Xg(this, vec) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) Called by proc~~translate_xg~3~~CalledByGraph proc~translate_xg~3 nurbs_surface%translate_Xg program~example3_surface example3_surface program~example3_surface->proc~translate_xg~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/translate_xg~3.html"},{"title":"generate_Xc – ForCAD","text":"function generate_Xc(L) result(control_points) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: L Return Value real(kind=rk), allocatable, (:,:) Called by proc~~generate_xc~5~~CalledByGraph proc~generate_xc~5 generate_Xc program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~generate_xc~5 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/generate_xc~5.html"},{"title":"forcad_utils – ForCAD","text":"This module contains parameters, functions and subroutines that are used in the library. Used by module~~forcad_utils~~UsedByGraph module~forcad_utils forcad_utils module~forcad forcad module~forcad->module~forcad_utils module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils proc~compute_dtgc_bspline_1d compute_dTgc_bspline_1d proc~compute_dtgc_bspline_1d->module~forcad_utils proc~compute_dtgc_bspline_2d compute_dTgc_bspline_2d proc~compute_dtgc_bspline_2d->module~forcad_utils proc~compute_dtgc_bspline_3d compute_dTgc_bspline_3d proc~compute_dtgc_bspline_3d->module~forcad_utils proc~compute_dtgc_nurbs_1d compute_dTgc_nurbs_1d proc~compute_dtgc_nurbs_1d->module~forcad_utils proc~compute_dtgc_nurbs_2d compute_dTgc_nurbs_2d proc~compute_dtgc_nurbs_2d->module~forcad_utils proc~compute_dtgc_nurbs_3d compute_dTgc_nurbs_3d proc~compute_dtgc_nurbs_3d->module~forcad_utils proc~compute_tgc_bspline_1d compute_Tgc_bspline_1d proc~compute_tgc_bspline_1d->module~forcad_utils proc~compute_tgc_bspline_2d compute_Tgc_bspline_2d proc~compute_tgc_bspline_2d->module~forcad_utils proc~compute_tgc_bspline_3d compute_Tgc_bspline_3d proc~compute_tgc_bspline_3d->module~forcad_utils proc~compute_tgc_nurbs_1d compute_Tgc_nurbs_1d proc~compute_tgc_nurbs_1d->module~forcad_utils proc~compute_tgc_nurbs_2d compute_Tgc_nurbs_2d proc~compute_tgc_nurbs_2d->module~forcad_utils proc~compute_tgc_nurbs_3d compute_Tgc_nurbs_3d proc~compute_tgc_nurbs_3d->module~forcad_utils proc~compute_xg_bspline_1d compute_Xg_bspline_1d proc~compute_xg_bspline_1d->module~forcad_utils proc~compute_xg_bspline_2d compute_Xg_bspline_2d proc~compute_xg_bspline_2d->module~forcad_utils proc~compute_xg_bspline_3d compute_Xg_bspline_3d proc~compute_xg_bspline_3d->module~forcad_utils proc~compute_xg_nurbs_1d compute_Xg_nurbs_1d proc~compute_xg_nurbs_1d->module~forcad_utils proc~compute_xg_nurbs_2d compute_Xg_nurbs_2d proc~compute_xg_nurbs_2d->module~forcad_utils proc~compute_xg_nurbs_3d compute_Xg_nurbs_3d proc~compute_xg_nurbs_3d->module~forcad_utils proc~nearest_point_help_1d nearest_point_help_1d proc~nearest_point_help_1d->module~forcad_utils proc~nearest_point_help_2d nearest_point_help_2d proc~nearest_point_help_2d->module~forcad_utils proc~nearest_point_help_3d nearest_point_help_3d proc~nearest_point_help_3d->module~forcad_utils program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->module~forcad_utils program~example_put_to_nurbs->module~forcad program~example1_curve example1_curve program~example1_curve->module~forcad program~example3_surface example3_surface program~example3_surface->module~forcad program~example3_volume example3_volume program~example3_volume->module~forcad program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->module~forcad program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->module~forcad program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->module~forcad program~example_ppm1 example_ppm1 program~example_ppm1->module~forcad program~example_ppm2 example_ppm2 program~example_ppm2->module~forcad program~example_ppm3 example_ppm3 program~example_ppm3->module~forcad program~nearest_point_1d nearest_point_1d program~nearest_point_1d->module~forcad program~nearest_point_2d nearest_point_2d program~nearest_point_2d->module~forcad program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->module~forcad program~nearest_point_3d nearest_point_3d program~nearest_point_3d->module~forcad program~shape_c_1d shape_C_1d program~shape_c_1d->module~forcad program~shape_c_2d shape_C_2d program~shape_c_2d->module~forcad program~shape_c_3d shape_C_3d program~shape_c_3d->module~forcad program~shape_circle shape_circle program~shape_circle->module~forcad program~shape_half_circle shape_half_circle program~shape_half_circle->module~forcad program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->module~forcad program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->module~forcad program~shape_hexahedron shape_hexahedron program~shape_hexahedron->module~forcad program~shape_ring_2d shape_ring_2d program~shape_ring_2d->module~forcad program~shape_ring_3d shape_ring_3d program~shape_ring_3d->module~forcad program~shape_tetragon shape_tetragon program~shape_tetragon->module~forcad Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Visibility Attributes Name Initial integer, public, parameter :: rk = kind(1.0d0) Interfaces public interface compute_multiplicity private pure function compute_multiplicity1 (knot) result(multiplicity) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: knot (:) Return Value integer, allocatable, (:) private pure function compute_multiplicity2 (knot, Xth) result(multiplicity) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: knot (:) real(kind=rk), intent(in) :: Xth Return Value integer public interface elemConn_C0 private pure function cmp_elemConn_C0_L (nnode, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode integer, intent(in) :: p Return Value integer, allocatable, (:,:) private pure function cmp_elemConn_C0_S (nnode1, nnode2, p1, p2) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: p1 integer, intent(in) :: p2 Return Value integer, allocatable, (:,:) private pure function cmp_elemConn_C0_V (nnode1, nnode2, nnode3, p1, p2, p3) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: nnode3 integer, intent(in) :: p1 integer, intent(in) :: p2 integer, intent(in) :: p3 Return Value integer, allocatable, (:,:) public interface elemConn_Cn private pure subroutine cmp_elemConn_Cn_L (nnode, p, Xth, vecKnot_mul, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode integer, intent(in) :: p real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: vecKnot_mul (:) integer, intent(out), allocatable :: elemConn (:,:) private pure subroutine cmp_elemConn_Cn_S (nnode1, nnode2, p1, p2, Xth1, Xth2, vecKnot_mul1, vecKnot_mul2, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: p1 integer, intent(in) :: p2 real(kind=rk), intent(in), contiguous :: Xth1 (:) real(kind=rk), intent(in), contiguous :: Xth2 (:) integer, intent(in), contiguous :: vecKnot_mul1 (:) integer, intent(in), contiguous :: vecKnot_mul2 (:) integer, intent(out), allocatable :: elemConn (:,:) private pure subroutine cmp_elemConn_Cn_V (nnode1, nnode2, nnode3, p1, p2, p3, Xth1, Xth2, Xth3, vecKnot_mul1, vecKnot_mul2, vecKnot_mul3, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: nnode3 integer, intent(in) :: p1 integer, intent(in) :: p2 integer, intent(in) :: p3 real(kind=rk), intent(in), contiguous :: Xth1 (:) real(kind=rk), intent(in), contiguous :: Xth2 (:) real(kind=rk), intent(in), contiguous :: Xth3 (:) integer, intent(in), contiguous :: vecKnot_mul1 (:) integer, intent(in), contiguous :: vecKnot_mul2 (:) integer, intent(in), contiguous :: vecKnot_mul3 (:) integer, intent(out), allocatable :: elemConn (:,:) public interface ndgrid private pure subroutine ndgrid2 (X_dir1, X_dir2, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: X_dir1 (:) real(kind=rk), intent(in), contiguous :: X_dir2 (:) real(kind=rk), intent(out), allocatable :: Xt (:,:) private pure subroutine ndgrid3 (X_dir1, X_dir2, X_dir3, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: X_dir1 (:) real(kind=rk), intent(in), contiguous :: X_dir2 (:) real(kind=rk), intent(in), contiguous :: X_dir3 (:) real(kind=rk), intent(out), allocatable :: Xt (:,:) public interface unique private pure function unique_integer (vec) result(output) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in), dimension(:), contiguous :: vec Return Value integer, dimension(:), allocatable private pure function unique_real (vec) result(output) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), dimension(:), contiguous :: vec Return Value real(kind=rk), dimension(:), allocatable Functions public pure function basis_bernstein (Xt, nc) result(B) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: Xt integer, intent(in) :: nc Return Value real(kind=rk), allocatable, (:) public pure function basis_bspline (Xt, knot, nc, degree) result(B) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: Xt real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: nc integer, intent(in) :: degree Return Value real(kind=rk), allocatable, (:) public pure function basis_bspline_der (Xt, knot, nc, degree) result(dB) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: Xt real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: nc integer, intent(in) :: degree Return Value real(kind=rk), allocatable, (:) public pure function compute_knot_vector (Xth_dir, degree, continuity) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xth_dir (:) integer, intent(in) :: degree integer, intent(in), contiguous :: continuity (:) Return Value real(kind=rk), allocatable, (:) public pure function findspan (n, degree, Xth, knot) result(s) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: n integer, intent(in) :: degree real(kind=rk), intent(in) :: Xth real(kind=rk), intent(in), contiguous :: knot (:) Return Value integer public pure function hexahedron_Xc (L, nc) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: L (3) integer, intent(in) :: nc (3) Return Value real(kind=rk), allocatable, (:,:) public pure function kron (u, v) result(w) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: u (:) real(kind=rk), intent(in), contiguous :: v (:) Return Value real(kind=rk), (size(u)*size(v)) public pure function rotation (alpha, beta, theta) result(R) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta Return Value real(kind=rk), dimension(3,3) public pure function tetragon_Xc (L, nc) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: L (2) integer, intent(in) :: nc (2) Return Value real(kind=rk), allocatable, (:,:) private pure function bincoeff (n, k) result(b) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: n integer, intent(in) :: k Return Value real(kind=rk) private pure function cmp_elemConn_C0_L (nnode, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode integer, intent(in) :: p Return Value integer, allocatable, (:,:) private pure function cmp_elemConn_C0_S (nnode1, nnode2, p1, p2) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: p1 integer, intent(in) :: p2 Return Value integer, allocatable, (:,:) private pure function cmp_elemConn_C0_V (nnode1, nnode2, nnode3, p1, p2, p3) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: nnode3 integer, intent(in) :: p1 integer, intent(in) :: p2 integer, intent(in) :: p3 Return Value integer, allocatable, (:,:) private pure function compute_multiplicity1 (knot) result(multiplicity) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: knot (:) Return Value integer, allocatable, (:) private pure function compute_multiplicity2 (knot, Xth) result(multiplicity) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: knot (:) real(kind=rk), intent(in) :: Xth Return Value integer private pure function factln (n) result(f) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: n Return Value real(kind=rk) private pure elemental function isinf (x) result(output) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: x Return Value logical private pure elemental function isnan (x) result(output) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: x Return Value logical private pure function repelem (a, b) result(c) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: a (:) integer, intent(in), contiguous :: b (:) Return Value real(kind=rk), (sum(b)) private pure function unique_integer (vec) result(output) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in), dimension(:), contiguous :: vec Return Value integer, dimension(:), allocatable private pure function unique_real (vec) result(output) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), dimension(:), contiguous :: vec Return Value real(kind=rk), dimension(:), allocatable Subroutines public pure subroutine elevate_degree_A_5_9 (t, knot, degree, Xcw, nc_new, knot_new, Xcw_new) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: t real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: degree real(kind=rk), intent(in), contiguous :: Xcw (:,:) integer, intent(out) :: nc_new real(kind=rk), intent(out), allocatable :: knot_new (:) real(kind=rk), intent(out), allocatable :: Xcw_new (:,:) public pure subroutine insert_knot_A_5_1 (p, UP, Pw, u, k, s, r, nq, UQ, Qw) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: p real(kind=rk), intent(in), contiguous :: UP (0:) real(kind=rk), intent(in), contiguous :: Pw (0:,:) real(kind=rk), intent(in) :: u integer, intent(in) :: k integer, intent(in) :: s integer, intent(in) :: r integer, intent(out) :: nq real(kind=rk), intent(out), allocatable :: UQ (:) real(kind=rk), intent(out), allocatable :: Qw (:,:) public pure subroutine remove_knots_A_5_8 (p, knot, Pw, u, r, s, num, t, knot_new, Pw_new) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: p real(kind=rk), intent(in), contiguous :: knot (:) real(kind=rk), intent(in), contiguous :: Pw (:,:) real(kind=rk), intent(in) :: u integer, intent(in) :: r integer, intent(in) :: s integer, intent(in) :: num integer, intent(out) :: t real(kind=rk), intent(out), allocatable :: knot_new (:) real(kind=rk), intent(out), allocatable :: Pw_new (:,:) private pure subroutine cmp_elemConn_Cn_L (nnode, p, Xth, vecKnot_mul, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode integer, intent(in) :: p real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: vecKnot_mul (:) integer, intent(out), allocatable :: elemConn (:,:) private pure subroutine cmp_elemConn_Cn_S (nnode1, nnode2, p1, p2, Xth1, Xth2, vecKnot_mul1, vecKnot_mul2, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: p1 integer, intent(in) :: p2 real(kind=rk), intent(in), contiguous :: Xth1 (:) real(kind=rk), intent(in), contiguous :: Xth2 (:) integer, intent(in), contiguous :: vecKnot_mul1 (:) integer, intent(in), contiguous :: vecKnot_mul2 (:) integer, intent(out), allocatable :: elemConn (:,:) private pure subroutine cmp_elemConn_Cn_V (nnode1, nnode2, nnode3, p1, p2, p3, Xth1, Xth2, Xth3, vecKnot_mul1, vecKnot_mul2, vecKnot_mul3, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: nnode3 integer, intent(in) :: p1 integer, intent(in) :: p2 integer, intent(in) :: p3 real(kind=rk), intent(in), contiguous :: Xth1 (:) real(kind=rk), intent(in), contiguous :: Xth2 (:) real(kind=rk), intent(in), contiguous :: Xth3 (:) integer, intent(in), contiguous :: vecKnot_mul1 (:) integer, intent(in), contiguous :: vecKnot_mul2 (:) integer, intent(in), contiguous :: vecKnot_mul3 (:) integer, intent(out), allocatable :: elemConn (:,:) private pure subroutine ndgrid2 (X_dir1, X_dir2, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: X_dir1 (:) real(kind=rk), intent(in), contiguous :: X_dir2 (:) real(kind=rk), intent(out), allocatable :: Xt (:,:) private pure subroutine ndgrid3 (X_dir1, X_dir2, X_dir3, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: X_dir1 (:) real(kind=rk), intent(in), contiguous :: X_dir2 (:) real(kind=rk), intent(in), contiguous :: X_dir3 (:) real(kind=rk), intent(out), allocatable :: Xt (:,:)","tags":"","loc":"module/forcad_utils.html"},{"title":"forcad – ForCAD","text":"Uses forcad_utils forcad_nurbs_curve forcad_nurbs_surface forcad_nurbs_volume module~~forcad~~UsesGraph module~forcad forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Used by module~~forcad~~UsedByGraph module~forcad forcad program~example1_curve example1_curve program~example1_curve->module~forcad program~example3_surface example3_surface program~example3_surface->module~forcad program~example3_volume example3_volume program~example3_volume->module~forcad program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->module~forcad program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->module~forcad program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->module~forcad program~example_ppm1 example_ppm1 program~example_ppm1->module~forcad program~example_ppm2 example_ppm2 program~example_ppm2->module~forcad program~example_ppm3 example_ppm3 program~example_ppm3->module~forcad program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->module~forcad program~nearest_point_1d nearest_point_1d program~nearest_point_1d->module~forcad program~nearest_point_2d nearest_point_2d program~nearest_point_2d->module~forcad program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->module~forcad program~nearest_point_3d nearest_point_3d program~nearest_point_3d->module~forcad program~shape_c_1d shape_C_1d program~shape_c_1d->module~forcad program~shape_c_2d shape_C_2d program~shape_c_2d->module~forcad program~shape_c_3d shape_C_3d program~shape_c_3d->module~forcad program~shape_circle shape_circle program~shape_circle->module~forcad program~shape_half_circle shape_half_circle program~shape_half_circle->module~forcad program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->module~forcad program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->module~forcad program~shape_hexahedron shape_hexahedron program~shape_hexahedron->module~forcad program~shape_ring_2d shape_ring_2d program~shape_ring_2d->module~forcad program~shape_ring_3d shape_ring_3d program~shape_ring_3d->module~forcad program~shape_tetragon shape_tetragon program~shape_tetragon->module~forcad Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"module/forcad.html"},{"title":"forcad_nurbs_volume – ForCAD","text":"This module defines the 'nurbs_volume' type for representing a Non-Uniform Rational B-Spline (NURBS) volume. Uses forcad_utils module~~forcad_nurbs_volume~~UsesGraph module~forcad_nurbs_volume forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Used by module~~forcad_nurbs_volume~~UsedByGraph module~forcad_nurbs_volume forcad_nurbs_volume module~forcad forcad module~forcad->module~forcad_nurbs_volume program~example1_curve example1_curve program~example1_curve->module~forcad program~example3_surface example3_surface program~example3_surface->module~forcad program~example3_volume example3_volume program~example3_volume->module~forcad program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->module~forcad program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->module~forcad program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->module~forcad program~example_ppm1 example_ppm1 program~example_ppm1->module~forcad program~example_ppm2 example_ppm2 program~example_ppm2->module~forcad program~example_ppm3 example_ppm3 program~example_ppm3->module~forcad program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->module~forcad program~nearest_point_1d nearest_point_1d program~nearest_point_1d->module~forcad program~nearest_point_2d nearest_point_2d program~nearest_point_2d->module~forcad program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->module~forcad program~nearest_point_3d nearest_point_3d program~nearest_point_3d->module~forcad program~shape_c_1d shape_C_1d program~shape_c_1d->module~forcad program~shape_c_2d shape_C_2d program~shape_c_2d->module~forcad program~shape_c_3d shape_C_3d program~shape_c_3d->module~forcad program~shape_circle shape_circle program~shape_circle->module~forcad program~shape_half_circle shape_half_circle program~shape_half_circle->module~forcad program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->module~forcad program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->module~forcad program~shape_hexahedron shape_hexahedron program~shape_hexahedron->module~forcad program~shape_ring_2d shape_ring_2d program~shape_ring_2d->module~forcad program~shape_ring_3d shape_ring_3d program~shape_ring_3d->module~forcad program~shape_tetragon shape_tetragon program~shape_tetragon->module~forcad Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Derived Types type, public :: nurbs_volume Components Type Visibility Attributes Name Initial real(kind=rk), private, allocatable :: Wc (:) Weights for the control points (1D array: [nc(1) nc(2) nc(3)]) real(kind=rk), private, allocatable :: Xc (:,:) Control points (2D array: [nc(1) nc(2) nc(3), dim]) real(kind=rk), private, allocatable :: Xg (:,:) Geometry points (2D array: [ng(1) ng(2) ng(3), dim]) real(kind=rk), private, allocatable :: Xt (:,:) Evaluation parameter values (2D array: [ng(1) ng(2) ng(3), dim] real(kind=rk), private, allocatable :: Xt1 (:) Evaluation parameter values in the first direction (1D array: [ng(1)]) real(kind=rk), private, allocatable :: Xt2 (:) Evaluation parameter values in the second direction (1D array: [ng(2)]) real(kind=rk), private, allocatable :: Xt3 (:) Evaluation parameter values in the third direction (1D array: [ng(3)]) integer, private :: degree (3) Degree (order) of the volume integer, private, allocatable :: elemConn (:,:) IGA element connectivity integer, private, allocatable :: elemConn_Xc_vis (:,:) Connectivity for visualization of control points integer, private, allocatable :: elemConn_Xg_vis (:,:) Connectivity for visualization of geometry points real(kind=rk), private, allocatable :: knot1 (:) Knot vector in the first direction (1D array) real(kind=rk), private, allocatable :: knot2 (:) Knot vector in the second direction (1D array) real(kind=rk), private, allocatable :: knot3 (:) Knot vector in the third direction (1D array) integer, private :: nc (3) Number of control points in each direction integer, private :: ng (3) Number of geometry points in each direction Type-Bound Procedures procedure, public :: basis Compute the basis functions of the NURBS volume Read more… procedure, public :: cmp_degree Compute degree of the NURBS volume Read more… procedure, public :: cmp_elem Generate IGA element connectivity Read more… procedure, public :: cmp_elem_Xc_vis Generate connectivity for control points Read more… procedure, public :: cmp_elem_Xg_vis Generate connectivity for geometry points Read more… procedure, public :: cmp_nc Compute number of required control points Read more… procedure, public :: create Generate geometry points Read more… procedure, public :: derivative Compute the derivative of the NURBS volume Read more… procedure, public :: elevate_degree Elevate the degree of the NURBS volume Read more… procedure, public :: export_Xc Export control points to VTK file Read more… procedure, public :: export_Xg Export geometry points to VTK file Read more… procedure, public :: finalize Finalize the NURBS volume object Read more… generic, public :: get_Wc => get_Wc_all , get_Wci Get weights Read more… generic, public :: get_Xc => get_Xc_all , get_Xci , get_Xcid Get control points Read more… generic, public :: get_Xg => get_Xg_all , get_Xgi , get_Xgid Get geometry points Read more… procedure, public :: get_Xt Get parameter values Read more… procedure, public :: get_continuity Compute and return the continuity of the NURBS volume Read more… generic, public :: get_degree => get_degree_all , get_degree_dir Get degree of the NURBS volume Read more… procedure, public :: get_elem Get IGA element connectivity Read more… procedure, public :: get_elem_Xc_vis Get connectivity for control points Read more… procedure, public :: get_elem_Xg_vis Get connectivity for geometry points Read more… generic, public :: get_knot => get_knoti , get_knot_all Get knot vector Read more… procedure, public :: get_multiplicity Compute and return the multiplicity of the knots Read more… procedure, public :: get_ng Get number of geometry points Read more… procedure, public :: insert_knots Insert knots into the knot vector Read more… procedure, public :: is_rational Check if the NURBS volume is rational Read more… procedure, public :: modify_Wc Modify weights Read more… procedure, public :: modify_Xc Modify control points Read more… procedure, public :: nearest_point Find the nearest point on the NURBS volume Read more… procedure, public :: put_to_nurbs Put a shape to a NURBS volume Read more… procedure, public :: remove_knots Remove knots from the knot vector Read more… procedure, public :: rotate_Xc Rotate control points Read more… procedure, public :: rotate_Xg Rotate geometry points Read more… generic, public :: set => set1 , set2 , set3 Set NURBS volume Read more… procedure, public :: set1 Set knot vectors, control points and weights for the NURBS volume object Read more… procedure, public :: set2 Set NURBS volume using nodes of parameter space, degree, continuity, control points and weights Read more… procedure, public :: set3 Set Bezier or Rational Bezier volume using control points and weights Read more… procedure, public :: set_C Set a C-shape Read more… procedure, public :: set_elem Set IGA element connectivity Read more… procedure, public :: set_elem_Xc_vis Set connectivity for control points Read more… procedure, public :: set_elem_Xg_vis Set connectivity for geometry points Read more… procedure, public :: set_half_ring Set a half ring Read more… procedure, public :: set_hexahedron Set a hexahedron Read more… procedure, public :: set_ring Set a ring Read more… procedure, public :: show Show the NURBS object using PyVista Read more… procedure, public :: translate_Xc Translate control points Read more… procedure, public :: translate_Xg Translate geometry points Read more… procedure, private :: get_Wc_all Get all weights Read more… procedure, private :: get_Wci Get i-th weight Read more… procedure, private :: get_Xc_all Get all control points Read more… procedure, private :: get_Xci Get i-th control point Read more… procedure, private :: get_Xcid Get i-th control point in a specific direction Read more… procedure, private :: get_Xg_all Get all geometry points Read more… procedure, private :: get_Xgi Get i-th geometry point Read more… procedure, private :: get_Xgid Get i-th geometry point in a specific direction Read more… procedure, private :: get_degree_all Get degree of the NURBS volume in all directions Read more… procedure, private :: get_degree_dir Get degree of the NURBS volume in a specific direction Read more… procedure, private :: get_knot_all Get all knot vectors Read more… procedure, private :: get_knoti Get i-th knot value Read more… Functions private pure function cmp_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function cmp_elem_Xc_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) private pure function cmp_elem_Xg_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) private pure function get_Wc_all (this) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) private pure function get_Wci (this, n) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) private pure function get_Xc_all (this) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xci (this, n) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xcid (this, n, dir) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) private pure function get_Xg_all (this) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xgi (this, n) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xgid (this, n, dir) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) private pure function get_Xt (this, dir) result(Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) private pure function get_continuity (this, dir) result(c) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) private pure function get_degree_all (this) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, (3) private pure function get_degree_dir (this, dir) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer private pure function get_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function get_elem_Xc_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function get_elem_Xg_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function get_knot_all (this, dir) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) private pure function get_knoti (this, dir, i) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir integer, intent(in) :: i Return Value real(kind=rk) private pure function get_multiplicity (this, dir) result(m) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) private pure function get_nc (this, dir) result(nc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer private pure function get_ng (this) result(ng) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, (3) private pure function is_rational (this) result(r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value logical Subroutines private pure subroutine basis (this, res1, res2, res3, Xt1, Xt2, Xt3, Tgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 integer, intent(in), optional :: res3 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt3 (:) real(kind=rk), intent(out), allocatable :: Tgc (:,:) private pure subroutine cmp_degree (this, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: dir private pure subroutine cmp_nc (this, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: dir private pure subroutine create (this, res1, res2, res3, Xt1, Xt2, Xt3, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 integer, intent(in), optional :: res3 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt3 (:) real(kind=rk), intent(in), optional, contiguous :: Xt (:,:) private pure subroutine derivative (this, res1, res2, res3, Xt1, Xt2, Xt3, dTgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 integer, intent(in), optional :: res3 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt3 (:) real(kind=rk), intent(out), allocatable :: dTgc (:,:) private pure subroutine elevate_degree (this, dir, t) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in) :: dir integer, intent(in) :: t private impure subroutine export_Xc (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this character(len=*), intent(in) :: filename private impure subroutine export_Xg (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this character(len=*), intent(in) :: filename private pure subroutine finalize (this) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this private pure subroutine insert_knots (this, dir, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) private pure subroutine modify_Wc (this, W, num) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: W integer, intent(in) :: num private pure subroutine modify_Xc (this, X, num, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: X integer, intent(in) :: num integer, intent(in) :: dir private pure subroutine nearest_point (this, point_Xg, nearest_Xg, nearest_Xt, id) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this real(kind=rk), intent(in) :: point_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xt (:) integer, intent(out), optional :: id private pure subroutine put_to_nurbs (this, X, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: X (:,:) integer, intent(in), contiguous :: elemConn (:,:) private pure subroutine remove_knots (this, dir, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) private pure subroutine rotate_Xc (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta private pure subroutine rotate_Xg (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta private pure subroutine set1 (this, knot1, knot2, knot3, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set control points and weights for the NURBS volume object. Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: knot3 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set2 (this, Xth_dir1, Xth_dir2, Xth_dir3, degree, continuity1, continuity2, continuity3, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set control points and weights for the NURBS volume object. Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir1 (:) real(kind=rk), intent(in), contiguous :: Xth_dir2 (:) real(kind=rk), intent(in), contiguous :: Xth_dir3 (:) integer, intent(in), contiguous :: degree (:) integer, intent(in), contiguous :: continuity1 (:) integer, intent(in), contiguous :: continuity2 (:) integer, intent(in), contiguous :: continuity3 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set3 (this, nc, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set Bezier or Rational Bezier volume using control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set_C (this, center, radius1, radius2, length) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 real(kind=rk), intent(in) :: length private pure subroutine set_elem (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) private pure subroutine set_elem_Xc_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) private pure subroutine set_elem_Xg_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) private pure subroutine set_half_ring (this, center, radius1, radius2, length) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 real(kind=rk), intent(in) :: length private pure subroutine set_hexahedron (this, L, nc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: L (:) integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set_ring (this, center, radius1, radius2, length) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 real(kind=rk), intent(in) :: length private impure subroutine show (this, vtkfile_Xc, vtkfile_Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this character(len=*), intent(in) :: vtkfile_Xc character(len=*), intent(in) :: vtkfile_Xg private pure subroutine translate_Xc (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) private pure subroutine translate_Xg (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:)","tags":"","loc":"module/forcad_nurbs_volume.html"},{"title":"forcad_nurbs_curve – ForCAD","text":"This module defines the 'nurbs_curve' type for representing a Non-Uniform Rational B-Spline (NURBS) curve. Uses forcad_utils module~~forcad_nurbs_curve~~UsesGraph module~forcad_nurbs_curve forcad_nurbs_curve module~forcad_utils forcad_utils module~forcad_nurbs_curve->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Used by module~~forcad_nurbs_curve~~UsedByGraph module~forcad_nurbs_curve forcad_nurbs_curve module~forcad forcad module~forcad->module~forcad_nurbs_curve program~example1_curve example1_curve program~example1_curve->module~forcad program~example3_surface example3_surface program~example3_surface->module~forcad program~example3_volume example3_volume program~example3_volume->module~forcad program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->module~forcad program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->module~forcad program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->module~forcad program~example_ppm1 example_ppm1 program~example_ppm1->module~forcad program~example_ppm2 example_ppm2 program~example_ppm2->module~forcad program~example_ppm3 example_ppm3 program~example_ppm3->module~forcad program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->module~forcad program~nearest_point_1d nearest_point_1d program~nearest_point_1d->module~forcad program~nearest_point_2d nearest_point_2d program~nearest_point_2d->module~forcad program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->module~forcad program~nearest_point_3d nearest_point_3d program~nearest_point_3d->module~forcad program~shape_c_1d shape_C_1d program~shape_c_1d->module~forcad program~shape_c_2d shape_C_2d program~shape_c_2d->module~forcad program~shape_c_3d shape_C_3d program~shape_c_3d->module~forcad program~shape_circle shape_circle program~shape_circle->module~forcad program~shape_half_circle shape_half_circle program~shape_half_circle->module~forcad program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->module~forcad program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->module~forcad program~shape_hexahedron shape_hexahedron program~shape_hexahedron->module~forcad program~shape_ring_2d shape_ring_2d program~shape_ring_2d->module~forcad program~shape_ring_3d shape_ring_3d program~shape_ring_3d->module~forcad program~shape_tetragon shape_tetragon program~shape_tetragon->module~forcad Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Derived Types type, public :: nurbs_curve Components Type Visibility Attributes Name Initial real(kind=rk), private, allocatable :: Wc (:) Weights for control points (1D array: [nc]) real(kind=rk), private, allocatable :: Xc (:,:) Control points (2D array: [nc, dim]) real(kind=rk), private, allocatable :: Xg (:,:) Geometry points (2D array: [ng, dim]) real(kind=rk), private, allocatable :: Xt (:) Evaluation points (1D array: [ng]) integer, private :: degree Degree (order) of the curve integer, private, allocatable :: elemConn (:,:) IGA element connectivity integer, private, allocatable :: elemConn_Xc_vis (:,:) Connectivity for visualization of control points integer, private, allocatable :: elemConn_Xg_vis (:,:) Connectivity for visualization of geometry points real(kind=rk), private, allocatable :: knot (:) Knot vector (1D array) integer, private :: nc Number of control points integer, private :: ng Number of geometry points Type-Bound Procedures procedure, public :: basis Compute the basis functions of the NURBS curve Read more… procedure, public :: cmp_degree Compute degree of the NURBS curve Read more… procedure, public :: cmp_elem Generate IGA element connectivity Read more… procedure, public :: cmp_elem_Xc_vis Generate connectivity for control points Read more… procedure, public :: cmp_elem_Xg_vis Generate connectivity for geometry points Read more… procedure, public :: cmp_nc Compute number of required control points Read more… procedure, public :: create Generate geometry points Read more… procedure, public :: derivative Compute the derivative of the NURBS curve Read more… procedure, public :: elevate_degree Elevate the degree of the curve Read more… procedure, public :: export_Xc Export control points to VTK file Read more… procedure, public :: export_Xg Export geometry points to VTK file Read more… procedure, public :: finalize Finalize the NURBS curve object Read more… generic, public :: get_Wc => get_Wc_all , get_Wci Get weights Read more… generic, public :: get_Xc => get_Xc_all , get_Xci , get_Xcid Get control points Read more… generic, public :: get_Xg => get_Xg_all , get_Xgi , get_Xgid Get geometry points Read more… procedure, public :: get_Xt Get parameter values Read more… procedure, public :: get_continuity Compute and return the continuity of the curve Read more… procedure, public :: get_degree Get degree of the NURBS curve Read more… procedure, public :: get_elem Get IGA element connectivity Read more… procedure, public :: get_elem_Xc_vis Get connectivity for control points Read more… procedure, public :: get_elem_Xg_vis Get connectivity for geometry points Read more… generic, public :: get_knot => get_knoti , get_knot_all Get knot vector Read more… procedure, public :: get_multiplicity Compute and return the multiplicity of the knots Read more… procedure, public :: get_nc Get number of control points Read more… procedure, public :: get_ng Get number of geometry points Read more… procedure, public :: insert_knots Insert knots into the knot vector Read more… procedure, public :: is_rational Check if the NURBS curve is rational Read more… procedure, public :: modify_Wc Modify weights Read more… procedure, public :: modify_Xc Modify control points Read more… procedure, public :: nearest_point Find the nearest point on the NURBS curve Read more… procedure, public :: remove_knots Remove knots from the knot vector Read more… procedure, public :: rotate_Xc Rotate control points Read more… procedure, public :: rotate_Xg Rotate geometry points Read more… generic, public :: set => set1 , set2 , set3 Set NURBS curve Read more… procedure, public :: set1 Set knot vector, control points and weights for the NURBS curve object Read more… procedure, public :: set2 Set NURBS curve using nodes of parameter space, degree, continuity, control points and weights Read more… procedure, public :: set3 Set Bezier or Rational Bezier curve using control points and weights Read more… procedure, public :: set_C Set a C-shape Read more… procedure, public :: set_circle Set a circle Read more… procedure, public :: set_elem Set IGA element connectivity Read more… procedure, public :: set_elem_Xc_vis Set connectivity for control points Read more… procedure, public :: set_elem_Xg_vis Set connectivity for geometry points Read more… procedure, public :: set_half_circle Set a half circle Read more… procedure, public :: show Show the NURBS object using PyVista Read more… procedure, public :: translate_Xc Translate control points Read more… procedure, public :: translate_Xg Translate geometry points Read more… procedure, private :: get_Wc_all Get all weights Read more… procedure, private :: get_Wci Get i-th weight Read more… procedure, private :: get_Xc_all Get all control points Read more… procedure, private :: get_Xci Get i-th control point Read more… procedure, private :: get_Xcid Get i-th control point in a specific direction Read more… procedure, private :: get_Xg_all Get all geometry points Read more… procedure, private :: get_Xgi Get i-th geometry point Read more… procedure, private :: get_Xgid Get i-th geometry point in a specific direction Read more… procedure, private :: get_knot_all Get all knot vectors Read more… procedure, private :: get_knoti Get i-th knot value Read more… Functions private pure function cmp_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function cmp_elem_Xc_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in), optional :: p Return Value integer, allocatable, (:,:) private pure function cmp_elem_Xg_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in), optional :: p Return Value integer, allocatable, (:,:) private pure function get_Wc_all (this) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) private pure function get_Wci (this, n) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) private pure function get_Xc_all (this) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xci (this, n) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xcid (this, n, dir) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) private pure function get_Xg_all (this) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xgi (this, n) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xgid (this, n, dir) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) private pure function get_Xt (this) result(Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) private pure function get_continuity (this) result(c) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:) private pure function get_degree (this) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer private pure function get_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function get_elem_Xc_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function get_elem_Xg_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function get_knot_all (this) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) private pure function get_knoti (this, i) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: i Return Value real(kind=rk) private pure function get_multiplicity (this) result(m) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:) private pure function get_nc (this) result(nc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer private pure function get_ng (this) result(ng) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer private pure function is_rational (this) result(r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value logical Subroutines private pure subroutine basis (this, res, Xt, Tgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), optional :: res real(kind=rk), intent(in), optional, contiguous :: Xt (:) real(kind=rk), intent(out), allocatable :: Tgc (:,:) private pure subroutine cmp_degree (this) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this private pure subroutine cmp_nc (this) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this private pure subroutine create (this, res, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), optional :: res real(kind=rk), intent(in), optional, contiguous :: Xt (:) private pure subroutine derivative (this, res, Xt, dTgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), optional :: res real(kind=rk), intent(in), optional, contiguous :: Xt (:) real(kind=rk), intent(out), allocatable :: dTgc (:,:) private pure subroutine elevate_degree (this, t) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in) :: t private impure subroutine export_Xc (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this character(len=*), intent(in) :: filename private impure subroutine export_Xg (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this character(len=*), intent(in) :: filename private pure subroutine finalize (this) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this private pure subroutine insert_knots (this, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) private pure subroutine modify_Wc (this, W, num) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: W integer, intent(in) :: num private pure subroutine modify_Xc (this, X, num, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: X integer, intent(in) :: num integer, intent(in) :: dir private pure subroutine nearest_point (this, point_Xg, nearest_Xg, nearest_Xt, id) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this real(kind=rk), intent(in) :: point_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xg (:) real(kind=rk), intent(out), optional :: nearest_Xt integer, intent(out), optional :: id private pure subroutine remove_knots (this, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) private pure subroutine rotate_Xc (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta private pure subroutine rotate_Xg (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta private pure subroutine set1 (this, knot, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set knot vector, control points and weights for the NURBS curve object. Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set2 (this, Xth_dir, degree, continuity, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set NURBS curve using nodes of parameter space (Xth), degree, continuity, control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir (:) integer, intent(in) :: degree integer, intent(in), contiguous :: continuity (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set3 (this, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set Bezier or Rational Bezier curve using control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set_C (this, center, radius) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius private pure subroutine set_circle (this, center, radius) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius private pure subroutine set_elem (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) private pure subroutine set_elem_Xc_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) private pure subroutine set_elem_Xg_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) private pure subroutine set_half_circle (this, center, radius) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius private impure subroutine show (this, vtkfile_Xc, vtkfile_Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this character(len=*), intent(in) :: vtkfile_Xc character(len=*), intent(in) :: vtkfile_Xg private pure subroutine translate_Xc (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) private pure subroutine translate_Xg (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:)","tags":"","loc":"module/forcad_nurbs_curve.html"},{"title":"forcad_nurbs_surface – ForCAD","text":"This module defines the 'nurbs_surface' type for representing a Non-Uniform Rational B-Spline (NURBS) surface. Uses forcad_utils module~~forcad_nurbs_surface~~UsesGraph module~forcad_nurbs_surface forcad_nurbs_surface module~forcad_utils forcad_utils module~forcad_nurbs_surface->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Used by module~~forcad_nurbs_surface~~UsedByGraph module~forcad_nurbs_surface forcad_nurbs_surface module~forcad forcad module~forcad->module~forcad_nurbs_surface program~example1_curve example1_curve program~example1_curve->module~forcad program~example3_surface example3_surface program~example3_surface->module~forcad program~example3_volume example3_volume program~example3_volume->module~forcad program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->module~forcad program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->module~forcad program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->module~forcad program~example_ppm1 example_ppm1 program~example_ppm1->module~forcad program~example_ppm2 example_ppm2 program~example_ppm2->module~forcad program~example_ppm3 example_ppm3 program~example_ppm3->module~forcad program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->module~forcad program~nearest_point_1d nearest_point_1d program~nearest_point_1d->module~forcad program~nearest_point_2d nearest_point_2d program~nearest_point_2d->module~forcad program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->module~forcad program~nearest_point_3d nearest_point_3d program~nearest_point_3d->module~forcad program~shape_c_1d shape_C_1d program~shape_c_1d->module~forcad program~shape_c_2d shape_C_2d program~shape_c_2d->module~forcad program~shape_c_3d shape_C_3d program~shape_c_3d->module~forcad program~shape_circle shape_circle program~shape_circle->module~forcad program~shape_half_circle shape_half_circle program~shape_half_circle->module~forcad program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->module~forcad program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->module~forcad program~shape_hexahedron shape_hexahedron program~shape_hexahedron->module~forcad program~shape_ring_2d shape_ring_2d program~shape_ring_2d->module~forcad program~shape_ring_3d shape_ring_3d program~shape_ring_3d->module~forcad program~shape_tetragon shape_tetragon program~shape_tetragon->module~forcad Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Derived Types type, public :: nurbs_surface Components Type Visibility Attributes Name Initial real(kind=rk), private, allocatable :: Wc (:) Weights for control points (1D array: [nc(1)*nc(2)]) real(kind=rk), private, allocatable :: Xc (:,:) Control points (2D array: [nc(1)*nc(2), dim]) real(kind=rk), private, allocatable :: Xg (:,:) Geometry points (2D array: [ng(1)*ng(2), dim]) real(kind=rk), private, allocatable :: Xt (:,:) Evaluation parameter values (2D array: [ng(1)*ng(2), 2]) real(kind=rk), private, allocatable :: Xt1 (:) Evaluation parameter values in the first direction (1D array: [ng(1)]) real(kind=rk), private, allocatable :: Xt2 (:) Evaluation parameter values in the second direction (1D array: [ng(2)]) integer, private :: degree (2) Degree (order) of the surface integer, private, allocatable :: elemConn (:,:) IGA element connectivity integer, private, allocatable :: elemConn_Xc_vis (:,:) Connectivity for visualization of control points integer, private, allocatable :: elemConn_Xg_vis (:,:) Connectivity for visualization of geometry points real(kind=rk), private, allocatable :: knot1 (:) Knot vector in the first direction (1D array) real(kind=rk), private, allocatable :: knot2 (:) Knot vector in the second direction (1D array) integer, private :: nc (2) Number of control points in each direction integer, private :: ng (2) Number of geometry points in each direction Type-Bound Procedures procedure, public :: basis Compute the basis functions of the NURBS surface Read more… procedure, public :: cmp_degree Compute degree of the NURBS surface Read more… procedure, public :: cmp_elem Generate IGA element connectivity Read more… procedure, public :: cmp_elem_Xc_vis Generate connectivity for control points Read more… procedure, public :: cmp_elem_Xg_vis Generate connectivity for geometry points Read more… procedure, public :: cmp_nc Compute number of required control points Read more… procedure, public :: create Generate geometry points Read more… procedure, public :: derivative Compute the derivative of the NURBS surface Read more… procedure, public :: elevate_degree Elevate degree Read more… procedure, public :: export_Xc Export control points to VTK file Read more… procedure, public :: export_Xg Export geometry points to VTK file Read more… procedure, public :: finalize Finalize the NURBS surface object Read more… generic, public :: get_Wc => get_Wc_all , get_Wci Get weights Read more… generic, public :: get_Xc => get_Xc_all , get_Xci , get_Xcid Get control points Read more… generic, public :: get_Xg => get_Xg_all , get_Xgi , get_Xgid Get geometry points Read more… procedure, public :: get_Xt Get parameter values Read more… procedure, public :: get_continuity Compute and return the continuity of the NURBS surface Read more… generic, public :: get_degree => get_degree_all , get_degree_dir Get degree of the NURBS surface Read more… procedure, public :: get_elem Get IGA element connectivity Read more… procedure, public :: get_elem_Xc_vis Get connectivity for control points Read more… procedure, public :: get_elem_Xg_vis Get connectivity for geometry points Read more… generic, public :: get_knot => get_knoti , get_knot_all Get knot vector Read more… procedure, public :: get_multiplicity Compute and return the multiplicity of the knot vector Read more… procedure, public :: get_nc Get number of control points Read more… procedure, public :: get_ng Get number of geometry points Read more… procedure, public :: insert_knots Insert knots into the knot vector Read more… procedure, public :: is_rational Check if the NURBS surface is rational Read more… procedure, public :: modify_Wc Modify weights Read more… procedure, public :: modify_Xc Modify control points Read more… procedure, public :: nearest_point Find the nearest point on the NURBS surface Read more… procedure, public :: remove_knots Remove knots from the knot vector Read more… procedure, public :: rotate_Xc Rotate control points Read more… procedure, public :: rotate_Xg Rotate geometry points Read more… generic, public :: set => set1 , set2 , set3 Set NURBS surface Read more… procedure, public :: set1 Set knot vectors, control points and weights for the NURBS surface object Read more… procedure, public :: set2 Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights Read more… procedure, public :: set3 Set Bezier or Rational Bezier surface using control points and weights Read more… procedure, public :: set_C Set a C-shape Read more… procedure, public :: set_elem Set IGA element connectivity Read more… procedure, public :: set_elem_Xc_vis Set connectivity for control points Read more… procedure, public :: set_elem_Xg_vis Set connectivity for geometry points Read more… procedure, public :: set_half_ring Set a half ring Read more… procedure, public :: set_ring Set a ring Read more… procedure, public :: set_tetragon Set a tetragon Read more… procedure, public :: show Show the NURBS object using PyVista Read more… procedure, public :: translate_Xc Translate control points Read more… procedure, public :: translate_Xg Translate geometry points Read more… procedure, private :: get_Wc_all Get all weights Read more… procedure, private :: get_Wci Get i-th weight Read more… procedure, private :: get_Xc_all Get all control points Read more… procedure, private :: get_Xci Get i-th control point Read more… procedure, private :: get_Xcid Get i-th control point in a specific direction Read more… procedure, private :: get_Xg_all Get all geometry points Read more… procedure, private :: get_Xgi Get i-th geometry point Read more… procedure, private :: get_Xgid Get i-th geometry point in a specific direction Read more… procedure, private :: get_degree_all Get degree of the NURBS surface in both directions Read more… procedure, private :: get_degree_dir Get degree of the NURBS surface in a specific direction Read more… procedure, private :: get_knot_all Get all knot vectors Read more… procedure, private :: get_knoti Get i-th knot value Read more… Functions private pure function cmp_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function cmp_elem_Xc_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) private pure function cmp_elem_Xg_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) private pure function get_Wc_all (this) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) private pure function get_Wci (this, n) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) private pure function get_Xc_all (this) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xci (this, n) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xcid (this, n, dir) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) private pure function get_Xg_all (this) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xgi (this, n) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xgid (this, n, dir) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) private pure function get_Xt (this, dir) result(Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) private pure function get_continuity (this, dir) result(c) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) private pure function get_degree_all (this) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, (2) private pure function get_degree_dir (this, dir) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer private pure function get_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function get_elem_Xc_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function get_elem_Xg_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function get_knot_all (this, dir) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) private pure function get_knoti (this, dir, i) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir integer, intent(in) :: i Return Value real(kind=rk) private pure function get_multiplicity (this, dir) result(m) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) private pure function get_nc (this, dir) result(nc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer private pure function get_ng (this) result(ng) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, (2) private pure function is_rational (this) result(r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value logical Subroutines private pure subroutine basis (this, res1, res2, Xt1, Xt2, Tgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(out), allocatable :: Tgc (:,:) private pure subroutine cmp_degree (this, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: dir private pure subroutine cmp_nc (this, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: dir private pure subroutine create (this, res1, res2, Xt1, Xt2, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt (:,:) private pure subroutine derivative (this, res1, res2, Xt1, Xt2, dTgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(out), allocatable :: dTgc (:,:) private pure subroutine elevate_degree (this, dir, t) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in) :: dir integer, intent(in) :: t private impure subroutine export_Xc (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this character(len=*), intent(in) :: filename private impure subroutine export_Xg (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this character(len=*), intent(in) :: filename private pure subroutine finalize (this) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this private pure subroutine insert_knots (this, dir, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) private pure subroutine modify_Wc (this, W, num) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: W integer, intent(in) :: num private pure subroutine modify_Xc (this, X, num, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: X integer, intent(in) :: num integer, intent(in) :: dir private pure subroutine nearest_point (this, point_Xg, nearest_Xg, nearest_Xt, id) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this real(kind=rk), intent(in) :: point_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xt (:) integer, intent(out), optional :: id private pure subroutine remove_knots (this, dir, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) private pure subroutine rotate_Xc (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta private pure subroutine rotate_Xg (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta private pure subroutine set1 (this, knot1, knot2, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set knot vectors, control points and weights for the NURBS surface object. Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set2 (this, Xth_dir1, Xth_dir2, degree, continuity1, continuity2, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir1 (:) real(kind=rk), intent(in), contiguous :: Xth_dir2 (:) integer, intent(in), contiguous :: degree (:) integer, intent(in), contiguous :: continuity1 (:) integer, intent(in), contiguous :: continuity2 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set3 (this, nc, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set Bezier or Rational Bezier surface using control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set_C (this, center, radius1, radius2) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 private pure subroutine set_elem (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) private pure subroutine set_elem_Xc_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) private pure subroutine set_elem_Xg_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) private pure subroutine set_half_ring (this, center, radius1, radius2) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 private pure subroutine set_ring (this, center, radius1, radius2) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 private pure subroutine set_tetragon (this, L, nc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: L (2) integer, intent(in) :: nc (2) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private impure subroutine show (this, vtkfile_Xc, vtkfile_Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this character(len=*), intent(in) :: vtkfile_Xc character(len=*), intent(in) :: vtkfile_Xg private pure subroutine translate_Xc (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) private pure subroutine translate_Xg (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:)","tags":"","loc":"module/forcad_nurbs_surface.html"},{"title":"shape_hexahedron – ForCAD","text":"Uses forcad program~~shape_hexahedron~~UsesGraph program~shape_hexahedron shape_hexahedron module~forcad forcad program~shape_hexahedron->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set up a hexahedron shape with dimensions L = [2.0, 4.0, 8.0] and a specified number of control points nc = [4, 6, 8].\nThe weights of the control points (Wc) are optional. Export the control points to a VTK file for visualization. Create the shape using the specified number of elements in each direction. Export the geometry to a VTK file for visualization. Show the control geometry and geometry using PyVista Finalize and clean up the shape object. Calls program~~shape_hexahedron~~CallsGraph program~shape_hexahedron shape_hexahedron proc~create nurbs_volume%create program~shape_hexahedron->proc~create proc~export_xc nurbs_volume%export_Xc program~shape_hexahedron->proc~export_xc proc~export_xg nurbs_volume%export_Xg program~shape_hexahedron->proc~export_xg proc~finalize nurbs_volume%finalize program~shape_hexahedron->proc~finalize proc~set_hexahedron nurbs_volume%set_hexahedron program~shape_hexahedron->proc~set_hexahedron proc~show nurbs_volume%show program~shape_hexahedron->proc~show interface~ndgrid ndgrid proc~create->interface~ndgrid proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~export_xc->proc~cmp_elem_xc_vis proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~export_xg->proc~cmp_elem_xg_vis none~set nurbs_volume%set proc~set_hexahedron->none~set proc~hexahedron_xc hexahedron_Xc proc~set_hexahedron->proc~hexahedron_xc proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_volume ) :: shape","tags":"","loc":"program/shape_hexahedron.html"},{"title":"example_ppm2 – ForCAD","text":"Uses forcolormap fortime forcad forimage program~~example_ppm2~~UsesGraph program~example_ppm2 example_ppm2 forcolormap forcolormap program~example_ppm2->forcolormap forimage forimage program~example_ppm2->forimage fortime fortime program~example_ppm2->fortime module~forcad forcad program~example_ppm2->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Visualization of NURBS surfaces using ForCAD, ForImage and ForColorMap libraries\nThis example converts NURBS surfaces (vector) to an image (raster) using ForCAD, ForImage and ForColorMap libraries. Set the shape parameters for a tetragon\nSet the shape parameters for a ring\nSet the shape parameters for a ring\nSet the shape parameters for a ring\nSet the shape parameters for a ring Calls program~~example_ppm2~~CallsGraph program~example_ppm2 example_ppm2 compute_rgb compute_rgb program~example_ppm2->compute_rgb export_pnm export_pnm program~example_ppm2->export_pnm get_b get_b program~example_ppm2->get_b get_g get_g program~example_ppm2->get_g get_r get_r program~example_ppm2->get_r none~get_xg~3 nurbs_surface%get_Xg program~example_ppm2->none~get_xg~3 proc~create~3 nurbs_surface%create program~example_ppm2->proc~create~3 proc~finalize~3 nurbs_surface%finalize program~example_ppm2->proc~finalize~3 proc~get_ng~3 nurbs_surface%get_ng program~example_ppm2->proc~get_ng~3 proc~rotate_xc~3 nurbs_surface%rotate_Xc program~example_ppm2->proc~rotate_xc~3 proc~set_half_ring~2 nurbs_surface%set_half_ring program~example_ppm2->proc~set_half_ring~2 proc~set_tetragon nurbs_surface%set_tetragon program~example_ppm2->proc~set_tetragon proc~translate_xc~3 nurbs_surface%translate_Xc program~example_ppm2->proc~translate_xc~3 set set program~example_ppm2->set set_pnm set_pnm program~example_ppm2->set_pnm timer_start timer_start program~example_ppm2->timer_start timer_stop timer_stop program~example_ppm2->timer_stop proc~get_xg_all~3 nurbs_surface%get_Xg_all none~get_xg~3->proc~get_xg_all~3 proc~get_xgid~3 nurbs_surface%get_Xgid none~get_xg~3->proc~get_xgid~3 proc~get_xgi~3 nurbs_surface%get_Xgi none~get_xg~3->proc~get_xgi~3 interface~ndgrid ndgrid proc~create~3->interface~ndgrid proc~is_rational~3 nurbs_surface%is_rational proc~create~3->proc~is_rational~3 proc~rotation rotation proc~rotate_xc~3->proc~rotation none~set~3 nurbs_surface%set proc~set_half_ring~2->none~set~3 proc~set_tetragon->none~set~3 proc~tetragon_xc tetragon_Xc proc~set_tetragon->proc~tetragon_xc proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1~3 nurbs_surface%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_surface%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 cosd cosd proc~rotation->cosd sind sind proc~rotation->sind proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3->proc~cmp_nc~3 proc~set2~3->proc~cmp_nc~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~3->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial real(kind=rk), allocatable :: Xg (:,:) real(kind=rk) :: aspect_ratio type(color) :: background_color integer :: blue real(kind=rk) :: center (3) type(colormap) :: cmap integer :: green integer :: height integer :: i integer, allocatable :: idx (:,:) type(format_pnm) :: image real(kind=rk) :: inner_radius integer :: ng (2) real(kind=rk) :: outer_radius integer(kind=ik), allocatable :: px (:,:) integer :: red integer :: res1 integer :: res2 type( nurbs_surface ) :: shape type(timer) :: t integer :: width real(kind=rk), allocatable :: z_values (:)","tags":"","loc":"program/example_ppm2.html"},{"title":"shape_circle – ForCAD","text":"Uses forcad program~~shape_circle~~UsesGraph program~shape_circle shape_circle module~forcad forcad program~shape_circle->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set a circle with radius 2.0 and center at [0.0, 0.0, 0.0] Export control points to a VTK file Generate the NURBS circle with a resolution of 100 Export the generated cirlce to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS curve object Calls program~~shape_circle~~CallsGraph program~shape_circle shape_circle proc~create~2 nurbs_curve%create program~shape_circle->proc~create~2 proc~export_xc~2 nurbs_curve%export_Xc program~shape_circle->proc~export_xc~2 proc~export_xg~2 nurbs_curve%export_Xg program~shape_circle->proc~export_xg~2 proc~finalize~2 nurbs_curve%finalize program~shape_circle->proc~finalize~2 proc~set_circle nurbs_curve%set_circle program~shape_circle->proc~set_circle proc~show~2 nurbs_curve%show program~shape_circle->proc~show~2 proc~is_rational~2 nurbs_curve%is_rational proc~create~2->proc~is_rational~2 proc~cmp_elem_xc_vis~2 nurbs_curve%cmp_elem_Xc_vis proc~export_xc~2->proc~cmp_elem_xc_vis~2 proc~cmp_elem_xg_vis~2 nurbs_curve%cmp_elem_Xg_vis proc~export_xg~2->proc~cmp_elem_xg_vis~2 none~set~2 nurbs_curve%set proc~set_circle->none~set~2 proc~set1~2 nurbs_curve%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_curve%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_curve%set3 none~set~2->proc~set3~2 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree~2 nurbs_curve%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 proc~repelem repelem proc~compute_knot_vector->proc~repelem interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_curve ) :: shape","tags":"","loc":"program/shape_circle.html"},{"title":"shape_half_ring_2d – ForCAD","text":"Uses forcad program~~shape_half_ring_2d~~UsesGraph program~shape_half_ring_2d shape_half_ring_2d module~forcad forcad program~shape_half_ring_2d->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set up a half ring shape centered at 0,0,0 with inner radius 1 and outer radius 2. Export the control points to a VTK file for visualization. Create the shape using the specified number of elements in each direction. Export the geometry to a VTK file for visualization. Show the control geometry and geometry using PyVista Finalize and clean up the shape object. Calls program~~shape_half_ring_2d~~CallsGraph program~shape_half_ring_2d shape_half_ring_2d proc~create~3 nurbs_surface%create program~shape_half_ring_2d->proc~create~3 proc~export_xc~3 nurbs_surface%export_Xc program~shape_half_ring_2d->proc~export_xc~3 proc~export_xg~3 nurbs_surface%export_Xg program~shape_half_ring_2d->proc~export_xg~3 proc~finalize~3 nurbs_surface%finalize program~shape_half_ring_2d->proc~finalize~3 proc~set_half_ring~2 nurbs_surface%set_half_ring program~shape_half_ring_2d->proc~set_half_ring~2 proc~show~3 nurbs_surface%show program~shape_half_ring_2d->proc~show~3 interface~ndgrid ndgrid proc~create~3->interface~ndgrid proc~is_rational~3 nurbs_surface%is_rational proc~create~3->proc~is_rational~3 proc~cmp_elem_xc_vis~3 nurbs_surface%cmp_elem_Xc_vis proc~export_xc~3->proc~cmp_elem_xc_vis~3 proc~cmp_elem_xg_vis~3 nurbs_surface%cmp_elem_Xg_vis proc~export_xg~3->proc~cmp_elem_xg_vis~3 none~set~3 nurbs_surface%set proc~set_half_ring~2->none~set~3 proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1~3 nurbs_surface%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_surface%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3->proc~cmp_nc~3 proc~set2~3->proc~cmp_nc~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~3->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_surface ) :: shape","tags":"","loc":"program/shape_half_ring_2d.html"},{"title":"shape_ring_2d – ForCAD","text":"Uses forcad program~~shape_ring_2d~~UsesGraph program~shape_ring_2d shape_ring_2d module~forcad forcad program~shape_ring_2d->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set up a ring shape with inner radius 1.0 and outer radius 2.0. Export the control points to a VTK file for visualization. Create the shape using the specified number of elements in each direction. Export the geometry to a VTK file for visualization. Show the control geometry and geometry using PyVista Finalize and clean up the shape object. Calls program~~shape_ring_2d~~CallsGraph program~shape_ring_2d shape_ring_2d proc~create~3 nurbs_surface%create program~shape_ring_2d->proc~create~3 proc~export_xc~3 nurbs_surface%export_Xc program~shape_ring_2d->proc~export_xc~3 proc~export_xg~3 nurbs_surface%export_Xg program~shape_ring_2d->proc~export_xg~3 proc~finalize~3 nurbs_surface%finalize program~shape_ring_2d->proc~finalize~3 proc~set_ring~2 nurbs_surface%set_ring program~shape_ring_2d->proc~set_ring~2 proc~show~3 nurbs_surface%show program~shape_ring_2d->proc~show~3 interface~ndgrid ndgrid proc~create~3->interface~ndgrid proc~is_rational~3 nurbs_surface%is_rational proc~create~3->proc~is_rational~3 proc~cmp_elem_xc_vis~3 nurbs_surface%cmp_elem_Xc_vis proc~export_xc~3->proc~cmp_elem_xc_vis~3 proc~cmp_elem_xg_vis~3 nurbs_surface%cmp_elem_Xg_vis proc~export_xg~3->proc~cmp_elem_xg_vis~3 none~set~3 nurbs_surface%set proc~set_ring~2->none~set~3 proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1~3 nurbs_surface%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_surface%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3->proc~cmp_nc~3 proc~set2~3->proc~cmp_nc~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~3->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_surface ) :: shape","tags":"","loc":"program/shape_ring_2d.html"},{"title":"example_ppm1 – ForCAD","text":"Uses forcolormap fortime forcad forimage program~~example_ppm1~~UsesGraph program~example_ppm1 example_ppm1 forcolormap forcolormap program~example_ppm1->forcolormap forimage forimage program~example_ppm1->forimage fortime fortime program~example_ppm1->fortime module~forcad forcad program~example_ppm1->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Visualization of NURBS surfaces using ForCAD, ForImage and ForColorMap libraries\nThis example converts NURBS surfaces (vector) to an image (raster) using ForCAD, ForImage and ForColorMap libraries. Set the shape parameters for a tetragon\nSet the shape parameters for a ring\nSet the shape parameters for a ring\nSet the shape parameters for a ring\nSet the shape parameters for a ring Calls program~~example_ppm1~~CallsGraph program~example_ppm1 example_ppm1 compute_rgb compute_rgb program~example_ppm1->compute_rgb export_pnm export_pnm program~example_ppm1->export_pnm get_b get_b program~example_ppm1->get_b get_g get_g program~example_ppm1->get_g get_r get_r program~example_ppm1->get_r none~get_xg~3 nurbs_surface%get_Xg program~example_ppm1->none~get_xg~3 proc~create~3 nurbs_surface%create program~example_ppm1->proc~create~3 proc~finalize~3 nurbs_surface%finalize program~example_ppm1->proc~finalize~3 proc~get_ng~3 nurbs_surface%get_ng program~example_ppm1->proc~get_ng~3 proc~set_ring~2 nurbs_surface%set_ring program~example_ppm1->proc~set_ring~2 proc~set_tetragon nurbs_surface%set_tetragon program~example_ppm1->proc~set_tetragon set set program~example_ppm1->set set_pnm set_pnm program~example_ppm1->set_pnm timer_start timer_start program~example_ppm1->timer_start timer_stop timer_stop program~example_ppm1->timer_stop proc~get_xg_all~3 nurbs_surface%get_Xg_all none~get_xg~3->proc~get_xg_all~3 proc~get_xgid~3 nurbs_surface%get_Xgid none~get_xg~3->proc~get_xgid~3 proc~get_xgi~3 nurbs_surface%get_Xgi none~get_xg~3->proc~get_xgi~3 interface~ndgrid ndgrid proc~create~3->interface~ndgrid proc~is_rational~3 nurbs_surface%is_rational proc~create~3->proc~is_rational~3 none~set~3 nurbs_surface%set proc~set_ring~2->none~set~3 proc~set_tetragon->none~set~3 proc~tetragon_xc tetragon_Xc proc~set_tetragon->proc~tetragon_xc proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1~3 nurbs_surface%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_surface%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3->proc~cmp_nc~3 proc~set2~3->proc~cmp_nc~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~3->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial real(kind=rk), allocatable :: Xg (:,:) real(kind=rk) :: aspect_ratio type(color) :: background_color integer :: blue real(kind=rk) :: center (3) type(colormap) :: cmap integer :: green integer :: height integer :: i integer, allocatable :: idx (:,:) type(format_pnm) :: image real(kind=rk) :: inner_radius integer :: ng (2) real(kind=rk) :: outer_radius integer(kind=ik), allocatable :: px (:,:) integer :: red integer :: res1 integer :: res2 type( nurbs_surface ) :: shape type(timer) :: t integer :: width real(kind=rk), allocatable :: z_values (:)","tags":"","loc":"program/example_ppm1.html"},{"title":"nearest_point_1d – ForCAD","text":"Uses forcad program~~nearest_point_1d~~UsesGraph program~nearest_point_1d nearest_point_1d module~forcad forcad program~nearest_point_1d->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set a circle with radius 2.0 and center at [0.0, 0.0, 0.0] Generate the NURBS circle with a resolution of 100 Find the nearest point on the curve to a given point\nFinalize the NURBS curve object Calls program~~nearest_point_1d~~CallsGraph program~nearest_point_1d nearest_point_1d proc~create~2 nurbs_curve%create program~nearest_point_1d->proc~create~2 proc~finalize~2 nurbs_curve%finalize program~nearest_point_1d->proc~finalize~2 proc~nearest_point~2 nurbs_curve%nearest_point program~nearest_point_1d->proc~nearest_point~2 proc~set_circle nurbs_curve%set_circle program~nearest_point_1d->proc~set_circle proc~is_rational~2 nurbs_curve%is_rational proc~create~2->proc~is_rational~2 none~set~2 nurbs_curve%set proc~set_circle->none~set~2 proc~set1~2 nurbs_curve%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_curve%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_curve%set3 none~set~2->proc~set3~2 proc~cmp_degree~2 nurbs_curve%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 proc~repelem repelem proc~compute_knot_vector->proc~repelem interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial integer :: id id of the nearest point real(kind=rk), allocatable :: nearest_Xg (:) Coordinates of the nearest point on the curve real(kind=rk) :: nearest_Xt Corresponding parametric coordinates of the nearest point type( nurbs_curve ) :: shape Declare a NURBS curve object","tags":"","loc":"program/nearest_point_1d.html"},{"title":"example1_curve – ForCAD","text":"Uses forcad program~~example1_curve~~UsesGraph program~example1_curve example1_curve module~forcad forcad program~example1_curve->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. This program demonstrates the usage of a NURBS (Non-Uniform Rational B-Spline) curve object to create and finalize a NURBS curve.\nIt sets up control points, weights, and knot vectors for all three dimensions, generates the curve, and exports the control points and the curve to VTK files. Define control points for the NURBS curve\nDefine weights for the control points (optional)\nDefine knot vector Set knot vector, control points, and weights for the NURBS curve object.\nWc is optional Deallocate local arrays Export control points to a VTK file Generate the NURBS curve with a resolution of 20 Export the generated curve to a VTK file Show the control geometry and geometry using PyVista Print size of the knot vector Insert knots 0.25, twice and 0.75, once Print size of the updated knot vector Print the degree of the curve Elevate the degree of the curve (2 times) Print the updated degree of the curve Print size of the knot vector Remove knots 0.25, twice and 0.75, once Print size of the updated knot vector Generate the refined curve with a resolution of 20 Export updated control points to a VTK file Export the refined generated curve to a VTK file Show the control geometry and geometry using PyVista Rotate the control points Rotate the generated curve Translate the control points Translate the generated curve Export the transformed control points to a VTK file Export the transformed generated volume to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS curve object Calls program~~example1_curve~~CallsGraph program~example1_curve example1_curve none~get_knot~2 nurbs_curve%get_knot program~example1_curve->none~get_knot~2 none~set~2 nurbs_curve%set program~example1_curve->none~set~2 proc~create~2 nurbs_curve%create program~example1_curve->proc~create~2 proc~elevate_degree~2 nurbs_curve%elevate_degree program~example1_curve->proc~elevate_degree~2 proc~export_xc~2 nurbs_curve%export_Xc program~example1_curve->proc~export_xc~2 proc~export_xg~2 nurbs_curve%export_Xg program~example1_curve->proc~export_xg~2 proc~finalize~2 nurbs_curve%finalize program~example1_curve->proc~finalize~2 proc~get_degree nurbs_curve%get_degree program~example1_curve->proc~get_degree proc~insert_knots~2 nurbs_curve%insert_knots program~example1_curve->proc~insert_knots~2 proc~remove_knots~2 nurbs_curve%remove_knots program~example1_curve->proc~remove_knots~2 proc~rotate_xc~2 nurbs_curve%rotate_Xc program~example1_curve->proc~rotate_xc~2 proc~rotate_xg~2 nurbs_curve%rotate_Xg program~example1_curve->proc~rotate_xg~2 proc~show~2 nurbs_curve%show program~example1_curve->proc~show~2 proc~translate_xc~2 nurbs_curve%translate_Xc program~example1_curve->proc~translate_xc~2 proc~translate_xg~2 nurbs_curve%translate_Xg program~example1_curve->proc~translate_xg~2 proc~get_knot_all~2 nurbs_curve%get_knot_all none~get_knot~2->proc~get_knot_all~2 proc~get_knoti~2 nurbs_curve%get_knoti none~get_knot~2->proc~get_knoti~2 proc~set1~2 nurbs_curve%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_curve%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_curve%set3 none~set~2->proc~set3~2 proc~is_rational~2 nurbs_curve%is_rational proc~create~2->proc~is_rational~2 proc~elevate_degree~2->none~set~2 proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree~2->proc~elevate_degree_a_5_9 proc~elevate_degree~2->proc~is_rational~2 proc~cmp_elem_xc_vis~2 nurbs_curve%cmp_elem_Xc_vis proc~export_xc~2->proc~cmp_elem_xc_vis~2 proc~cmp_elem_xg_vis~2 nurbs_curve%cmp_elem_Xg_vis proc~export_xg~2->proc~cmp_elem_xg_vis~2 proc~insert_knots~2->none~set~2 interface~compute_multiplicity compute_multiplicity proc~insert_knots~2->interface~compute_multiplicity proc~findspan findspan proc~insert_knots~2->proc~findspan proc~insert_knot_a_5_1 insert_knot_A_5_1 proc~insert_knots~2->proc~insert_knot_a_5_1 proc~insert_knots~2->proc~is_rational~2 proc~remove_knots~2->none~set~2 proc~remove_knots~2->interface~compute_multiplicity proc~remove_knots~2->proc~findspan proc~remove_knots~2->proc~is_rational~2 proc~remove_knots_a_5_8 remove_knots_A_5_8 proc~remove_knots~2->proc~remove_knots_a_5_8 proc~rotation rotation proc~rotate_xc~2->proc~rotation proc~rotate_xg~2->proc~rotation proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~elevate_degree_a_5_9->interface~compute_multiplicity proc~bincoeff bincoeff proc~elevate_degree_a_5_9->proc~bincoeff cosd cosd proc~rotation->cosd sind sind proc~rotation->sind proc~cmp_degree~2 nurbs_curve%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~factln factln proc~bincoeff->proc~factln proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial real(kind=rk), allocatable :: Wc (:) Arrays for control points and weights real(kind=rk), allocatable :: Xc (:,:) Arrays for control points and weights real(kind=rk) :: knot (6) Array for knot vector type( nurbs_curve ) :: nurbs Declare a NURBS curve object Source Code program example1_curve use forcad , only : rk , nurbs_curve implicit none type ( nurbs_curve ) :: nurbs !! Declare a NURBS curve object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights real ( rk ) :: knot ( 6 ) !! Array for knot vector !----------------------------------------------------------------------------- ! Setting up the NURBS curve !----------------------------------------------------------------------------- !> Define control points for the NURBS curve allocate ( Xc ( 3 , 3 )) Xc ( 1 ,:) = [ 0.0_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 0.0_rk , 5.0_rk , 0.0_rk ] Xc ( 3 ,:) = [ 5.0_rk , 5.0_rk , 0.0_rk ] !> Define weights for the control points (optional) allocate ( Wc ( 3 )) Wc = [ 1.0_rk , 2.0_rk , 0.3_rk ] !> Define knot vector knot = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] !> Set knot vector, control points, and weights for the NURBS curve object. !> Wc is optional call nurbs % set ( knot , Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_curve_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS curve !----------------------------------------------------------------------------- !> Generate the NURBS curve with a resolution of 20 call nurbs % create ( res = 20 ) !> Export the generated curve to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_curve_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_curve_Xc.vtk' , 'vtk/nurbs_curve_Xg.vtk' ) !----------------------------------------------------------------------------- ! Refinements !----------------------------------------------------------------------------- !> Print size of the knot vector print * , size ( nurbs % get_knot ()) !> Insert knots 0.25, twice and 0.75, once call nurbs % insert_knots ([ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) !> Print size of the updated knot vector print * , size ( nurbs % get_knot ()) !> Print the degree of the curve print * , nurbs % get_degree () !> Elevate the degree of the curve (2 times) call nurbs % elevate_degree ( 2 ) !> Print the updated degree of the curve print * , nurbs % get_degree () !> Print size of the knot vector print * , size ( nurbs % get_knot ()) !> Remove knots 0.25, twice and 0.75, once call nurbs % remove_knots ([ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) !> Print size of the updated knot vector print * , size ( nurbs % get_knot ()) !> Generate the refined curve with a resolution of 20 call nurbs % create () !> Export updated control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_curve_Xc2.vtk' ) !> Export the refined generated curve to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_curve_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_curve_Xc2.vtk' , 'vtk/nurbs_curve_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Transformations !----------------------------------------------------------------------------- !> Rotate the control points call nurbs % rotate_Xc ( alpha = 4 5.0_rk , beta = 0.0_rk , theta = 9 0.0_rk ) !> Rotate the generated curve call nurbs % rotate_Xg ( alpha =- 4 5.0_rk , beta = 0.0_rk , theta =- 9 0.0_rk ) !> Translate the control points call nurbs % translate_Xc ([ 1.0_rk , 2.0_rk , - 3.0_rk ]) !> Translate the generated curve call nurbs % translate_Xg ([ - 1.0_rk , - 2.0_rk , 3.0_rk ]) !> Export the transformed control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_curve_Xc3.vtk' ) !> Export the transformed generated volume to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_curve_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_curve_Xc3.vtk' , 'vtk/nurbs_curve_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS curve object call nurbs % finalize () end program example1_curve","tags":"","loc":"program/example1_curve.html"},{"title":"example_nurbs_surface – ForCAD","text":"Uses forcad program~~example_nurbs_surface~~UsesGraph program~example_nurbs_surface example_nurbs_surface module~forcad forcad program~example_nurbs_surface->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. This program demonstrates the usage of a NURBS surface object to create, and finalize a NURBS surface.\nIt sets up control points and weights, generates the surface, and exports the control points\nand the surface to VTK files at various stages. Define control points for the NURBS surface Define weights for the control points Set control points and weights for the NURBS surface object Deallocate local arrays Export initial control points to a VTK file Generate the NURBS surface with a resolution of 30x30 Export the generated surface to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS surface object Calls program~~example_nurbs_surface~~CallsGraph program~example_nurbs_surface example_nurbs_surface none~set~3 nurbs_surface%set program~example_nurbs_surface->none~set~3 proc~create~3 nurbs_surface%create program~example_nurbs_surface->proc~create~3 proc~export_xc~3 nurbs_surface%export_Xc program~example_nurbs_surface->proc~export_xc~3 proc~export_xg~3 nurbs_surface%export_Xg program~example_nurbs_surface->proc~export_xg~3 proc~finalize~3 nurbs_surface%finalize program~example_nurbs_surface->proc~finalize~3 proc~generate_xc generate_Xc program~example_nurbs_surface->proc~generate_xc proc~show~3 nurbs_surface%show program~example_nurbs_surface->proc~show~3 proc~set1~3 nurbs_surface%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_surface%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 interface~ndgrid ndgrid proc~create~3->interface~ndgrid proc~is_rational~3 nurbs_surface%is_rational proc~create~3->proc~is_rational~3 proc~cmp_elem_xc_vis~3 nurbs_surface%cmp_elem_Xc_vis proc~export_xc~3->proc~cmp_elem_xc_vis~3 proc~cmp_elem_xg_vis~3 nurbs_surface%cmp_elem_Xg_vis proc~export_xg~3->proc~cmp_elem_xg_vis~3 proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3->proc~cmp_nc~3 proc~set2~3->proc~cmp_nc~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~3->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial real(kind=rk), allocatable :: Wc (:) Arrays for control points and weights real(kind=rk), allocatable :: Xc (:,:) Arrays for control points and weights type( nurbs_surface ) :: nurbs Declare a NURBS surface object Functions function generate_Xc (num_rows, num_cols, peak_height) result(control_points) Arguments Type Intent Optional Attributes Name integer, intent(in) :: num_rows integer, intent(in) :: num_cols real(kind=rk), intent(in) :: peak_height Return Value real(kind=rk), allocatable, (:,:) Source Code program example_nurbs_surface use forcad , only : rk , nurbs_surface implicit none type ( nurbs_surface ) :: nurbs !! Declare a NURBS surface object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights !----------------------------------------------------------------------------- ! Setting up the NURBS surface !----------------------------------------------------------------------------- !> Define control points for the NURBS surface Xc = generate_Xc ( 10 , 10 , 1.5_rk ) !> Define weights for the control points allocate ( Wc ( size ( Xc , 1 )), source = 1.0_rk ) !> Set control points and weights for the NURBS surface object call nurbs % set ([ 10 , 10 ], Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export initial control points to a VTK file call nurbs % export_Xc ( 'vtk/demo_surface_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS surface !----------------------------------------------------------------------------- !> Generate the NURBS surface with a resolution of 30x30 call nurbs % create ( res1 = 30 , res2 = 30 ) !> Export the generated surface to a VTK file call nurbs % export_Xg ( 'vtk/demo_surface_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/demo_surface_Xc.vtk' , 'vtk/demo_surface_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS surface object call nurbs % finalize () contains !----------------------------------------------------------------------------- function generate_Xc ( num_rows , num_cols , peak_height ) result ( control_points ) integer , intent ( in ) :: num_rows , num_cols real ( rk ), intent ( in ) :: peak_height real ( rk ), allocatable :: control_points (:,:) integer :: i , j real ( rk ) :: x_spacing , y_spacing , x_offset , y_offset x_spacing = 1.0_rk / real ( num_cols - 1 , rk ) y_spacing = 1.0_rk / real ( num_rows - 1 , rk ) x_offset = - 0.5_rk y_offset = - 0.5_rk allocate ( control_points ( num_rows * num_cols , 3 )) do i = 1 , num_rows do j = 1 , num_cols control_points (( i - 1 ) * num_cols + j , 1 ) = x_offset + real ( j - 1 , rk ) * x_spacing control_points (( i - 1 ) * num_cols + j , 2 ) = y_offset + real ( i - 1 , rk ) * y_spacing control_points (( i - 1 ) * num_cols + j , 3 ) = & peak_height * exp ( - (( control_points (( i - 1 ) * num_cols + j , 1 ) ** 2 ) & + ( control_points (( i - 1 ) * num_cols + j , 2 ) ** 2 ))) + 0.5_rk * peak_height * 0.2_rk end do end do end function !----------------------------------------------------------------------------- end program example_nurbs_surface","tags":"","loc":"program/example_nurbs_surface.html"},{"title":"example3_volume – ForCAD","text":"Uses forcad program~~example3_volume~~UsesGraph program~example3_volume example3_volume module~forcad forcad program~example3_volume->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. This program demonstrates the usage of a NURBS (Non-Uniform Rational B-Spline) volume object to create and finalize a NURBS volume.\nIt sets up control points, weights, and knot vectors for all three dimensions, generates the volume, and exports the control points and the volume to VTK files. Define the control points for the NURBS volume Define weights for the control points (optional)\nDefine knot vectors for all three dimensions\nSet knot vectors, control points, and weights for the NURBS volume object\nWc is optional. Deallocate local arrays Export the control points to a VTK file Generate the NURBS volume with resolutions of 20, 20, and 20 in the three dimensions Export the generated volume to a VTK file Show the control geometry and geometry using PyVista Print size of knot vectors\nInsert knots 0.25 and 0.75 in all three directions\nPrint size of knot vectors after inserting knots\nPrint degrees Elevate degree by 2 in all three directions\nPrint degrees after elevating Print size of knot vectors\nPrint size of knot vectors after removing knots\nGenerate the refined NURBS volume with resolutions of 40, 40, and 40 in the three dimensions Export updated control points to a VTK file Export the refined generated volume to a VTK file Show the control geometry and geometry using PyVista Rotate the control points Rotate the generated curve Translate the control points Translate the generated curve Export the transformed control points to a VTK file Export the transformed generated volume to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS volume object Calls program~~example3_volume~~CallsGraph program~example3_volume example3_volume none~get_degree nurbs_volume%get_degree program~example3_volume->none~get_degree none~get_knot nurbs_volume%get_knot program~example3_volume->none~get_knot none~set nurbs_volume%set program~example3_volume->none~set proc~create nurbs_volume%create program~example3_volume->proc~create proc~elevate_degree nurbs_volume%elevate_degree program~example3_volume->proc~elevate_degree proc~export_xc nurbs_volume%export_Xc program~example3_volume->proc~export_xc proc~export_xg nurbs_volume%export_Xg program~example3_volume->proc~export_xg proc~finalize nurbs_volume%finalize program~example3_volume->proc~finalize proc~generate_xc~2 generate_Xc program~example3_volume->proc~generate_xc~2 proc~insert_knots nurbs_volume%insert_knots program~example3_volume->proc~insert_knots proc~remove_knots nurbs_volume%remove_knots program~example3_volume->proc~remove_knots proc~rotate_xc nurbs_volume%rotate_Xc program~example3_volume->proc~rotate_xc proc~rotate_xg nurbs_volume%rotate_Xg program~example3_volume->proc~rotate_xg proc~show nurbs_volume%show program~example3_volume->proc~show proc~translate_xc nurbs_volume%translate_Xc program~example3_volume->proc~translate_xc proc~translate_xg nurbs_volume%translate_Xg program~example3_volume->proc~translate_xg proc~get_degree_all nurbs_volume%get_degree_all none~get_degree->proc~get_degree_all proc~get_degree_dir nurbs_volume%get_degree_dir none~get_degree->proc~get_degree_dir proc~get_knot_all nurbs_volume%get_knot_all none~get_knot->proc~get_knot_all proc~get_knoti nurbs_volume%get_knoti none~get_knot->proc~get_knoti proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 interface~ndgrid ndgrid proc~create->interface~ndgrid proc~elevate_degree->none~get_knot proc~elevate_degree->none~set proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree->proc~elevate_degree_a_5_9 proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~export_xc->proc~cmp_elem_xc_vis proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~export_xg->proc~cmp_elem_xg_vis proc~insert_knots->none~get_knot proc~insert_knots->none~set interface~compute_multiplicity compute_multiplicity proc~insert_knots->interface~compute_multiplicity proc~findspan findspan proc~insert_knots->proc~findspan proc~insert_knot_a_5_1 insert_knot_A_5_1 proc~insert_knots->proc~insert_knot_a_5_1 proc~remove_knots->none~get_knot proc~remove_knots->none~set proc~remove_knots->interface~compute_multiplicity proc~remove_knots->proc~findspan proc~remove_knots_a_5_8 remove_knots_A_5_8 proc~remove_knots->proc~remove_knots_a_5_8 proc~rotation rotation proc~rotate_xc->proc~rotation proc~rotate_xg->proc~rotation proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~elevate_degree_a_5_9->interface~compute_multiplicity proc~bincoeff bincoeff proc~elevate_degree_a_5_9->proc~bincoeff cosd cosd proc~rotation->cosd sind sind proc~rotation->sind proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~factln factln proc~bincoeff->proc~factln proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial real(kind=rk), allocatable :: Wc (:) Arrays for control points and weights real(kind=rk), allocatable :: Xc (:,:) Arrays for control points and weights real(kind=rk) :: knot1 (4) Arrays for knot vectors in all three dimensions real(kind=rk) :: knot2 (4) Arrays for knot vectors in all three dimensions real(kind=rk) :: knot3 (4) Arrays for knot vectors in all three dimensions type( nurbs_volume ) :: nurbs Declare a NURBS volume object Functions function generate_Xc (L) result(control_points) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: L Return Value real(kind=rk), allocatable, (:,:) Source Code program example3_volume use forcad , only : rk , nurbs_volume implicit none type ( nurbs_volume ) :: nurbs !! Declare a NURBS volume object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights real ( rk ) :: knot1 ( 4 ), knot2 ( 4 ), knot3 ( 4 ) !! Arrays for knot vectors in all three dimensions !----------------------------------------------------------------------------- ! Setting up the NURBS volume !----------------------------------------------------------------------------- !> Define the control points for the NURBS volume Xc = generate_Xc ( 5.0_rk ) !> Define weights for the control points (optional) allocate ( Wc ( size ( Xc , 1 )), source = 1.0_rk ) Wc ( 2 ) = 5.0_rk !> Define knot vectors for all three dimensions knot1 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] knot2 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] knot3 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] !> Set knot vectors, control points, and weights for the NURBS volume object !> Wc is optional. call nurbs % set ( knot1 , knot2 , knot3 , Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export the control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_volume_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS volume !----------------------------------------------------------------------------- !> Generate the NURBS volume with resolutions of 20, 20, and 20 in the three dimensions call nurbs % create ( 20 , 20 , 20 ) !> Export the generated volume to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_volume_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_volume_Xc.vtk' , 'vtk/nurbs_volume_Xg.vtk' ) !----------------------------------------------------------------------------- ! Refinements !----------------------------------------------------------------------------- !> Print size of knot vectors print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) print * , size ( nurbs % get_knot ( 3 )) !> Insert knots 0.25 and 0.75 in all three directions call nurbs % insert_knots ( 1 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 1 call nurbs % insert_knots ( 2 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 2 call nurbs % insert_knots ( 3 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 3 !> Print size of knot vectors after inserting knots print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) print * , size ( nurbs % get_knot ( 3 )) !> Print degrees print * , nurbs % get_degree () !> Elevate degree by 2 in all three directions call nurbs % elevate_degree ( 1 , 2 ) ! direction 1 call nurbs % elevate_degree ( 2 , 2 ) ! direction 2 call nurbs % elevate_degree ( 3 , 2 ) ! direction 3 !> Print degrees after elevating print * , nurbs % get_degree () !> Print size of knot vectors print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) print * , size ( nurbs % get_knot ( 3 )) call nurbs % remove_knots ( 1 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 1 call nurbs % remove_knots ( 2 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 2 call nurbs % remove_knots ( 3 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 3 !> Print size of knot vectors after removing knots print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) print * , size ( nurbs % get_knot ( 3 )) !> Generate the refined NURBS volume with resolutions of 40, 40, and 40 in the three dimensions call nurbs % create () !> Export updated control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_volume_Xc2.vtk' ) !> Export the refined generated volume to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_volume_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_volume_Xc2.vtk' , 'vtk/nurbs_volume_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Transformations !----------------------------------------------------------------------------- !> Rotate the control points call nurbs % rotate_Xc ( alpha =- 4 5.0_rk , beta = 0.0_rk , theta = 9 0.0_rk ) !> Rotate the generated curve call nurbs % rotate_Xg ( alpha =- 4 5.0_rk , beta = 0.0_rk , theta = 9 0.0_rk ) !> Translate the control points call nurbs % translate_Xc ([ 1.0_rk , 2.0_rk , - 3.0_rk ]) !> Translate the generated curve call nurbs % translate_Xg ([ 1.0_rk , 2.0_rk , - 3.0_rk ]) !> Export the transformed control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_volume_Xc3.vtk' ) !> Export the transformed generated volume to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_volume_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_volume_Xc3.vtk' , 'vtk/nurbs_volume_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS volume object call nurbs % finalize () contains !----------------------------------------------------------------------------- function generate_Xc ( L ) result ( control_points ) implicit none real ( rk ), intent ( in ) :: L real ( rk ), allocatable :: control_points (:,:) real ( rk ) :: L2 L2 = L / 2.0_rk allocate ( control_points ( 8 , 3 )) control_points ( 1 ,:) = [ L2 , - L2 , L2 ] control_points ( 2 ,:) = [ L2 , - L2 , - L2 ] control_points ( 3 ,:) = [ - L2 , - L2 , L2 ] control_points ( 4 ,:) = [ - L2 , - L2 , - L2 ] control_points ( 5 ,:) = [ L2 , L2 , L2 ] control_points ( 6 ,:) = [ L2 , L2 , - L2 ] control_points ( 7 ,:) = [ - L2 , L2 , L2 ] control_points ( 8 ,:) = [ - L2 , L2 , - L2 ] end function !----------------------------------------------------------------------------- end program example3_volume","tags":"","loc":"program/example3_volume.html"},{"title":"shape_tetragon – ForCAD","text":"Uses forcad program~~shape_tetragon~~UsesGraph program~shape_tetragon shape_tetragon module~forcad forcad program~shape_tetragon->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set a tetragon with lengths of 2.0 and 3.0 and 3 and 4 control points in each direction\nThe weights of the control points (Wc) are optional. Export the control points to a VTK file Generate the NURBS surface with resolutions of 30 in both dimensions Export the generated surface to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS surface object Calls program~~shape_tetragon~~CallsGraph program~shape_tetragon shape_tetragon proc~create~3 nurbs_surface%create program~shape_tetragon->proc~create~3 proc~export_xc~3 nurbs_surface%export_Xc program~shape_tetragon->proc~export_xc~3 proc~export_xg~3 nurbs_surface%export_Xg program~shape_tetragon->proc~export_xg~3 proc~finalize~3 nurbs_surface%finalize program~shape_tetragon->proc~finalize~3 proc~set_tetragon nurbs_surface%set_tetragon program~shape_tetragon->proc~set_tetragon proc~show~3 nurbs_surface%show program~shape_tetragon->proc~show~3 interface~ndgrid ndgrid proc~create~3->interface~ndgrid proc~is_rational~3 nurbs_surface%is_rational proc~create~3->proc~is_rational~3 proc~cmp_elem_xc_vis~3 nurbs_surface%cmp_elem_Xc_vis proc~export_xc~3->proc~cmp_elem_xc_vis~3 proc~cmp_elem_xg_vis~3 nurbs_surface%cmp_elem_Xg_vis proc~export_xg~3->proc~cmp_elem_xg_vis~3 none~set~3 nurbs_surface%set proc~set_tetragon->none~set~3 proc~tetragon_xc tetragon_Xc proc~set_tetragon->proc~tetragon_xc proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1~3 nurbs_surface%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_surface%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3->proc~cmp_nc~3 proc~set2~3->proc~cmp_nc~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~3->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_surface ) :: shape Declare a NURBS surface object","tags":"","loc":"program/shape_tetragon.html"},{"title":"shape_half_ring_3d – ForCAD","text":"Uses forcad program~~shape_half_ring_3d~~UsesGraph program~shape_half_ring_3d shape_half_ring_3d module~forcad forcad program~shape_half_ring_3d->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set up a half ring centered at 0,0,0 with inner radius 1, outer radius 2, and length 1. Export the control points to a VTK file for visualization. Create the shape using the specified number of elements in each direction. Export the geometry to a VTK file for visualization. Show the control geometry and geometry using PyVista Finalize and clean up the shape object. Calls program~~shape_half_ring_3d~~CallsGraph program~shape_half_ring_3d shape_half_ring_3d proc~create nurbs_volume%create program~shape_half_ring_3d->proc~create proc~export_xc nurbs_volume%export_Xc program~shape_half_ring_3d->proc~export_xc proc~export_xg nurbs_volume%export_Xg program~shape_half_ring_3d->proc~export_xg proc~finalize nurbs_volume%finalize program~shape_half_ring_3d->proc~finalize proc~set_half_ring nurbs_volume%set_half_ring program~shape_half_ring_3d->proc~set_half_ring proc~show nurbs_volume%show program~shape_half_ring_3d->proc~show interface~ndgrid ndgrid proc~create->interface~ndgrid proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~export_xc->proc~cmp_elem_xc_vis proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~export_xg->proc~cmp_elem_xg_vis none~set nurbs_volume%set proc~set_half_ring->none~set proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_volume ) :: shape","tags":"","loc":"program/shape_half_ring_3d.html"},{"title":"nearest_point_2d_bench – ForCAD","text":"Uses fortime forcad program~~nearest_point_2d_bench~~UsesGraph program~nearest_point_2d_bench nearest_point_2d_bench fortime fortime program~nearest_point_2d_bench->fortime module~forcad forcad program~nearest_point_2d_bench->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set a tetragon with lengths of 2.0 and 3.0 and 3 and 4 control points in each direction\nThe weights of the control points (Wc) are optional. Generate the NURBS surface with resolutions of 30 in both dimensions Find the nearest point on the surface to a given point\nFinalize the NURBS surface object Calls program~~nearest_point_2d_bench~~CallsGraph program~nearest_point_2d_bench nearest_point_2d_bench proc~create~3 nurbs_surface%create program~nearest_point_2d_bench->proc~create~3 proc~finalize~3 nurbs_surface%finalize program~nearest_point_2d_bench->proc~finalize~3 proc~nearest_point~3 nurbs_surface%nearest_point program~nearest_point_2d_bench->proc~nearest_point~3 proc~set_tetragon nurbs_surface%set_tetragon program~nearest_point_2d_bench->proc~set_tetragon timer_start timer_start program~nearest_point_2d_bench->timer_start timer_stop timer_stop program~nearest_point_2d_bench->timer_stop interface~ndgrid ndgrid proc~create~3->interface~ndgrid proc~is_rational~3 nurbs_surface%is_rational proc~create~3->proc~is_rational~3 none~set~3 nurbs_surface%set proc~set_tetragon->none~set~3 proc~tetragon_xc tetragon_Xc proc~set_tetragon->proc~tetragon_xc proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1~3 nurbs_surface%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_surface%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3->proc~cmp_nc~3 proc~set2~3->proc~cmp_nc~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~3->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial integer :: i integer :: id id of the nearest point integer :: j real(kind=rk), allocatable :: nearest_Xg (:) Coordinates of the nearest point on the surface real(kind=rk), allocatable :: nearest_Xt (:) Corresponding parametric coordinates of the nearest point real(kind=rk), allocatable :: points (:,:) type( nurbs_surface ) :: shape Declare a NURBS surface object type(timer) :: t","tags":"","loc":"program/nearest_point_2d_bench.html"},{"title":"nearest_point_3d – ForCAD","text":"Uses forcad program~~nearest_point_3d~~UsesGraph program~nearest_point_3d nearest_point_3d module~forcad forcad program~nearest_point_3d->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set up a hexahedron shape with dimensions L = [2.0, 4.0, 8.0] and a specified number of control points nc = [4, 6, 8].\nThe weights of the control points (Wc) are optional. Generate the NURBS volume with resolutions of 8, 16 and 32 Find the nearest point on the volume to a given point\nFinalize the NURBS volume object Calls program~~nearest_point_3d~~CallsGraph program~nearest_point_3d nearest_point_3d proc~create nurbs_volume%create program~nearest_point_3d->proc~create proc~finalize nurbs_volume%finalize program~nearest_point_3d->proc~finalize proc~nearest_point nurbs_volume%nearest_point program~nearest_point_3d->proc~nearest_point proc~set_hexahedron nurbs_volume%set_hexahedron program~nearest_point_3d->proc~set_hexahedron interface~ndgrid ndgrid proc~create->interface~ndgrid none~set nurbs_volume%set proc~set_hexahedron->none~set proc~hexahedron_xc hexahedron_Xc proc~set_hexahedron->proc~hexahedron_xc proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial integer :: id id of the nearest point real(kind=rk), allocatable :: nearest_Xg (:) Coordinates of the nearest point on the volume real(kind=rk), allocatable :: nearest_Xt (:) Corresponding parametric coordinates of the nearest point type( nurbs_volume ) :: shape Declare a NURBS volume object","tags":"","loc":"program/nearest_point_3d.html"},{"title":"example_nurbs_curve – ForCAD","text":"Uses forcad program~~example_nurbs_curve~~UsesGraph program~example_nurbs_curve example_nurbs_curve module~forcad forcad program~example_nurbs_curve->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. This program demonstrates the usage of a NURBS curve object to create, and finalize a NURBS curve.\nIt sets up control points and weights, generates the curve, and exports the control points\nand the curve to VTK files at various stages. Define control points for the NURBS curve Define weights for the control points Set control points and weights for the NURBS curve object Deallocate local arrays Export initial control points to a VTK file Generate the NURBS curve with a resolution of 500 Export the generated curve to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS curve object Calls program~~example_nurbs_curve~~CallsGraph program~example_nurbs_curve example_nurbs_curve none~set~2 nurbs_curve%set program~example_nurbs_curve->none~set~2 proc~create~2 nurbs_curve%create program~example_nurbs_curve->proc~create~2 proc~export_xc~2 nurbs_curve%export_Xc program~example_nurbs_curve->proc~export_xc~2 proc~export_xg~2 nurbs_curve%export_Xg program~example_nurbs_curve->proc~export_xg~2 proc~finalize~2 nurbs_curve%finalize program~example_nurbs_curve->proc~finalize~2 proc~generate_xc~3 generate_Xc program~example_nurbs_curve->proc~generate_xc~3 proc~show~2 nurbs_curve%show program~example_nurbs_curve->proc~show~2 proc~set1~2 nurbs_curve%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_curve%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_curve%set3 none~set~2->proc~set3~2 proc~is_rational~2 nurbs_curve%is_rational proc~create~2->proc~is_rational~2 proc~cmp_elem_xc_vis~2 nurbs_curve%cmp_elem_Xc_vis proc~export_xc~2->proc~cmp_elem_xc_vis~2 proc~cmp_elem_xg_vis~2 nurbs_curve%cmp_elem_Xg_vis proc~export_xg~2->proc~cmp_elem_xg_vis~2 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~cmp_degree~2 nurbs_curve%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 proc~repelem repelem proc~compute_knot_vector->proc~repelem interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial real(kind=rk), allocatable :: Wc (:) Arrays for control points and weights real(kind=rk), allocatable :: Xc (:,:) Arrays for control points and weights type( nurbs_curve ) :: nurbs Declare a NURBS curve object Functions function generate_Xc (num_coils, radius, height, num_points_per_coil) result(control_points) Arguments Type Intent Optional Attributes Name integer, intent(in) :: num_coils real(kind=rk), intent(in) :: radius real(kind=rk), intent(in) :: height integer, intent(in) :: num_points_per_coil Return Value real(kind=rk), allocatable, (:,:) Source Code program example_nurbs_curve use forcad , only : rk , nurbs_curve implicit none type ( nurbs_curve ) :: nurbs !! Declare a NURBS curve object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights !----------------------------------------------------------------------------- ! Setting up the NURBS curve !----------------------------------------------------------------------------- !> Define control points for the NURBS curve Xc = generate_Xc ( 5 , 1.0_rk , 2.0_rk , 20 ) !> Define weights for the control points allocate ( Wc ( size ( Xc , 1 )), source = 1.0_rk ) !> Set control points and weights for the NURBS curve object call nurbs % set ( Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export initial control points to a VTK file call nurbs % export_Xc ( 'vtk/demo_curve_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS curve !----------------------------------------------------------------------------- !> Generate the NURBS curve with a resolution of 500 call nurbs % create ( res = 500 ) !> Export the generated curve to a VTK file call nurbs % export_Xg ( 'vtk/demo_curve_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/demo_curve_Xc.vtk' , 'vtk/demo_curve_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS curve object call nurbs % finalize () contains !----------------------------------------------------------------------------- function generate_Xc ( num_coils , radius , height , num_points_per_coil ) result ( control_points ) integer , intent ( in ) :: num_coils , num_points_per_coil real ( rk ), intent ( in ) :: radius , height real ( rk ), allocatable :: control_points (:,:) integer :: coil , i real ( rk ) :: theta , coil_height allocate ( control_points ( num_coils * num_points_per_coil , 3 )) do coil = 1 , num_coils coil_height = height * real ( coil - 1 , rk ) / real ( num_coils - 1 , rk ) theta = 0.0_rk do i = 1 , num_points_per_coil theta = theta + 2.0_rk * acos ( - 1.0_rk ) / real ( num_points_per_coil , rk ) control_points (( coil - 1 ) * num_points_per_coil + i , 1 ) = radius * cos ( theta ) control_points (( coil - 1 ) * num_points_per_coil + i , 2 ) = radius * sin ( theta ) control_points (( coil - 1 ) * num_points_per_coil + i , 3 ) = coil_height end do end do end function !----------------------------------------------------------------------------- end program example_nurbs_curve","tags":"","loc":"program/example_nurbs_curve.html"},{"title":"shape_ring_3d – ForCAD","text":"Uses forcad program~~shape_ring_3d~~UsesGraph program~shape_ring_3d shape_ring_3d module~forcad forcad program~shape_ring_3d->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set up a ring shape centered at 0,0,0 with inner radius 1, outer radius 2, and length 1. Export the control points to a VTK file for visualization. Create the shape using the specified number of elements in each direction. Export the geometry to a VTK file for visualization. Show the control geometry and geometry using PyVista Finalize and clean up the shape object. Calls program~~shape_ring_3d~~CallsGraph program~shape_ring_3d shape_ring_3d proc~create nurbs_volume%create program~shape_ring_3d->proc~create proc~export_xc nurbs_volume%export_Xc program~shape_ring_3d->proc~export_xc proc~export_xg nurbs_volume%export_Xg program~shape_ring_3d->proc~export_xg proc~finalize nurbs_volume%finalize program~shape_ring_3d->proc~finalize proc~set_ring nurbs_volume%set_ring program~shape_ring_3d->proc~set_ring proc~show nurbs_volume%show program~shape_ring_3d->proc~show interface~ndgrid ndgrid proc~create->interface~ndgrid proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~export_xc->proc~cmp_elem_xc_vis proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~export_xg->proc~cmp_elem_xg_vis none~set nurbs_volume%set proc~set_ring->none~set proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_volume ) :: shape","tags":"","loc":"program/shape_ring_3d.html"},{"title":"example3_surface – ForCAD","text":"Uses forcad program~~example3_surface~~UsesGraph program~example3_surface example3_surface module~forcad forcad program~example3_surface->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. This program demonstrates the usage of a NURBS (Non-Uniform Rational B-Spline) surface object to create and finalize a NURBS surface.\nIt sets up control points, weights, and knot vectors for all three dimensions, generates the surface, and exports the control points and the surface to VTK files. Define control points for the NURBS surface Define weights for the control points\nDefine knot vectors for both dimensions\nSet knot vectors, control points, and weights for the NURBS surface object Deallocate local arrays Export the control points to a VTK file Generate the NURBS surface with resolutions of 30 in both dimensions Export the generated surface to a VTK file Show the control geometry and geometry using PyVista Print size of the knot vectors\nInsert knots 0.25, twice and 0.75, once in both directions\nPrint size of the knot vectors after inserting knots\nPrint the degrees Elevate degree by 2 in both directions\nPrint the degrees after elevating Print size of the knot vectors\nRemove knots 0.25, twice and 0.75, once in both directions\nPrint size of the knot vectors after removing knots\nGenerate the refined NURBS surface with resolutions of 30 in both dimensions Export updated control points to a VTK file Export the refined generated surface to a VTK file Show the control geometry and geometry using PyVista Rotate the control points Rotate the generated curve Translate the control points Translate the generated curve Export the transformed control points to a VTK file Export the transformed generated volume to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS surface object Calls program~~example3_surface~~CallsGraph program~example3_surface example3_surface none~get_degree~3 nurbs_surface%get_degree program~example3_surface->none~get_degree~3 none~get_knot~3 nurbs_surface%get_knot program~example3_surface->none~get_knot~3 none~set~3 nurbs_surface%set program~example3_surface->none~set~3 proc~create~3 nurbs_surface%create program~example3_surface->proc~create~3 proc~elevate_degree~3 nurbs_surface%elevate_degree program~example3_surface->proc~elevate_degree~3 proc~export_xc~3 nurbs_surface%export_Xc program~example3_surface->proc~export_xc~3 proc~export_xg~3 nurbs_surface%export_Xg program~example3_surface->proc~export_xg~3 proc~finalize~3 nurbs_surface%finalize program~example3_surface->proc~finalize~3 proc~generate_xc~4 generate_Xc program~example3_surface->proc~generate_xc~4 proc~insert_knots~3 nurbs_surface%insert_knots program~example3_surface->proc~insert_knots~3 proc~remove_knots~3 nurbs_surface%remove_knots program~example3_surface->proc~remove_knots~3 proc~rotate_xc~3 nurbs_surface%rotate_Xc program~example3_surface->proc~rotate_xc~3 proc~rotate_xg~3 nurbs_surface%rotate_Xg program~example3_surface->proc~rotate_xg~3 proc~show~3 nurbs_surface%show program~example3_surface->proc~show~3 proc~translate_xc~3 nurbs_surface%translate_Xc program~example3_surface->proc~translate_xc~3 proc~translate_xg~3 nurbs_surface%translate_Xg program~example3_surface->proc~translate_xg~3 proc~get_degree_all~2 nurbs_surface%get_degree_all none~get_degree~3->proc~get_degree_all~2 proc~get_degree_dir~2 nurbs_surface%get_degree_dir none~get_degree~3->proc~get_degree_dir~2 proc~get_knot_all~3 nurbs_surface%get_knot_all none~get_knot~3->proc~get_knot_all~3 proc~get_knoti~3 nurbs_surface%get_knoti none~get_knot~3->proc~get_knoti~3 proc~set1~3 nurbs_surface%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_surface%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 interface~ndgrid ndgrid proc~create~3->interface~ndgrid proc~is_rational~3 nurbs_surface%is_rational proc~create~3->proc~is_rational~3 proc~elevate_degree~3->none~get_knot~3 proc~elevate_degree~3->none~set~3 proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree~3->proc~elevate_degree_a_5_9 proc~elevate_degree~3->proc~is_rational~3 proc~cmp_elem_xc_vis~3 nurbs_surface%cmp_elem_Xc_vis proc~export_xc~3->proc~cmp_elem_xc_vis~3 proc~cmp_elem_xg_vis~3 nurbs_surface%cmp_elem_Xg_vis proc~export_xg~3->proc~cmp_elem_xg_vis~3 proc~insert_knots~3->none~get_knot~3 proc~insert_knots~3->none~set~3 interface~compute_multiplicity compute_multiplicity proc~insert_knots~3->interface~compute_multiplicity proc~findspan findspan proc~insert_knots~3->proc~findspan proc~insert_knot_a_5_1 insert_knot_A_5_1 proc~insert_knots~3->proc~insert_knot_a_5_1 proc~insert_knots~3->proc~is_rational~3 proc~remove_knots~3->none~get_knot~3 proc~remove_knots~3->none~set~3 proc~remove_knots~3->interface~compute_multiplicity proc~remove_knots~3->proc~findspan proc~remove_knots~3->proc~is_rational~3 proc~remove_knots_a_5_8 remove_knots_A_5_8 proc~remove_knots~3->proc~remove_knots_a_5_8 proc~rotation rotation proc~rotate_xc~3->proc~rotation proc~rotate_xg~3->proc~rotation proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~elevate_degree_a_5_9->interface~compute_multiplicity proc~bincoeff bincoeff proc~elevate_degree_a_5_9->proc~bincoeff cosd cosd proc~rotation->cosd sind sind proc~rotation->sind proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3->proc~cmp_nc~3 proc~set2~3->proc~cmp_nc~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~factln factln proc~bincoeff->proc~factln proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 proc~cmp_nc~3->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial real(kind=rk), allocatable :: Wc (:) Arrays for control points and weights real(kind=rk), allocatable :: Xc (:,:) Arrays for control points and weights real(kind=rk) :: knot1 (6) Arrays for knot vectors in both dimensions real(kind=rk) :: knot2 (6) Arrays for knot vectors in both dimensions type( nurbs_surface ) :: nurbs Declare a NURBS surface object Functions function generate_Xc (num_rows, num_cols, peak_height) result(control_points) Arguments Type Intent Optional Attributes Name integer, intent(in) :: num_rows integer, intent(in) :: num_cols real(kind=rk), intent(in) :: peak_height Return Value real(kind=rk), allocatable, (:,:) Source Code program example3_surface use forcad implicit none type ( nurbs_surface ) :: nurbs !! Declare a NURBS surface object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights real ( rk ) :: knot1 ( 6 ), knot2 ( 6 ) !! Arrays for knot vectors in both dimensions !----------------------------------------------------------------------------- ! Setting up the NURBS surface !----------------------------------------------------------------------------- !> Define control points for the NURBS surface Xc = generate_Xc ( 3 , 3 , 1.0_rk ) !> Define weights for the control points allocate ( Wc ( size ( Xc , 1 ))) Wc = 1.0_rk Wc ( 2 ) = 2.0_rk !> Define knot vectors for both dimensions knot1 = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] knot2 = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] !> Set knot vectors, control points, and weights for the NURBS surface object call nurbs % set ( knot1 , knot2 , Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export the control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_surface_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS surface !----------------------------------------------------------------------------- !> Generate the NURBS surface with resolutions of 30 in both dimensions call nurbs % create ( 30 , 30 ) !> Export the generated surface to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_surface_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_surface_Xc.vtk' , 'vtk/nurbs_surface_Xg.vtk' ) !----------------------------------------------------------------------------- ! Refinements !----------------------------------------------------------------------------- !> Print size of the knot vectors print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) !> Insert knots 0.25, twice and 0.75, once in both directions call nurbs % insert_knots ( 1 , [ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) ! direction 1 call nurbs % insert_knots ( 2 , [ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) ! direction 2 !> Print size of the knot vectors after inserting knots print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) !> Print the degrees print * , nurbs % get_degree () !> Elevate degree by 2 in both directions call nurbs % elevate_degree ( 1 , 2 ) ! direction 1 call nurbs % elevate_degree ( 2 , 2 ) ! direction 2 !> Print the degrees after elevating print * , nurbs % get_degree () !> Print size of the knot vectors print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) !> Remove knots 0.25, twice and 0.75, once in both directions call nurbs % remove_knots ( 1 , [ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) ! direction 1 call nurbs % remove_knots ( 2 , [ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) ! direction 2 !> Print size of the knot vectors after removing knots print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) !> Generate the refined NURBS surface with resolutions of 30 in both dimensions call nurbs % create () !> Export updated control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_surface_Xc2.vtk' ) !> Export the refined generated surface to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_surface_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_surface_Xc2.vtk' , 'vtk/nurbs_surface_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Transformations !----------------------------------------------------------------------------- !> Rotate the control points call nurbs % rotate_Xc ( alpha = 4 5.0_rk , beta = 0.0_rk , theta = 9 0.0_rk ) !> Rotate the generated curve call nurbs % rotate_Xg ( alpha =- 4 5.0_rk , beta = 0.0_rk , theta =- 9 0.0_rk ) !> Translate the control points call nurbs % translate_Xc ([ 1.0_rk , 2.0_rk , - 3.0_rk ]) !> Translate the generated curve call nurbs % translate_Xg ([ - 1.0_rk , - 2.0_rk , 3.0_rk ]) !> Export the transformed control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_surface_Xc3.vtk' ) !> Export the transformed generated volume to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_surface_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_surface_Xc3.vtk' , 'vtk/nurbs_surface_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS surface object call nurbs % finalize () contains !----------------------------------------------------------------------------- function generate_Xc ( num_rows , num_cols , peak_height ) result ( control_points ) integer , intent ( in ) :: num_rows , num_cols real ( rk ), intent ( in ) :: peak_height real ( rk ), allocatable :: control_points (:,:) integer :: i , j real ( rk ) :: x_spacing , y_spacing , x_offset , y_offset x_spacing = 1.0_rk / real ( num_cols - 1 , rk ) y_spacing = 1.0_rk / real ( num_rows - 1 , rk ) x_offset = - 0.5_rk y_offset = - 0.5_rk allocate ( control_points ( num_rows * num_cols , 3 )) do i = 1 , num_rows do j = 1 , num_cols control_points (( i - 1 ) * num_cols + j , 1 ) = x_offset + real ( j - 1 , rk ) * x_spacing control_points (( i - 1 ) * num_cols + j , 2 ) = y_offset + real ( i - 1 , rk ) * y_spacing control_points (( i - 1 ) * num_cols + j , 3 ) = & peak_height * exp ( - (( control_points (( i - 1 ) * num_cols + j , 1 ) ** 2 ) & + ( control_points (( i - 1 ) * num_cols + j , 2 ) ** 2 ))) + 0.5_rk * peak_height * 0.2_rk end do end do end function !----------------------------------------------------------------------------- end program example3_surface","tags":"","loc":"program/example3_surface.html"},{"title":"shape_C_1d – ForCAD","text":"Uses forcad program~~shape_c_1d~~UsesGraph program~shape_c_1d shape_C_1d module~forcad forcad program~shape_c_1d->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set a C-shape with radius 2.0 and center at [0.0, 0.0, 0.0] Export control points to a VTK file Generate the NURBS C-shape with a resolution of 100 Export the generated cirlce to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS curve object Calls program~~shape_c_1d~~CallsGraph program~shape_c_1d shape_C_1d proc~create~2 nurbs_curve%create program~shape_c_1d->proc~create~2 proc~export_xc~2 nurbs_curve%export_Xc program~shape_c_1d->proc~export_xc~2 proc~export_xg~2 nurbs_curve%export_Xg program~shape_c_1d->proc~export_xg~2 proc~finalize~2 nurbs_curve%finalize program~shape_c_1d->proc~finalize~2 proc~set_c~2 nurbs_curve%set_C program~shape_c_1d->proc~set_c~2 proc~show~2 nurbs_curve%show program~shape_c_1d->proc~show~2 proc~is_rational~2 nurbs_curve%is_rational proc~create~2->proc~is_rational~2 proc~cmp_elem_xc_vis~2 nurbs_curve%cmp_elem_Xc_vis proc~export_xc~2->proc~cmp_elem_xc_vis~2 proc~cmp_elem_xg_vis~2 nurbs_curve%cmp_elem_Xg_vis proc~export_xg~2->proc~cmp_elem_xg_vis~2 none~set~2 nurbs_curve%set proc~set_c~2->none~set~2 proc~set1~2 nurbs_curve%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_curve%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_curve%set3 none~set~2->proc~set3~2 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree~2 nurbs_curve%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 proc~repelem repelem proc~compute_knot_vector->proc~repelem interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_curve ) :: shape","tags":"","loc":"program/shape_c_1d.html"},{"title":"shape_C_2d – ForCAD","text":"Uses forcad program~~shape_c_2d~~UsesGraph program~shape_c_2d shape_C_2d module~forcad forcad program~shape_c_2d->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set a C-shape with radius 2.0 and center at [0.0, 0.0, 0.0] Export control points to a VTK file Generate the NURBS C-shape with a resolution of 100 Export the generated cirlce to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS curve object Calls program~~shape_c_2d~~CallsGraph program~shape_c_2d shape_C_2d proc~create~3 nurbs_surface%create program~shape_c_2d->proc~create~3 proc~export_xc~3 nurbs_surface%export_Xc program~shape_c_2d->proc~export_xc~3 proc~export_xg~3 nurbs_surface%export_Xg program~shape_c_2d->proc~export_xg~3 proc~finalize~3 nurbs_surface%finalize program~shape_c_2d->proc~finalize~3 proc~set_c~3 nurbs_surface%set_C program~shape_c_2d->proc~set_c~3 proc~show~3 nurbs_surface%show program~shape_c_2d->proc~show~3 interface~ndgrid ndgrid proc~create~3->interface~ndgrid proc~is_rational~3 nurbs_surface%is_rational proc~create~3->proc~is_rational~3 proc~cmp_elem_xc_vis~3 nurbs_surface%cmp_elem_Xc_vis proc~export_xc~3->proc~cmp_elem_xc_vis~3 proc~cmp_elem_xg_vis~3 nurbs_surface%cmp_elem_Xg_vis proc~export_xg~3->proc~cmp_elem_xg_vis~3 none~set~3 nurbs_surface%set proc~set_c~3->none~set~3 proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1~3 nurbs_surface%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_surface%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3->proc~cmp_nc~3 proc~set2~3->proc~cmp_nc~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~3->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_surface ) :: shape","tags":"","loc":"program/shape_c_2d.html"},{"title":"nearest_point_2d – ForCAD","text":"Uses forcad program~~nearest_point_2d~~UsesGraph program~nearest_point_2d nearest_point_2d module~forcad forcad program~nearest_point_2d->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set a tetragon with lengths of 2.0 and 3.0 and 3 and 4 control points in each direction\nThe weights of the control points (Wc) are optional. Generate the NURBS surface with resolutions of 30 in both dimensions Find the nearest point on the surface to a given point\nFinalize the NURBS surface object Calls program~~nearest_point_2d~~CallsGraph program~nearest_point_2d nearest_point_2d proc~create~3 nurbs_surface%create program~nearest_point_2d->proc~create~3 proc~finalize~3 nurbs_surface%finalize program~nearest_point_2d->proc~finalize~3 proc~nearest_point~3 nurbs_surface%nearest_point program~nearest_point_2d->proc~nearest_point~3 proc~set_tetragon nurbs_surface%set_tetragon program~nearest_point_2d->proc~set_tetragon interface~ndgrid ndgrid proc~create~3->interface~ndgrid proc~is_rational~3 nurbs_surface%is_rational proc~create~3->proc~is_rational~3 none~set~3 nurbs_surface%set proc~set_tetragon->none~set~3 proc~tetragon_xc tetragon_Xc proc~set_tetragon->proc~tetragon_xc proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1~3 nurbs_surface%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_surface%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3->proc~cmp_nc~3 proc~set2~3->proc~cmp_nc~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~3->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial integer :: id id of the nearest point real(kind=rk), allocatable :: nearest_Xg (:) Coordinates of the nearest point on the surface real(kind=rk), allocatable :: nearest_Xt (:) Corresponding parametric coordinates of the nearest point type( nurbs_surface ) :: shape Declare a NURBS surface object","tags":"","loc":"program/nearest_point_2d.html"},{"title":"example_ppm3 – ForCAD","text":"Uses forcolormap fortime forcad forimage program~~example_ppm3~~UsesGraph program~example_ppm3 example_ppm3 forcolormap forcolormap program~example_ppm3->forcolormap forimage forimage program~example_ppm3->forimage fortime fortime program~example_ppm3->fortime module~forcad forcad program~example_ppm3->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Visualization of NURBS surfaces using ForCAD, ForImage and ForColorMap libraries\nThis example converts NURBS surfaces (vector) to an image (raster) using ForCAD, ForImage and ForColorMap libraries. Set the shape parameters for a tetragon Calls program~~example_ppm3~~CallsGraph program~example_ppm3 example_ppm3 compute_rgb compute_rgb program~example_ppm3->compute_rgb export_pnm export_pnm program~example_ppm3->export_pnm get_b get_b program~example_ppm3->get_b get_g get_g program~example_ppm3->get_g get_r get_r program~example_ppm3->get_r none~get_xg~3 nurbs_surface%get_Xg program~example_ppm3->none~get_xg~3 proc~create~3 nurbs_surface%create program~example_ppm3->proc~create~3 proc~finalize~3 nurbs_surface%finalize program~example_ppm3->proc~finalize~3 proc~get_ng~3 nurbs_surface%get_ng program~example_ppm3->proc~get_ng~3 proc~modify_xc~3 nurbs_surface%modify_Xc program~example_ppm3->proc~modify_xc~3 proc~set_tetragon nurbs_surface%set_tetragon program~example_ppm3->proc~set_tetragon proc~translate_xc~3 nurbs_surface%translate_Xc program~example_ppm3->proc~translate_xc~3 set set program~example_ppm3->set set_pnm set_pnm program~example_ppm3->set_pnm timer_start timer_start program~example_ppm3->timer_start timer_stop timer_stop program~example_ppm3->timer_stop proc~get_xg_all~3 nurbs_surface%get_Xg_all none~get_xg~3->proc~get_xg_all~3 proc~get_xgid~3 nurbs_surface%get_Xgid none~get_xg~3->proc~get_xgid~3 proc~get_xgi~3 nurbs_surface%get_Xgi none~get_xg~3->proc~get_xgi~3 interface~ndgrid ndgrid proc~create~3->interface~ndgrid proc~is_rational~3 nurbs_surface%is_rational proc~create~3->proc~is_rational~3 none~get_knot~3 nurbs_surface%get_knot proc~modify_xc~3->none~get_knot~3 none~get_wc~3 nurbs_surface%get_Wc proc~modify_xc~3->none~get_wc~3 none~get_xc~3 nurbs_surface%get_Xc proc~modify_xc~3->none~get_xc~3 none~set~3 nurbs_surface%set proc~modify_xc~3->none~set~3 proc~set_tetragon->none~set~3 proc~tetragon_xc tetragon_Xc proc~set_tetragon->proc~tetragon_xc proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~get_knot_all~3 nurbs_surface%get_knot_all none~get_knot~3->proc~get_knot_all~3 proc~get_knoti~3 nurbs_surface%get_knoti none~get_knot~3->proc~get_knoti~3 proc~get_wc_all~3 nurbs_surface%get_Wc_all none~get_wc~3->proc~get_wc_all~3 proc~get_wci~3 nurbs_surface%get_Wci none~get_wc~3->proc~get_wci~3 proc~get_xc_all~3 nurbs_surface%get_Xc_all none~get_xc~3->proc~get_xc_all~3 proc~get_xcid~3 nurbs_surface%get_Xcid none~get_xc~3->proc~get_xcid~3 proc~get_xci~3 nurbs_surface%get_Xci none~get_xc~3->proc~get_xci~3 proc~set1~3 nurbs_surface%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_surface%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_surface%set3 none~set~3->proc~set3~3 proc~cmp_degree~3 nurbs_surface%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~cmp_nc~3 nurbs_surface%cmp_nc proc~set1~3->proc~cmp_nc~3 proc~set2~3->proc~cmp_nc~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_surface%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~3->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial real(kind=rk), allocatable :: Xg (:,:) real(kind=rk) :: aspect_ratio type(color) :: background_color integer :: blue type(colormap) :: cmap integer :: green integer :: height integer :: i integer, allocatable :: idx (:,:) type(format_pnm) :: image integer :: ng (2) integer(kind=ik), allocatable :: px (:,:) integer :: red integer :: res1 integer :: res2 type( nurbs_surface ) :: shape type(timer) :: t integer :: width real(kind=rk), allocatable :: z_values (:)","tags":"","loc":"program/example_ppm3.html"},{"title":"example_put_to_nurbs – ForCAD","text":"Uses forcad_utils forcad program~~example_put_to_nurbs~~UsesGraph program~example_put_to_nurbs example_put_to_nurbs module~forcad forcad program~example_put_to_nurbs->module~forcad module~forcad_utils forcad_utils program~example_put_to_nurbs->module~forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. You can create your shape or use a predefined one\nRead coordinates from file\nRead element connectivities from file\nSet a control shape that will be used to put the shape into\nThe contol shape is a hexahedron with 100x40x10 with 10x5x3 number of control points\nBy modifying the control shape you can modify the shape Map the shape into the shape Deallocate local variables Export the shape and the control shape to vtk files\nShow the control geometry and geometry using PyVista Finalize the control shape Calls program~~example_put_to_nurbs~~CallsGraph program~example_put_to_nurbs example_put_to_nurbs none~set nurbs_volume%set program~example_put_to_nurbs->none~set proc~export_xc nurbs_volume%export_Xc program~example_put_to_nurbs->proc~export_xc proc~export_xg nurbs_volume%export_Xg program~example_put_to_nurbs->proc~export_xg proc~finalize nurbs_volume%finalize program~example_put_to_nurbs->proc~finalize proc~hexahedron_xc hexahedron_Xc program~example_put_to_nurbs->proc~hexahedron_xc proc~put_to_nurbs nurbs_volume%put_to_nurbs program~example_put_to_nurbs->proc~put_to_nurbs proc~show nurbs_volume%show program~example_put_to_nurbs->proc~show proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~export_xc->proc~cmp_elem_xc_vis proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~export_xg->proc~cmp_elem_xg_vis proc~basis_bspline basis_bspline proc~put_to_nurbs->proc~basis_bspline proc~kron kron proc~put_to_nurbs->proc~kron proc~set_elem_xg_vis nurbs_volume%set_elem_Xg_vis proc~put_to_nurbs->proc~set_elem_xg_vis interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial real(kind=rk), allocatable :: X (:,:) type( nurbs_volume ) :: control_shape integer, allocatable :: elem (:,:) integer :: i integer :: nunit","tags":"","loc":"program/example_put_to_nurbs.html"},{"title":"example_nurbs_volume – ForCAD","text":"Uses forcad program~~example_nurbs_volume~~UsesGraph program~example_nurbs_volume example_nurbs_volume module~forcad forcad program~example_nurbs_volume->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. This program demonstrates the usage of a NURBS volume object to create, and finalize a NURBS volume.\nIt sets up control points and weights, generates the volume, and exports the control points\nand the volume to VTK files at various stages. Define control points for the NURBS volume Define weights for the control points Set control points and weights for the NURBS volume object Deallocate local arrays Export initial control points to a VTK file Generate the NURBS volume with a resolution of 15X15X15 Export the generated volume to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS volume object Calls program~~example_nurbs_volume~~CallsGraph program~example_nurbs_volume example_nurbs_volume none~set nurbs_volume%set program~example_nurbs_volume->none~set proc~create nurbs_volume%create program~example_nurbs_volume->proc~create proc~export_xc nurbs_volume%export_Xc program~example_nurbs_volume->proc~export_xc proc~export_xg nurbs_volume%export_Xg program~example_nurbs_volume->proc~export_xg proc~finalize nurbs_volume%finalize program~example_nurbs_volume->proc~finalize proc~generate_xc~5 generate_Xc program~example_nurbs_volume->proc~generate_xc~5 proc~show nurbs_volume%show program~example_nurbs_volume->proc~show proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 interface~ndgrid ndgrid proc~create->interface~ndgrid proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~export_xc->proc~cmp_elem_xc_vis proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~export_xg->proc~cmp_elem_xg_vis proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial real(kind=rk), allocatable :: Wc (:) Arrays for control points and weights real(kind=rk), allocatable :: Xc (:,:) Arrays for control points and weights type( nurbs_volume ) :: nurbs Declare a NURBS volume object Functions function generate_Xc (L) result(control_points) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: L Return Value real(kind=rk), allocatable, (:,:) Source Code program example_nurbs_volume use forcad , only : rk , nurbs_volume implicit none type ( nurbs_volume ) :: nurbs !! Declare a NURBS volume object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights !----------------------------------------------------------------------------- ! Setting up the NURBS volume !----------------------------------------------------------------------------- !> Define control points for the NURBS volume Xc = generate_Xc ( 1.0_rk ) !> Define weights for the control points allocate ( Wc ( size ( Xc , 1 )), source = 1.0_rk ) !> Set control points and weights for the NURBS volume object call nurbs % set ([ 2 , 2 , 2 ], Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export initial control points to a VTK file call nurbs % export_Xc ( 'vtk/demo_volume_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS volume !----------------------------------------------------------------------------- !> Generate the NURBS volume with a resolution of 15X15X15 call nurbs % create ( 15 , 15 , 15 ) !> Export the generated volume to a VTK file call nurbs % export_Xg ( 'vtk/demo_volume_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/demo_volume_Xc.vtk' , 'vtk/demo_volume_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS volume object call nurbs % finalize () contains !----------------------------------------------------------------------------- function generate_Xc ( L ) result ( control_points ) implicit none real ( rk ), intent ( in ) :: L real ( rk ), allocatable :: control_points (:,:) real ( rk ) :: L2 L2 = L / 2.0_rk allocate ( control_points ( 8 , 3 )) control_points ( 1 ,:) = [ L2 , - L2 , L2 ] control_points ( 2 ,:) = [ L2 , - L2 , - L2 ] control_points ( 3 ,:) = [ - L2 , - L2 , L2 ] control_points ( 4 ,:) = [ - L2 , - L2 , - L2 ] control_points ( 5 ,:) = [ L2 , L2 , L2 ] control_points ( 6 ,:) = [ L2 , L2 , - L2 ] control_points ( 7 ,:) = [ - L2 , L2 , L2 ] control_points ( 8 ,:) = [ - L2 , L2 , - L2 ] end function !----------------------------------------------------------------------------- end program example_nurbs_volume","tags":"","loc":"program/example_nurbs_volume.html"},{"title":"shape_half_circle – ForCAD","text":"Uses forcad program~~shape_half_circle~~UsesGraph program~shape_half_circle shape_half_circle module~forcad forcad program~shape_half_circle->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set up a half circle shape centered at the 0,0,0 with a radius of 1 Export the control points to a VTK file for visualization. Create the shape using the specified number of elements in each direction. Export the geometry to a VTK file for visualization. Show the control geometry and geometry using PyVista Finalize and clean up the shape object. Calls program~~shape_half_circle~~CallsGraph program~shape_half_circle shape_half_circle proc~create~2 nurbs_curve%create program~shape_half_circle->proc~create~2 proc~export_xc~2 nurbs_curve%export_Xc program~shape_half_circle->proc~export_xc~2 proc~export_xg~2 nurbs_curve%export_Xg program~shape_half_circle->proc~export_xg~2 proc~finalize~2 nurbs_curve%finalize program~shape_half_circle->proc~finalize~2 proc~set_half_circle nurbs_curve%set_half_circle program~shape_half_circle->proc~set_half_circle proc~show~2 nurbs_curve%show program~shape_half_circle->proc~show~2 proc~is_rational~2 nurbs_curve%is_rational proc~create~2->proc~is_rational~2 proc~cmp_elem_xc_vis~2 nurbs_curve%cmp_elem_Xc_vis proc~export_xc~2->proc~cmp_elem_xc_vis~2 proc~cmp_elem_xg_vis~2 nurbs_curve%cmp_elem_Xg_vis proc~export_xg~2->proc~cmp_elem_xg_vis~2 none~set~2 nurbs_curve%set proc~set_half_circle->none~set~2 proc~set1~2 nurbs_curve%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_curve%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_curve%set3 none~set~2->proc~set3~2 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree~2 nurbs_curve%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_curve%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 proc~repelem repelem proc~compute_knot_vector->proc~repelem interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_curve ) :: shape","tags":"","loc":"program/shape_half_circle.html"},{"title":"shape_C_3d – ForCAD","text":"Uses forcad program~~shape_c_3d~~UsesGraph program~shape_c_3d shape_C_3d module~forcad forcad program~shape_c_3d->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set a C-shape with radius 2.0 and center at [0.0, 0.0, 0.0] Export control points to a VTK file Generate the NURBS C-shape with a resolution of 100 Export the generated cirlce to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS curve object Calls program~~shape_c_3d~~CallsGraph program~shape_c_3d shape_C_3d proc~create nurbs_volume%create program~shape_c_3d->proc~create proc~export_xc nurbs_volume%export_Xc program~shape_c_3d->proc~export_xc proc~export_xg nurbs_volume%export_Xg program~shape_c_3d->proc~export_xg proc~finalize nurbs_volume%finalize program~shape_c_3d->proc~finalize proc~set_c nurbs_volume%set_C program~shape_c_3d->proc~set_c proc~show nurbs_volume%show program~shape_c_3d->proc~show interface~ndgrid ndgrid proc~create->interface~ndgrid proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~export_xc->proc~cmp_elem_xc_vis proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~export_xg->proc~cmp_elem_xg_vis none~set nurbs_volume%set proc~set_c->none~set proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_volume ) :: shape","tags":"","loc":"program/shape_c_3d.html"},{"title":"shape_hexahedron.f90 – ForCAD","text":"This file depends on sourcefile~~shape_hexahedron.f90~~EfferentGraph sourcefile~shape_hexahedron.f90 shape_hexahedron.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_hexahedron.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_hexahedron use forcad , only : rk , nurbs_volume implicit none type ( nurbs_volume ) :: shape !> Set up a hexahedron shape with dimensions L = [2.0, 4.0, 8.0] and a specified number of control points nc = [4, 6, 8]. !> The weights of the control points (Wc) are optional. call shape % set_hexahedron ( L = [ 2.0_rk , 4.0_rk , 8.0_rk ], nc = [ 4 , 6 , 8 ]) ! Additional modifications can be made to control points and weights, or the NURBS can be refined using knot insertion or degree elevation. ! call shape%insert_knots(...) ! call shape%elevate_degree(...) ! ... !> Export the control points to a VTK file for visualization. call shape % export_Xc ( 'vtk/shape_hexahedron_Xc.vtk' ) !> Create the shape using the specified number of elements in each direction. call shape % create ( 8 , 16 , 32 ) !> Export the geometry to a VTK file for visualization. call shape % export_Xg ( 'vtk/shape_hexahedron_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_hexahedron_Xc.vtk' , 'vtk/shape_hexahedron_Xg.vtk' ) !> Finalize and clean up the shape object. call shape % finalize () end program","tags":"","loc":"sourcefile/shape_hexahedron.f90.html"},{"title":"forcad_utils.f90 – ForCAD","text":"Files dependent on this one sourcefile~~forcad_utils.f90~~AfferentGraph sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 sourcefile~put_to_nurbs.f90 put_to_nurbs.f90 sourcefile~put_to_nurbs.f90->sourcefile~forcad_utils.f90 sourcefile~put_to_nurbs.f90->sourcefile~forcad.f90 sourcefile~demo_curve.f90 demo_curve.f90 sourcefile~demo_curve.f90->sourcefile~forcad.f90 sourcefile~demo_surface.f90 demo_surface.f90 sourcefile~demo_surface.f90->sourcefile~forcad.f90 sourcefile~demo_volume.f90 demo_volume.f90 sourcefile~demo_volume.f90->sourcefile~forcad.f90 sourcefile~example_curve_1.f90 example_curve_1.f90 sourcefile~example_curve_1.f90->sourcefile~forcad.f90 sourcefile~example_ppm1.f90 example_ppm1.f90 sourcefile~example_ppm1.f90->sourcefile~forcad.f90 sourcefile~example_ppm2.f90 example_ppm2.f90 sourcefile~example_ppm2.f90->sourcefile~forcad.f90 sourcefile~example_ppm3.f90 example_ppm3.f90 sourcefile~example_ppm3.f90->sourcefile~forcad.f90 sourcefile~example_surface_1.f90 example_surface_1.f90 sourcefile~example_surface_1.f90->sourcefile~forcad.f90 sourcefile~example_volume_1.f90 example_volume_1.f90 sourcefile~example_volume_1.f90->sourcefile~forcad.f90 sourcefile~nearest_point_1d.f90 nearest_point_1d.f90 sourcefile~nearest_point_1d.f90->sourcefile~forcad.f90 sourcefile~nearest_point_2d.f90 nearest_point_2d.f90 sourcefile~nearest_point_2d.f90->sourcefile~forcad.f90 sourcefile~nearest_point_2d_bench.f90 nearest_point_2d_bench.f90 sourcefile~nearest_point_2d_bench.f90->sourcefile~forcad.f90 sourcefile~nearest_point_3d.f90 nearest_point_3d.f90 sourcefile~nearest_point_3d.f90->sourcefile~forcad.f90 sourcefile~shape_c_1d.f90 shape_C_1d.f90 sourcefile~shape_c_1d.f90->sourcefile~forcad.f90 sourcefile~shape_c_2d.f90 shape_C_2d.f90 sourcefile~shape_c_2d.f90->sourcefile~forcad.f90 sourcefile~shape_c_3d.f90 shape_C_3d.f90 sourcefile~shape_c_3d.f90->sourcefile~forcad.f90 sourcefile~shape_circle.f90 shape_circle.f90 sourcefile~shape_circle.f90->sourcefile~forcad.f90 sourcefile~shape_half_circle.f90 shape_half_circle.f90 sourcefile~shape_half_circle.f90->sourcefile~forcad.f90 sourcefile~shape_half_ring_2d.f90 shape_half_ring_2d.f90 sourcefile~shape_half_ring_2d.f90->sourcefile~forcad.f90 sourcefile~shape_half_ring_3d.f90 shape_half_ring_3d.f90 sourcefile~shape_half_ring_3d.f90->sourcefile~forcad.f90 sourcefile~shape_hexahedron.f90 shape_hexahedron.f90 sourcefile~shape_hexahedron.f90->sourcefile~forcad.f90 sourcefile~shape_ring_2d.f90 shape_ring_2d.f90 sourcefile~shape_ring_2d.f90->sourcefile~forcad.f90 sourcefile~shape_ring_3d.f90 shape_ring_3d.f90 sourcefile~shape_ring_3d.f90->sourcefile~forcad.f90 sourcefile~shape_tetragon.f90 shape_tetragon.f90 sourcefile~shape_tetragon.f90->sourcefile~forcad.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> This module contains parameters, functions and subroutines that are used in the library. module forcad_utils implicit none private public :: rk , basis_bernstein , basis_bspline , elemConn_C0 , kron , ndgrid , compute_multiplicity , compute_knot_vector , & basis_bspline_der , insert_knot_A_5_1 , findspan , elevate_degree_A_5_9 , hexahedron_Xc , tetragon_Xc , remove_knots_A_5_8 , & elemConn_Cn , unique , rotation integer , parameter :: rk = kind ( 1.0d0 ) !=============================================================================== interface elemConn_C0 module procedure cmp_elemConn_C0_L module procedure cmp_elemConn_C0_S module procedure cmp_elemConn_C0_V end interface !=============================================================================== !=============================================================================== interface elemConn_Cn module procedure cmp_elemConn_Cn_L module procedure cmp_elemConn_Cn_S module procedure cmp_elemConn_Cn_V end interface !=============================================================================== !=============================================================================== interface ndgrid module procedure ndgrid2 module procedure ndgrid3 end interface !=============================================================================== !=============================================================================== interface compute_multiplicity module procedure compute_multiplicity1 module procedure compute_multiplicity2 end interface !=============================================================================== !=============================================================================== interface unique module procedure unique_integer module procedure unique_real end interface !=============================================================================== contains !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function basis_bspline ( Xt , knot , nc , degree ) result ( B ) integer , intent ( in ) :: degree real ( rk ), intent ( in ), contiguous :: knot (:) integer , intent ( in ) :: nc real ( rk ), intent ( in ) :: Xt real ( rk ) :: temp , Xth_i , Xth_i1 , Xth_ip , Xth_ip1 real ( rk ), allocatable :: Nt (:,:) integer :: i , p real ( rk ), allocatable :: B (:) temp = abs ( Xt - knot ( size ( knot ))) allocate ( Nt ( nc , 0 : degree ), source = 0.0_rk ) do p = 0 , degree do i = 1 , nc Xth_i = knot ( i ) Xth_i1 = knot ( i + 1 ) Xth_ip = knot ( i + p ) Xth_ip1 = knot ( i + p + 1 ) if ( temp /= tiny ( 0.0_rk ) . and . Xt >= Xth_i . and . Xt <= Xth_i1 ) Nt ( i , 0 ) = 1.0_rk if ( Xth_ip /= Xth_i ) Nt ( i , p ) = ( Xt - Xth_i ) / ( Xth_ip - Xth_i ) * Nt ( i , p - 1 ) if ( Xth_ip1 /= Xth_i1 ) Nt ( i , p ) = Nt ( i , p ) + ( Xth_ip1 - Xt ) / ( Xth_ip1 - Xth_i1 ) * Nt ( i + 1 , p - 1 ) end do end do B = Nt (:, degree ) end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function basis_bspline_der ( Xt , knot , nc , degree ) result ( dB ) integer , intent ( in ) :: degree real ( rk ), intent ( in ), contiguous :: knot (:) integer , intent ( in ) :: nc real ( rk ), intent ( in ) :: Xt real ( rk ), allocatable :: dB (:) real ( rk ), allocatable :: Nt (:,:), dNt_dXt (:,:) real ( rk ) :: R , L , Rp , Lp , knot_i , knot_ip , knot_jk , knot_jkm , knot_end , a , b , c , d integer :: i , k , n , m , jk k = degree + 1 n = nc - 1 allocate ( Nt ( nc + degree , degree + 1 )) Nt = 0.0_rk do i = 1 , n + k knot_i = knot ( i ) knot_ip = knot ( i + 1 ) knot_end = knot ( size ( knot )) if ( abs ( Xt - knot_end ) > tiny ( 0.0_rk ) ) then if ( Xt >= knot_i . and . Xt < knot_ip ) Nt ( i , 1 ) = 1.0_rk elseif ( abs ( Xt - knot_end ) < tiny ( 0.0_rk ) ) then if ( Xt >= knot_i . and . Xt <= knot_ip ) Nt ( i , 1 ) = 1.0_rk end if end do allocate ( dNt_dXt ( nc + degree , degree + 1 )) dNt_dXt = 0.0_rk m = 0 do jk = 2 , k m = m + 1 do i = 1 , n + k - m knot_i = knot ( i ) knot_ip = knot ( i + 1 ) knot_jk = knot ( i + jk ) knot_jkm = knot ( i + jk - 1 ) a = ( knot_jkm - knot_i ) b = ( knot_jk - Xt ) c = ( knot_jk - knot_ip ) d = ( Xt - knot_i ) R = d / a if ( isnan ( R ) . or . isinf ( R ) . or . abs ( R ) < tiny ( 0.0_rk ) ) R = 0.0_rk L = b / c if ( isnan ( L ) . or . isinf ( L ) . or . abs ( L ) < tiny ( 0.0_rk ) ) L = 0.0_rk Nt ( i , jk ) = R * Nt ( i , jk - 1 ) + L * Nt ( i + 1 , jk - 1 ) Rp = ( Nt ( i , jk - 1 ) + d * dNt_dXt ( i , jk - 1 )) / a if ( isnan ( Rp ) . or . isinf ( Rp ) . or . abs ( Rp ) < tiny ( 0.0_rk ) ) Rp = 0.0_rk Lp = ( b * dNt_dXt ( i + 1 , jk - 1 ) - Nt ( i + 1 , jk - 1 )) / c if ( isnan ( Lp ) . or . isinf ( Lp ) . or . abs ( Lp ) < tiny ( 0.0_rk ) ) Lp = 0.0_rk dNt_dXt ( i , jk ) = Rp + Lp end do end do dB = dNt_dXt ( 1 : nc , k ) end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function basis_bernstein ( Xt , nc ) result ( B ) real ( rk ), intent ( in ) :: Xt integer , intent ( in ) :: nc real ( rk ), allocatable :: B (:) integer :: p , degree degree = nc - 1 allocate ( B ( nc ), source = 0.0_rk ) do concurrent ( p = 0 : degree ) B ( p + 1 ) = gamma ( real ( nc , kind = rk )) / ( gamma ( real ( p + 1 , kind = rk )) * gamma ( real ( nc - p , kind = rk ))) if ( Xt == 0.0_rk . and . p == 0 ) then B ( p + 1 ) = B ( p + 1 ) * ( 1.0_rk - Xt ) ** ( degree - p ) else if ( Xt == 0.0_rk . and . degree - p == 0 ) then B ( p + 1 ) = B ( p + 1 ) * ( Xt ** p ) else B ( p + 1 ) = B ( p + 1 ) * ( Xt ** p ) * ( 1.0_rk - Xt ) ** ( degree - p ) end if end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function kron ( u , v ) result ( w ) real ( rk ), intent ( in ), contiguous :: u (:), v (:) real ( rk ) :: w ( size ( u ) * size ( v )) integer :: i , j , m , n m = size ( u ) n = size ( v ) do i = 1 , m do j = 1 , n w (( i - 1 ) * n + j ) = u ( i ) * v ( j ) end do end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine ndgrid2 ( X_dir1 , X_dir2 , Xt ) real ( rk ), intent ( in ), contiguous :: X_dir1 (:), X_dir2 (:) real ( rk ), allocatable , intent ( out ) :: Xt (:,:) integer :: s1 , s2 , i , j s1 = size ( X_dir1 ) s2 = size ( X_dir2 ) allocate ( Xt ( s1 * s2 , 2 )) do concurrent ( j = 1 : s2 , i = 1 : s1 ) Xt (( j - 1 ) * s1 + i , 1 ) = X_dir1 ( i ) Xt (( j - 1 ) * s1 + i , 2 ) = X_dir2 ( j ) end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine ndgrid3 ( X_dir1 , X_dir2 , X_dir3 , Xt ) real ( rk ), intent ( in ), contiguous :: X_dir1 (:), X_dir2 (:), X_dir3 (:) real ( rk ), allocatable , intent ( out ) :: Xt (:,:) integer :: s1 , s2 , s3 , i , j , k s1 = size ( X_dir1 ) s2 = size ( X_dir2 ) s3 = size ( X_dir3 ) allocate ( Xt ( s1 * s2 * s3 , 3 )) do concurrent ( k = 1 : s3 , j = 1 : s2 , i = 1 : s1 ) Xt ((( k - 1 ) * s2 + ( j - 1 )) * s1 + i , 1 ) = X_dir1 ( i ) Xt ((( k - 1 ) * s2 + ( j - 1 )) * s1 + i , 2 ) = X_dir2 ( j ) Xt ((( k - 1 ) * s2 + ( j - 1 )) * s1 + i , 3 ) = X_dir3 ( k ) end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function repelem ( a , b ) result ( c ) real ( rk ), intent ( in ), contiguous :: a (:) integer , intent ( in ), contiguous :: b (:) real ( rk ) :: c ( sum ( b )) integer :: i , l , n l = 0 do i = 1 , size ( a ) n = b ( i ) c ( l + 1 : l + n ) = a ( i ) l = l + n end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elemConn_C0_L ( nnode , p ) result ( elemConn ) integer , intent ( in ) :: nnode integer , intent ( in ) :: p integer , allocatable :: elemConn (:,:) integer :: i , l integer , allocatable :: nodes (:) if ( mod ( nnode - 1 , p ) /= 0 ) error stop 'cmp_elemConn_C0_L: nnode-1 must be divisible by p' allocate ( elemConn ( ( nnode - 1 ) / p , p + 1 )) nodes = [( i , i = 1 , nnode )] l = 0 do i = 1 , nnode - p , p l = l + 1 elemConn ( l ,:) = reshape ( nodes ( i : i + p ),[( p + 1 )]) end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elemConn_C0_S ( nnode1 , nnode2 , p1 , p2 ) result ( elemConn ) integer , intent ( in ) :: nnode1 , nnode2 integer , intent ( in ) :: p1 , p2 integer , allocatable :: elemConn (:,:) integer :: i , j , l integer , allocatable :: nodes (:,:) if ( mod ( nnode1 - 1 , p1 ) /= 0 ) error stop 'cmp_elemConn_C0_S: nnode1-1 must be divisible by p1' if ( mod ( nnode2 - 1 , p2 ) /= 0 ) error stop 'cmp_elemConn_C0_S: nnode2-1 must be divisible by p2' allocate ( elemConn ( (( nnode1 - 1 ) / p1 ) * (( nnode2 - 1 ) / p2 ), ( p1 + 1 ) * ( p2 + 1 ))) nodes = reshape ([( i , i = 1 , nnode1 * nnode2 )], [ nnode1 , nnode2 ]) l = 0 do j = 1 , nnode2 - p2 , p2 do i = 1 , nnode1 - p1 , p1 l = l + 1 elemConn ( l ,:) = reshape ( nodes ( i : i + p1 , j : j + p2 ),[( p1 + 1 ) * ( p2 + 1 )]) end do end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elemConn_C0_V ( nnode1 , nnode2 , nnode3 , p1 , p2 , p3 ) result ( elemConn ) integer , intent ( in ) :: nnode1 , nnode2 , nnode3 integer , intent ( in ) :: p1 , p2 , p3 integer , allocatable :: elemConn (:,:) integer :: i , j , k , l integer , allocatable :: nodes (:,:,:) if ( mod ( nnode1 - 1 , p1 ) /= 0 ) error stop 'cmp_elemConn_C0_V: nnode1-1 must be divisible by p1' if ( mod ( nnode2 - 1 , p2 ) /= 0 ) error stop 'cmp_elemConn_C0_V: nnode2-1 must be divisible by p2' if ( mod ( nnode3 - 1 , p3 ) /= 0 ) error stop 'cmp_elemConn_C0_V: nnode3-1 must be divisible by p3' allocate ( elemConn ( (( nnode1 - 1 ) / p1 ) * (( nnode2 - 1 ) / p2 ) * (( nnode3 - 1 ) / p3 ) ,( p1 + 1 ) * ( p2 + 1 ) * ( p3 + 1 ))) nodes = reshape ([( i , i = 1 , nnode1 * nnode2 * nnode3 )], [ nnode1 , nnode2 , nnode3 ]) l = 0 do k = 1 , nnode3 - p3 , p3 do j = 1 , nnode2 - p2 , p2 do i = 1 , nnode1 - p1 , p1 l = l + 1 elemConn ( l ,:) = reshape ( nodes ( i : i + p1 , j : j + p2 , k : k + p3 ),[( p1 + 1 ) * ( p2 + 1 ) * ( p3 + 1 )]) end do end do end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine cmp_elemConn_Cn_L ( nnode , p , Xth , vecKnot_mul , elemConn ) integer , intent ( in ) :: p , nnode integer , intent ( in ), contiguous :: vecKnot_mul (:) real ( rk ), intent ( in ), contiguous :: Xth (:) integer , allocatable , intent ( out ) :: elemConn (:,:) integer , allocatable :: nodes (:) integer :: i , nnel , m , nelem nnel = p + 1 nodes = [( i , i = 1 , nnode )] nelem = size ( Xth ) - 1 allocate ( elemConn ( nelem , nnel )) m = - p do i = 1 , nelem m = m + vecKnot_mul ( i ) elemConn ( i ,:) = nodes ( m : m + p ) end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine cmp_elemConn_Cn_S ( nnode1 , nnode2 , p1 , p2 ,& Xth1 , Xth2 , vecKnot_mul1 , vecKnot_mul2 , elemConn ) integer , intent ( in ) :: p1 , p2 , nnode1 , nnode2 integer , intent ( in ), contiguous :: vecKnot_mul1 (:), vecKnot_mul2 (:) real ( rk ), intent ( in ), contiguous :: Xth1 (:), Xth2 (:) integer , allocatable , intent ( out ) :: elemConn (:,:) integer , allocatable :: nodes (:,:), nodes_vec (:) integer :: nnd_total , i , j , l , nnel1 , nnel2 , m , n , nelem1 , nelem2 , nelem nnel1 = p1 + 1 nnel2 = p2 + 1 nnd_total = nnode1 * nnode2 allocate ( nodes_vec ( nnd_total )) Nodes_vec = [( i , i = 1 , nnd_total )] nodes = reshape ( nodes_vec ,[ nnode1 , nnode2 ]) nelem1 = size ( Xth1 ) - 1 nelem2 = size ( Xth2 ) - 1 nelem = nelem1 * nelem2 allocate ( elemConn ( nelem , nnel1 * nnel2 )) l = 0 n = - p2 do j = 1 , nelem2 n = n + vecKnot_mul2 ( j ) m = - p1 do i = 1 , nelem1 m = m + vecKnot_mul1 ( i ) l = l + 1 elemConn ( l ,:) = reshape ( nodes ( m : m + p1 , n : n + p2 ), [ nnel1 * nnel2 ]) end do end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine cmp_elemConn_Cn_V ( nnode1 , nnode2 , nnode3 , p1 , p2 , p3 ,& Xth1 , Xth2 , Xth3 , vecKnot_mul1 , vecKnot_mul2 , vecKnot_mul3 , elemConn ) integer , intent ( in ) :: p1 , p2 , p3 , nnode1 , nnode2 , nnode3 integer , intent ( in ), contiguous :: vecKnot_mul1 (:), vecKnot_mul2 (:), vecKnot_mul3 (:) real ( rk ), intent ( in ), contiguous :: Xth1 (:), Xth2 (:), Xth3 (:) integer , allocatable , intent ( out ) :: elemConn (:,:) integer , allocatable :: nodes (:,:,:), nodes_vec (:) integer :: nnd_total , i , j , k , l , nnel1 , nnel2 , nnel3 , m , n , o , nelem1 , nelem2 , nelem3 , nelem nnel1 = p1 + 1 nnel2 = p2 + 1 nnel3 = p3 + 1 nnd_total = nnode1 * nnode2 * nnode3 allocate ( nodes_vec ( nnd_total )) Nodes_vec = [( i , i = 1 , nnd_total )] nodes = reshape ( nodes_vec ,[ nnode1 , nnode2 , nnode3 ]) nelem1 = size ( Xth1 ) - 1 nelem2 = size ( Xth2 ) - 1 nelem3 = size ( Xth3 ) - 1 nelem = nelem1 * nelem2 * nelem3 allocate ( elemConn ( nelem , nnel1 * nnel2 * nnel3 )) l = 0 o = - p3 do k = 1 , nelem3 o = o + vecKnot_mul3 ( k ) n = - p2 do j = 1 , nelem2 n = n + vecKnot_mul2 ( j ) m = - p1 do i = 1 , nelem1 m = m + vecKnot_mul1 ( i ) l = l + 1 elemConn ( l ,:) = reshape ( nodes ( m : m + p1 , n : n + p2 , o : o + p3 ), [ nnel1 * nnel2 * nnel3 ]) end do end do end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function compute_multiplicity1 ( knot ) result ( multiplicity ) real ( rk ), intent ( in ), contiguous :: knot (:) integer , allocatable :: multiplicity (:) integer :: i , count count = 1 do i = 2 , size ( knot ) if ( knot ( i ) /= knot ( i - 1 )) count = count + 1 end do allocate ( multiplicity ( count )) multiplicity ( 1 ) = 1 count = 1 do i = 2 , size ( knot ) if ( knot ( i ) /= knot ( i - 1 )) then count = count + 1 multiplicity ( count ) = 1 else multiplicity ( count ) = multiplicity ( count ) + 1 end if end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function compute_multiplicity2 ( knot , Xth ) result ( multiplicity ) real ( rk ), intent ( in ), contiguous :: knot (:) real ( rk ), intent ( in ) :: Xth integer :: multiplicity integer :: i , count , size_knot size_knot = size ( knot ) multiplicity = 0 i = 1 do while ( i <= size_knot ) if ( knot ( i ) == Xth ) then count = 1 do while ( i + count <= size_knot . and . knot ( i + count ) == Xth ) count = count + 1 end do if ( count > multiplicity ) then multiplicity = count end if i = i + count else i = i + 1 end if end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function compute_knot_vector ( Xth_dir , degree , continuity ) result ( knot ) real ( rk ), intent ( in ), contiguous :: Xth_dir (:) integer , intent ( in ) :: degree integer , intent ( in ), contiguous :: continuity (:) real ( rk ), allocatable :: knot (:) knot = repelem ( Xth_dir , ( degree - continuity )) end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause elemental pure function isinf ( x ) result ( output ) real ( rk ), intent ( in ) :: x logical :: output output = . false . if ( x > huge ( x )) output = . true . if ( x < - huge ( x )) output = . true . end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause elemental pure function isnan ( x ) result ( output ) real ( rk ), intent ( in ) :: x logical :: output output = . false . if ( x /= x ) output = . true . end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine insert_knot_A_5_1 ( p , UP , Pw , u , k , s , r , nq , UQ , Qw ) integer , intent ( in ) :: p , k , s , r real ( rk ), intent ( in ), contiguous :: UP ( 0 :), Pw ( 0 :,:) real ( rk ), intent ( in ) :: u real ( rk ), allocatable , intent ( out ) :: UQ (:), Qw (:,:) integer , intent ( out ) :: nq integer :: i , j , L , mp , dim , np real ( rk ), allocatable :: Rw (:,:) real ( rk ) :: alpha dim = size ( Pw , 2 ) np = size ( Pw , 1 ) - 1 mp = np + p + 1 nq = np + r allocate ( UQ ( 0 : mp + r )) allocate ( Qw ( 0 : nq , 1 : dim )) allocate ( Rw ( 0 : p , 1 : dim )) UQ ( 0 : k ) = UP ( 0 : k ) UQ ( k + 1 : k + r ) = u UQ ( k + 1 + r : mp + r ) = UP ( k + 1 : mp ) Qw ( 0 : k - p ,:) = Pw ( 0 : k - p ,:) Qw ( k - s + r : np + r ,:) = Pw ( k - s : np ,:) Rw ( 0 : p - s ,:) = Pw ( k - p : k - s ,:) do j = 1 , r L = k - p + j do i = 0 , p - j - s alpha = ( u - UP ( L + i )) / ( UP ( i + k + 1 ) - UP ( L + i )) Rw ( i ,:) = alpha * Rw ( i + 1 ,:) + ( 1.0_rk - alpha ) * Rw ( i ,:) end do Qw ( L ,:) = Rw ( 0 ,:) Qw ( k + r - j - s ,:) = Rw ( p - j - s ,:) end do Qw ( L + 1 : k - s - 1 ,:) = Rw ( 1 : k - s - 1 - L ,:) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function findspan ( n , degree , Xth , knot ) result ( s ) integer , intent ( in ) :: n , degree real ( rk ), intent ( in ) :: Xth real ( rk ), intent ( in ), contiguous :: knot (:) integer :: s integer :: low , high , mid if ( Xth == knot ( n + 2 )) then s = n return end if low = degree high = n + 1 mid = ( low + high ) / 2 do while ( Xth < knot ( mid + 1 ) . or . Xth >= knot ( mid + 2 )) if ( Xth < knot ( mid + 1 )) then high = mid else low = mid end if mid = ( low + high ) / 2 end do s = mid end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine elevate_degree_A_5_9 ( t , knot , degree , Xcw , nc_new , knot_new , Xcw_new ) integer , intent ( in ) :: t real ( rk ), intent ( in ), contiguous :: Xcw (:,:), knot (:) integer , intent ( in ) :: degree integer , intent ( out ) :: nc_new real ( rk ), allocatable , intent ( out ) :: Xcw_new (:,:), knot_new (:) real ( rk ), allocatable :: bezalfs (:,:), bpts (:,:), ebpts (:,:), Nextbpts (:,:), alfs (:) real ( rk ) :: inv , alpha1 , alpha2 , Xth1 , Xth2 , numer , den integer :: n , lbz , rbz , sv , tr , kj , first , knoti , last , alpha3 , dim , nc integer :: i , j , q , s , m , ph , ph2 , mpi , mh , r , a , b , Xcwi , oldr , mul integer , allocatable :: mlp (:) nc = size ( Xcw , 1 ) dim = size ( Xcw , 2 ) mlp = compute_multiplicity ( knot ) mlp = mlp + t nc_new = sum ( mlp ) - ( mlp ( 1 ) - 1 ) - 1 allocate ( Xcw_new ( nc_new , dim ), source = 0.0_rk ) allocate ( bezalfs ( degree + 1 , degree + t + 1 ), source = 0.0_rk ) allocate ( bpts ( degree + 1 , dim ), source = 0.0_rk ) allocate ( ebpts ( degree + t + 1 , dim ), source = 0.0_rk ) allocate ( Nextbpts ( degree + 1 , dim ), source = 0.0_rk ) allocate ( alfs ( degree ), source = 0.0_rk ) n = nc - 1 m = n + degree + 1 ph = degree + t ph2 = ph / 2 bezalfs ( 1 , 1 ) = 1.0_rk bezalfs ( degree + 1 , ph + 1 ) = 1.0_rk do i = 1 , ph2 inv = 1.0_rk / bincoeff ( ph , i ) mpi = min ( degree , i ) do j = max ( 0 , i - t ), mpi bezalfs ( j + 1 , i + 1 ) = inv * bincoeff ( degree , j ) * bincoeff ( t , i - j ) end do end do do i = ph2 + 1 , ph - 1 mpi = min ( degree , i ) do j = max ( 0 , i - t ), mpi bezalfs ( j + 1 , i + 1 ) = bezalfs ( degree - j + 1 , ph - i + 1 ) end do end do mh = ph knoti = ph + 1 r = - 1 a = degree b = degree + 1 Xcwi = 1 Xth1 = knot ( 1 ) Xcw_new ( 1 ,:) = Xcw ( 1 ,:) allocate ( knot_new ( sum ( mlp )), source = 0.0_rk ) knot_new ( 1 : ph + 1 ) = Xth1 do i = 0 , degree bpts ( i + 1 ,:) = Xcw ( i + 1 ,:) end do do while ( b < m ) i = b do while ( b < m . and . knot ( b + 1 ) == knot ( b + 2 )) b = b + 1 if ( b + 2 > size ( knot )) then exit end if end do mul = b - i + 1 mh = mh + mul + t Xth2 = knot ( b + 1 ) oldr = r r = degree - mul if ( oldr > 0 ) then lbz = ( oldr + 2 ) / 2 else lbz = 1 end if if ( r > 0 ) then rbz = ph - ( r + 1 ) / 2 else rbz = ph end if if ( r > 0 ) then numer = Xth2 - Xth1 do q = degree , mul + 1 , - 1 alfs ( q - mul ) = numer / ( knot ( a + q + 1 ) - Xth1 ) end do do j = 1 , r sv = r - j s = mul + j do q = degree , s , - 1 bpts ( q + 1 ,:) = ( 1.0_rk - alfs ( q - s + 1 )) * bpts ( q ,:) + alfs ( q - s + 1 ) * bpts ( q + 1 ,:) end do Nextbpts ( sv + 1 ,:) = bpts ( degree + 1 ,:) end do end if do i = lbz , ph ebpts ( i + 1 ,:) = 0.0_rk mpi = min ( degree , i ) do j = max ( 0 , i - t ), mpi ebpts ( i + 1 ,:) = bezalfs ( j + 1 , i + 1 ) * bpts ( j + 1 ,:) + ebpts ( i + 1 ,:) end do end do if ( oldr > 1 ) then first = knoti - 2 last = knoti den = Xth2 - Xth1 alpha3 = floor (( Xth2 - knot ( knoti )) / den ) do tr = 1 , oldr - 1 i = first j = last kj = j - knoti + 1 do while ( j - i > tr ) if ( i < Xcwi ) then alpha1 = ( Xth2 - knot ( i + 1 )) / ( Xth1 - knot ( i + 1 )) Xcw_new ( i + 1 ,:) = ( 1 - alpha1 ) * Xcw_new ( i ,:) + alpha1 * Xcw_new ( i + 1 ,:) end if if ( j >= lbz ) then if ( j - tr <= knoti - ph + oldr ) then alpha2 = ( Xth2 - knot_new ( j - tr + 1 )) / den ebpts ( kj + 1 ,:) = alpha2 * ebpts ( kj + 1 ,:) + ( 1 - alpha2 ) * ebpts ( kj + 2 ,:) else ebpts ( kj + 1 ,:) = ( 1 - alpha3 ) * ebpts (:, kj + 2 ) + alpha3 * ebpts ( kj + 1 ,:) end if end if i = i + 1 j = j - 1 kj = kj - 1 end do first = first - 1 last = last + 1 end do end if if ( a /= degree ) then do i = 0 , ph - oldr - 1 knot_new ( knoti + 1 ) = Xth1 knoti = knoti + 1 end do end if do j = lbz , rbz Xcw_new ( Xcwi + 1 ,:) = ebpts ( j + 1 ,:) Xcwi = Xcwi + 1 end do if ( b < m ) then do j = 0 , r - 1 bpts ( j + 1 ,:) = Nextbpts ( j + 1 ,:) end do do j = r , degree bpts ( j + 1 ,:) = Xcw ( b - degree + j + 1 ,:) end do a = b b = b + 1 Xth1 = Xth2 else do i = 0 , ph knot_new ( knoti + i + 1 ) = Xth2 end do end if end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function bincoeff ( n , k ) result ( b ) integer , intent ( in ) :: n , k real ( rk ) :: b b = floor ( 0.5_rk + exp ( factln ( n ) - factln ( k ) - factln ( n - k ))) end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function factln ( n ) result ( f ) integer , intent ( in ) :: n real ( rk ) :: f if ( n <= 1 ) then f = 0.0_rk return end if f = log ( gamma ( real ( n + 1 , rk ))) end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function hexahedron_Xc ( L , nc ) result ( Xc ) real ( rk ), intent ( in ) :: L ( 3 ) integer , intent ( in ) :: nc ( 3 ) real ( rk ), allocatable :: Xc (:,:) real ( rk ) :: dx , dy , dz integer :: i , j , k , nci dx = L ( 1 ) / real ( nc ( 1 ) - 1 , rk ) dy = L ( 2 ) / real ( nc ( 2 ) - 1 , rk ) dz = L ( 3 ) / real ( nc ( 3 ) - 1 , rk ) allocate ( Xc ( nc ( 1 ) * nc ( 2 ) * nc ( 3 ), 3 )) nci = 1 do k = 0 , nc ( 3 ) - 1 do j = 0 , nc ( 2 ) - 1 do i = 0 , nc ( 1 ) - 1 Xc ( nci , 1 ) = real ( i , rk ) * dx Xc ( nci , 2 ) = real ( j , rk ) * dy Xc ( nci , 3 ) = real ( k , rk ) * dz nci = nci + 1 end do end do end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function tetragon_Xc ( L , nc ) result ( Xc ) real ( rk ), intent ( in ) :: L ( 2 ) integer , intent ( in ) :: nc ( 2 ) real ( rk ), allocatable :: Xc (:,:) real ( rk ) :: dx , dy integer :: i , j , nci dx = L ( 1 ) / real ( nc ( 1 ) - 1 , rk ) dy = L ( 2 ) / real ( nc ( 2 ) - 1 , rk ) allocate ( Xc ( nc ( 1 ) * nc ( 2 ), 3 )) nci = 1 do j = 0 , nc ( 2 ) - 1 do i = 0 , nc ( 1 ) - 1 Xc ( nci , 1 ) = real ( i , rk ) * dx Xc ( nci , 2 ) = real ( j , rk ) * dy Xc ( nci , 3 ) = 0.0_rk nci = nci + 1 end do end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine remove_knots_A_5_8 ( p , knot , Pw , u , r , s , num , t , knot_new , Pw_new ) real ( rk ), intent ( in ) :: u integer , intent ( in ) :: p , r , s , num real ( rk ), intent ( in ), contiguous :: knot (:) real ( rk ), intent ( in ), contiguous :: Pw (:,:) real ( rk ), allocatable , intent ( out ) :: knot_new (:) real ( rk ), allocatable , intent ( out ) :: Pw_new (:,:) real ( rk ), allocatable :: Pw_copy (:,:), knot_copy (:) integer , intent ( out ) :: t real ( rk ) :: tol , alfi , alfj real ( rk ), allocatable :: temp (:,:) integer :: i , j , ii , jj , remflag , off , first , last , ord , fout , m , k , n , nc , dim , tt dim = size ( Pw , 2 ) nc = size ( Pw , 1 ) n = nc m = n + p + 1 ord = p + 1 fout = ( 2 * r - s - p ) / 2 last = r - s first = r - p Pw_copy = Pw knot_copy = knot ! TODO: tol = 1.0e-6_rk * minval ( Pw (:, dim )) / ( 1.0_rk + maxval ( sqrt ( sum ( Pw ** 2 , 2 )))) allocate ( temp ( 2 * p + 1 , dim ), source = 0.0_rk ) t = 0 do tt = 0 , num - 1 off = first - 1 temp ( 1 ,:) = Pw_copy ( off ,:) temp ( last + 1 - off + 1 ,:) = Pw_copy ( last + 1 ,:) i = first j = last ii = 1 jj = last - off remflag = 0 do while ( j - i > t ) alfi = ( u - knot_copy ( i )) / ( knot_copy ( i + ord + t ) - knot_copy ( i )) alfj = ( u - knot_copy ( j - t )) / ( knot_copy ( j + ord ) - knot_copy ( j - t )) temp ( ii + 1 ,:) = ( Pw_copy ( i ,:) - ( 1.0_rk - alfi ) * temp ( ii - 1 + 1 ,:)) / alfi temp ( jj + 1 ,:) = ( Pw_copy ( j ,:) - alfj * temp ( jj + 1 + 1 ,:)) / ( 1.0_rk - alfj ) i = i + 1 ii = ii + 1 j = j - 1 jj = jj - 1 end do if ( j - i <= t ) then if ( norm2 ( temp ( ii - 1 + 1 ,:) - temp ( jj + 1 + 1 ,:)) <= tol ) then remflag = 1 else alfi = ( u - knot_copy ( i )) / ( knot_copy ( i + ord + t ) - knot_copy ( i )) if ( norm2 ( Pw_copy ( i ,:) - ( alfi * temp ( ii + t + 1 + 1 ,:) + ( 1.0_rk - alfi ) * temp ( ii - 1 + 1 ,:))) <= tol ) then remflag = 1 end if end if end if if ( remflag == 0 ) then exit else i = first j = last do while ( j - i > t ) Pw_copy ( i ,:) = temp ( i - off + 1 ,:) Pw_copy ( j ,:) = temp ( j - off + 1 ,:) i = i + 1 j = j - 1 end do end if first = first - 1 last = last + 1 t = t + 1 end do if ( t == 0 ) then return end if do k = r + 1 , m knot_copy ( k - t ) = knot_copy ( k ) end do j = fout i = j do k = 1 , t - 1 if ( mod ( k , 2 ) == 1 ) then i = i + 1 else j = j - 1 end if end do do k = i + 1 , n Pw_copy ( j ,:) = Pw_copy ( k ,:) j = j + 1 end do knot_new = knot_copy ( 1 : size ( knot_copy ) - t ) Pw_new = Pw_copy ( 1 : size ( Pw_copy , 1 ) - t ,:) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function unique_integer ( vec ) result ( output ) integer , dimension (:), intent ( in ), contiguous :: vec integer , dimension (:), allocatable :: output integer :: i , j , k allocate ( output ( 0 )) do i = 1 , size ( vec ) k = 0 do j = 1 , size ( output ) if ( vec ( i ) == output ( j )) then k = k + 1 exit end if end do if ( k == 0 ) then output = [ output , vec ( i )] end if end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function unique_real ( vec ) result ( output ) real ( rk ), dimension (:), intent ( in ), contiguous :: vec real ( rk ), dimension (:), allocatable :: output integer :: i , j , k allocate ( output ( 0 )) do i = 1 , size ( vec ) k = 0 do j = 1 , size ( output ) if ( vec ( i ) == output ( j )) then k = k + 1 exit end if end do if ( k == 0 ) then output = [ output , vec ( i )] end if end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function rotation ( alpha , beta , theta ) result ( R ) real ( rk ), intent ( in ) :: alpha , beta , theta real ( rk ), dimension ( 3 , 3 ) :: R R ( 1 , 1 ) = cosd ( beta ) * cosd ( theta ) R ( 2 , 1 ) = cosd ( beta ) * sind ( theta ) R ( 3 , 1 ) = - sind ( beta ) R ( 1 , 2 ) = sind ( alpha ) * sind ( beta ) * cosd ( theta ) - cosd ( alpha ) * sind ( theta ) R ( 2 , 2 ) = sind ( alpha ) * sind ( beta ) * sind ( theta ) + cosd ( alpha ) * cosd ( theta ) R ( 3 , 2 ) = sind ( alpha ) * cosd ( beta ) R ( 1 , 3 ) = cosd ( alpha ) * sind ( beta ) * cosd ( theta ) + sind ( alpha ) * sind ( theta ) R ( 2 , 3 ) = cosd ( alpha ) * sind ( beta ) * sind ( theta ) - sind ( alpha ) * cosd ( theta ) R ( 3 , 3 ) = cosd ( alpha ) * cosd ( beta ) end function !=============================================================================== end module forcad_utils","tags":"","loc":"sourcefile/forcad_utils.f90.html"},{"title":"example_ppm2.f90 – ForCAD","text":"This file depends on sourcefile~~example_ppm2.f90~~EfferentGraph sourcefile~example_ppm2.f90 example_ppm2.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~example_ppm2.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> Visualization of NURBS surfaces using ForCAD, ForImage and ForColorMap libraries !> This example converts NURBS surfaces (vector) to an image (raster) using ForCAD, ForImage and ForColorMap libraries. program example_ppm2 use forcad , only : rk , nurbs_surface use forimage , only : ik , format_pnm , color use forcolormap , only : colormap use fortime , only : timer implicit none type ( nurbs_surface ) :: shape type ( format_pnm ) :: image type ( color ) :: background_color type ( colormap ) :: cmap integer ( ik ), allocatable :: px (:, :) real ( rk ), allocatable :: Xg (:,:), z_values (:) real ( rk ) :: center ( 3 ), inner_radius , outer_radius , aspect_ratio integer :: height , width , ng ( 2 ), red , green , blue , res1 , res2 , i integer , allocatable :: idx (:,:) type ( timer ) :: t !----------------------------------------------------------------------------- ! Set the image size and calculate the aspect ratio !----------------------------------------------------------------------------- width = 2000 height = 2000 aspect_ratio = real ( width , rk ) / real ( height , rk ) allocate ( px ( height , 3 * width )) !----------------------------------------------------------------------------- ! Set the background color using ForColor class of ForImage !----------------------------------------------------------------------------- call t % timer_start () call background_color % set ( 'white' , use_library = . true .) do i = 1 , width px (:, 3 * ( i - 1 ) + 1 ) = background_color % get_r () px (:, 3 * ( i - 1 ) + 2 ) = background_color % get_g () px (:, 3 * ( i - 1 ) + 3 ) = background_color % get_b () end do call t % timer_stop ( message = 'Setting the background color' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () !> Set the shape parameters for a tetragon res1 = 2000 res2 = 2000 call shape % set_tetragon ( L = [ 1.0_rk , 1.0_rk ], nc = [ 2 , 2 ]) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a tetragon' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! circular gradient z_values = (( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 )))) ** 2 & + (( Xg (:, 2 ) - minval ( Xg (:, 2 ))) / ( maxval ( Xg (:, 2 )) - minval ( Xg (:, 2 ))) ** 2 ) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'buda' , 0.0_rk , 1.0_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting the colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- !> Set the shape parameters for a ring call t % timer_start () center = [ 0.0_rk , 0.0_rk , 0.0_rk ] outer_radius = 0.24_rk * 2.0_rk inner_radius = 0.0_rk * 2.0_rk res1 = 3500 res2 = 1000 center ( 2 ) = center ( 2 ) / aspect_ratio call shape % set_half_ring ( center , inner_radius , outer_radius ) call shape % rotate_Xc ( 0.0_rk , 0.0_rk , 4 5.0_rk ) call shape % translate_Xc ([ 0.25_rk , 0.25_rk , 0.0_rk ]) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! circular gradient z_values = (( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 )))) ** 2 & + (( Xg (:, 2 ) - minval ( Xg (:, 2 ))) / ( maxval ( Xg (:, 2 )) - minval ( Xg (:, 2 ))) ** 2 ) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'managua' , 0.0_rk , 2.2_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting the colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- !> Set the shape parameters for a ring call t % timer_start () center = [ 0.0_rk , 0.0_rk , 0.0_rk ] outer_radius = 0.24_rk * 2.0_rk inner_radius = 0.08_rk * 2.0_rk res1 = 3500 res2 = 1000 center ( 2 ) = center ( 2 ) / aspect_ratio call shape % set_half_ring ( center , inner_radius , outer_radius ) call shape % rotate_Xc ( 0.0_rk , 0.0_rk , - 4 5.0_rk ) call shape % translate_Xc ([ 0.75_rk , 0.25_rk , 0.0_rk ]) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! linear gradient in the y-direction z_values = ( Xg (:, 2 ) - minval ( Xg (:, 2 ))) / ( maxval ( Xg (:, 2 )) - minval ( Xg (:, 2 ))) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'lipari' , 0.0_rk , 1.0_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting the colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () !> Set the shape parameters for a ring center = [ 0.0_rk , 0.0_rk , 0.0_rk ] outer_radius = 0.24_rk * 2.0_rk inner_radius = 0.01_rk * 2.0_rk res1 = 3500 res2 = 1000 center ( 2 ) = center ( 2 ) / aspect_ratio call shape % set_half_ring ( center , inner_radius , outer_radius ) call shape % rotate_Xc ( 0.0_rk , 0.0_rk , - 9 0.0_rk ) call shape % translate_Xc ([ 0.25_rk , 0.75_rk , 0.0_rk ]) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! linear gradient in the x-direction z_values = ( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 ))) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'oslo10' , 0.0_rk , 1.0_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting the colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () !> Set the shape parameters for a ring center = [ 0.0_rk , 0.0_rk , 0.0_rk ] outer_radius = 0.24_rk * 2.0_rk inner_radius = 0.22_rk * 2.0_rk res1 = 3500 res2 = 1000 center ( 2 ) = center ( 2 ) / aspect_ratio call shape % set_half_ring ( center , inner_radius , outer_radius ) call shape % rotate_Xc ( 0.0_rk , 0.0_rk , 0.0_rk ) call shape % translate_Xc ([ 0.75_rk , 0.75_rk , 0.0_rk ]) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! linear gradient in the x-direction z_values = ( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 ))) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- red = 255 green = 215 blue = 0 !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting the colors' ) !----------------------------------------------------------------------------- ! Save the image to a PPM file using ForImage library !----------------------------------------------------------------------------- call t % timer_start () call image % set_pnm (& encoding = 'binary' , & file_format = 'ppm' , & width = width , & height = height , & max_color = 255 , & comment = 'example: ForCAD + ForImage + ForColor + ForColormap' , & pixels = px & ) call image % export_pnm ( 'ppm/example_ppm2' ) call image % finalize () call t % timer_stop ( message = 'Saving the image' ) ! Clean up call cmap % finalize () deallocate ( px , Xg , z_values ) end program","tags":"","loc":"sourcefile/example_ppm2.f90.html"},{"title":"shape_circle.f90 – ForCAD","text":"This file depends on sourcefile~~shape_circle.f90~~EfferentGraph sourcefile~shape_circle.f90 shape_circle.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_circle.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_circle use forcad , only : rk , nurbs_curve implicit none type ( nurbs_curve ) :: shape !----------------------------------------------------------------------------- ! Setting up NURBS circle !----------------------------------------------------------------------------- !> Set a circle with radius 2.0 and center at [0.0, 0.0, 0.0] call shape % set_circle ( center = [ 0.0_rk , 0.0_rk , 0.0_rk ], radius = 2.0_rk ) !> Export control points to a VTK file call shape % export_Xc ( 'vtk/shape_circle_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating circle !----------------------------------------------------------------------------- !> Generate the NURBS circle with a resolution of 100 call shape % create ( res = 100 ) !> Export the generated cirlce to a VTK file call shape % export_Xg ( 'vtk/shape_circle_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_circle_Xc.vtk' , 'vtk/shape_circle_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS curve object call shape % finalize () end program","tags":"","loc":"sourcefile/shape_circle.f90.html"},{"title":"shape_half_ring_2d.f90 – ForCAD","text":"This file depends on sourcefile~~shape_half_ring_2d.f90~~EfferentGraph sourcefile~shape_half_ring_2d.f90 shape_half_ring_2d.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_half_ring_2d.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_half_ring_2d use forcad , only : rk , nurbs_surface implicit none type ( nurbs_surface ) :: shape !> Set up a half ring shape centered at 0,0,0 with inner radius 1 and outer radius 2. call shape % set_half_ring ([ 0.0_rk , 0.0_rk , 0.0_rk ], 1.0_rk , 2.0_rk ) !> Export the control points to a VTK file for visualization. call shape % export_Xc ( 'vtk/shape_half_ring_2d_Xc.vtk' ) !> Create the shape using the specified number of elements in each direction. call shape % create ( 60 , 15 ) !> Export the geometry to a VTK file for visualization. call shape % export_Xg ( 'vtk/shape_half_ring_2d_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_half_ring_2d_Xc.vtk' , 'vtk/shape_half_ring_2d_Xg.vtk' ) !> Finalize and clean up the shape object. call shape % finalize () end program","tags":"","loc":"sourcefile/shape_half_ring_2d.f90.html"},{"title":"shape_ring_2d.f90 – ForCAD","text":"This file depends on sourcefile~~shape_ring_2d.f90~~EfferentGraph sourcefile~shape_ring_2d.f90 shape_ring_2d.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_ring_2d.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_ring_2d use forcad , only : rk , nurbs_surface implicit none type ( nurbs_surface ) :: shape !> Set up a ring shape with inner radius 1.0 and outer radius 2.0. call shape % set_ring ([ 0.0_rk , 0.0_rk , 0.0_rk ], 1.0_rk , 2.0_rk ) !> Export the control points to a VTK file for visualization. call shape % export_Xc ( 'vtk/shape_ring_2d_Xc.vtk' ) !> Create the shape using the specified number of elements in each direction. call shape % create ( 60 , 15 ) !> Export the geometry to a VTK file for visualization. call shape % export_Xg ( 'vtk/shape_ring_2d_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_ring_2d_Xc.vtk' , 'vtk/shape_ring_2d_Xg.vtk' ) !> Finalize and clean up the shape object. call shape % finalize () end program","tags":"","loc":"sourcefile/shape_ring_2d.f90.html"},{"title":"example_ppm1.f90 – ForCAD","text":"This file depends on sourcefile~~example_ppm1.f90~~EfferentGraph sourcefile~example_ppm1.f90 example_ppm1.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~example_ppm1.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> Visualization of NURBS surfaces using ForCAD, ForImage and ForColorMap libraries !> This example converts NURBS surfaces (vector) to an image (raster) using ForCAD, ForImage and ForColorMap libraries. program example_ppm1 use forcad , only : rk , nurbs_surface use forimage , only : ik , format_pnm , color use forcolormap , only : colormap use fortime , only : timer implicit none type ( nurbs_surface ) :: shape type ( format_pnm ) :: image type ( color ) :: background_color type ( colormap ) :: cmap integer ( ik ), allocatable :: px (:, :) real ( rk ), allocatable :: Xg (:,:), z_values (:) real ( rk ) :: center ( 3 ), inner_radius , outer_radius , aspect_ratio integer :: height , width , ng ( 2 ), red , green , blue , res1 , res2 , i integer , allocatable :: idx (:,:) type ( timer ) :: t !----------------------------------------------------------------------------- ! Set the image size and calculate the aspect ratio !----------------------------------------------------------------------------- width = 2000 height = 2000 aspect_ratio = real ( width , rk ) / real ( height , rk ) allocate ( px ( height , 3 * width )) !----------------------------------------------------------------------------- ! Set the background color using ForColor class of ForImage !----------------------------------------------------------------------------- call t % timer_start () call background_color % set ( 'white' , use_library = . true .) do i = 1 , width px (:, 3 * ( i - 1 ) + 1 ) = background_color % get_r () px (:, 3 * ( i - 1 ) + 2 ) = background_color % get_g () px (:, 3 * ( i - 1 ) + 3 ) = background_color % get_b () end do call t % timer_stop ( message = 'Setting the background color' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () !> Set the shape parameters for a tetragon res1 = 2000 res2 = 2000 call shape % set_tetragon ( L = [ 1.0_rk , 1.0_rk ], nc = [ 2 , 2 ]) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a tetragon' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! circular gradient z_values = (( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 )))) ** 2 & + (( Xg (:, 2 ) - minval ( Xg (:, 2 ))) / ( maxval ( Xg (:, 2 )) - minval ( Xg (:, 2 ))) ** 2 ) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'buda' , 0.0_rk , 1.0_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () !> Set the shape parameters for a ring center = [ 0.25_rk , 0.25_rk , 0.0_rk ] outer_radius = 0.24_rk inner_radius = 0.0_rk res1 = 3500 res2 = 1000 center ( 2 ) = center ( 2 ) / aspect_ratio call shape % set_ring ( center , inner_radius , outer_radius ) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! circular gradient z_values = (( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 )))) ** 2 & + (( Xg (:, 2 ) - minval ( Xg (:, 2 ))) / ( maxval ( Xg (:, 2 )) - minval ( Xg (:, 2 ))) ** 2 ) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'managua' , 0.0_rk , 2.2_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () !> Set the shape parameters for a ring center = [ 0.75_rk , 0.25_rk , 0.0_rk ] outer_radius = 0.24_rk inner_radius = 0.08_rk res1 = 3500 res2 = 1000 center ( 2 ) = center ( 2 ) / aspect_ratio call shape % set_ring ( center , inner_radius , outer_radius ) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! linear gradient in the y-direction z_values = ( Xg (:, 2 ) - minval ( Xg (:, 2 ))) / ( maxval ( Xg (:, 2 )) - minval ( Xg (:, 2 ))) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'lipari' , 0.0_rk , 1.0_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () !> Set the shape parameters for a ring center = [ 0.25_rk , 0.75_rk , 0.0_rk ] outer_radius = 0.24_rk inner_radius = 0.01_rk res1 = 3500 res2 = 1000 center ( 2 ) = center ( 2 ) / aspect_ratio call shape % set_ring ( center , inner_radius , outer_radius ) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! linear gradient in the x-direction z_values = ( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 ))) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'oslo10' , 0.0_rk , 1.0_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () !> Set the shape parameters for a ring center = [ 0.75_rk , 0.75_rk , 0.0_rk ] outer_radius = 0.24_rk inner_radius = 0.22_rk res1 = 3500 res2 = 1000 center ( 2 ) = center ( 2 ) / aspect_ratio call shape % set_ring ( center , inner_radius , outer_radius ) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! linear gradient in the x-direction z_values = ( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 ))) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- red = 255 green = 215 blue = 0 !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting colors' ) !----------------------------------------------------------------------------- ! Save the image to a PPM file using ForImage library !----------------------------------------------------------------------------- call t % timer_start () call image % set_pnm (& encoding = 'binary' , & file_format = 'ppm' , & width = width , & height = height , & max_color = 255 , & comment = 'example: ForCAD + ForImage + ForColor + ForColormap' , & pixels = px & ) call image % export_pnm ( 'ppm/example_ppm1' ) call image % finalize () call t % timer_stop ( message = 'Saving the image' ) ! Clean up call cmap % finalize () deallocate ( px , Xg , z_values ) end program","tags":"","loc":"sourcefile/example_ppm1.f90.html"},{"title":"nearest_point_1d.f90 – ForCAD","text":"This file depends on sourcefile~~nearest_point_1d.f90~~EfferentGraph sourcefile~nearest_point_1d.f90 nearest_point_1d.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~nearest_point_1d.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program nearest_point_1d use forcad , only : rk , nurbs_curve implicit none type ( nurbs_curve ) :: shape !! Declare a NURBS curve object real ( rk ), allocatable :: nearest_Xg (:) !! Coordinates of the nearest point on the curve real ( rk ) :: nearest_Xt !! Corresponding parametric coordinates of the nearest point integer :: id !! id of the nearest point !----------------------------------------------------------------------------- ! Setting up the NURBS circle !----------------------------------------------------------------------------- !> Set a circle with radius 2.0 and center at [0.0, 0.0, 0.0] call shape % set_circle ( center = [ 0.0_rk , 0.0_rk , 0.0_rk ], radius = 2.0_rk ) !----------------------------------------------------------------------------- ! Creating circle !----------------------------------------------------------------------------- !> Generate the NURBS circle with a resolution of 100 call shape % create ( res = 100 ) !----------------------------------------------------------------------------- ! Nearest point on the curve !----------------------------------------------------------------------------- !> Find the nearest point on the curve to a given point ! nearest_Xg: Coordinates of the nearest point on the curve (optional) ! nearest_Xt: Corresponding parametric coordinates of the nearest point (optional) ! id: id of the nearest point (optional) call shape % nearest_point ([ 2.0_rk , 3.0_rk , 5.0_rk ], nearest_Xg , nearest_Xt , id ) print * , 'Nearest point on the curve:' , nearest_Xg , 'with parametric coordinates:' , nearest_Xt , 'and id:' , id !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS curve object call shape % finalize () deallocate ( nearest_Xg ) end program","tags":"","loc":"sourcefile/nearest_point_1d.f90.html"},{"title":"example_curve_1.f90 – ForCAD","text":"This file depends on sourcefile~~example_curve_1.f90~~EfferentGraph sourcefile~example_curve_1.f90 example_curve_1.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~example_curve_1.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> This program demonstrates the usage of a NURBS (Non-Uniform Rational B-Spline) curve object to create and finalize a NURBS curve. !> It sets up control points, weights, and knot vectors for all three dimensions, generates the curve, and exports the control points and the curve to VTK files. program example1_curve use forcad , only : rk , nurbs_curve implicit none type ( nurbs_curve ) :: nurbs !! Declare a NURBS curve object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights real ( rk ) :: knot ( 6 ) !! Array for knot vector !----------------------------------------------------------------------------- ! Setting up the NURBS curve !----------------------------------------------------------------------------- !> Define control points for the NURBS curve allocate ( Xc ( 3 , 3 )) Xc ( 1 ,:) = [ 0.0_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 0.0_rk , 5.0_rk , 0.0_rk ] Xc ( 3 ,:) = [ 5.0_rk , 5.0_rk , 0.0_rk ] !> Define weights for the control points (optional) allocate ( Wc ( 3 )) Wc = [ 1.0_rk , 2.0_rk , 0.3_rk ] !> Define knot vector knot = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] !> Set knot vector, control points, and weights for the NURBS curve object. !> Wc is optional call nurbs % set ( knot , Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_curve_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS curve !----------------------------------------------------------------------------- !> Generate the NURBS curve with a resolution of 20 call nurbs % create ( res = 20 ) !> Export the generated curve to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_curve_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_curve_Xc.vtk' , 'vtk/nurbs_curve_Xg.vtk' ) !----------------------------------------------------------------------------- ! Refinements !----------------------------------------------------------------------------- !> Print size of the knot vector print * , size ( nurbs % get_knot ()) !> Insert knots 0.25, twice and 0.75, once call nurbs % insert_knots ([ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) !> Print size of the updated knot vector print * , size ( nurbs % get_knot ()) !> Print the degree of the curve print * , nurbs % get_degree () !> Elevate the degree of the curve (2 times) call nurbs % elevate_degree ( 2 ) !> Print the updated degree of the curve print * , nurbs % get_degree () !> Print size of the knot vector print * , size ( nurbs % get_knot ()) !> Remove knots 0.25, twice and 0.75, once call nurbs % remove_knots ([ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) !> Print size of the updated knot vector print * , size ( nurbs % get_knot ()) !> Generate the refined curve with a resolution of 20 call nurbs % create () !> Export updated control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_curve_Xc2.vtk' ) !> Export the refined generated curve to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_curve_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_curve_Xc2.vtk' , 'vtk/nurbs_curve_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Transformations !----------------------------------------------------------------------------- !> Rotate the control points call nurbs % rotate_Xc ( alpha = 4 5.0_rk , beta = 0.0_rk , theta = 9 0.0_rk ) !> Rotate the generated curve call nurbs % rotate_Xg ( alpha =- 4 5.0_rk , beta = 0.0_rk , theta =- 9 0.0_rk ) !> Translate the control points call nurbs % translate_Xc ([ 1.0_rk , 2.0_rk , - 3.0_rk ]) !> Translate the generated curve call nurbs % translate_Xg ([ - 1.0_rk , - 2.0_rk , 3.0_rk ]) !> Export the transformed control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_curve_Xc3.vtk' ) !> Export the transformed generated volume to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_curve_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_curve_Xc3.vtk' , 'vtk/nurbs_curve_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS curve object call nurbs % finalize () end program example1_curve","tags":"","loc":"sourcefile/example_curve_1.f90.html"},{"title":"demo_surface.f90 – ForCAD","text":"This file depends on sourcefile~~demo_surface.f90~~EfferentGraph sourcefile~demo_surface.f90 demo_surface.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~demo_surface.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> This program demonstrates the usage of a NURBS surface object to create, and finalize a NURBS surface. !> It sets up control points and weights, generates the surface, and exports the control points !> and the surface to VTK files at various stages. program example_nurbs_surface use forcad , only : rk , nurbs_surface implicit none type ( nurbs_surface ) :: nurbs !! Declare a NURBS surface object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights !----------------------------------------------------------------------------- ! Setting up the NURBS surface !----------------------------------------------------------------------------- !> Define control points for the NURBS surface Xc = generate_Xc ( 10 , 10 , 1.5_rk ) !> Define weights for the control points allocate ( Wc ( size ( Xc , 1 )), source = 1.0_rk ) !> Set control points and weights for the NURBS surface object call nurbs % set ([ 10 , 10 ], Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export initial control points to a VTK file call nurbs % export_Xc ( 'vtk/demo_surface_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS surface !----------------------------------------------------------------------------- !> Generate the NURBS surface with a resolution of 30x30 call nurbs % create ( res1 = 30 , res2 = 30 ) !> Export the generated surface to a VTK file call nurbs % export_Xg ( 'vtk/demo_surface_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/demo_surface_Xc.vtk' , 'vtk/demo_surface_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS surface object call nurbs % finalize () contains !----------------------------------------------------------------------------- function generate_Xc ( num_rows , num_cols , peak_height ) result ( control_points ) integer , intent ( in ) :: num_rows , num_cols real ( rk ), intent ( in ) :: peak_height real ( rk ), allocatable :: control_points (:,:) integer :: i , j real ( rk ) :: x_spacing , y_spacing , x_offset , y_offset x_spacing = 1.0_rk / real ( num_cols - 1 , rk ) y_spacing = 1.0_rk / real ( num_rows - 1 , rk ) x_offset = - 0.5_rk y_offset = - 0.5_rk allocate ( control_points ( num_rows * num_cols , 3 )) do i = 1 , num_rows do j = 1 , num_cols control_points (( i - 1 ) * num_cols + j , 1 ) = x_offset + real ( j - 1 , rk ) * x_spacing control_points (( i - 1 ) * num_cols + j , 2 ) = y_offset + real ( i - 1 , rk ) * y_spacing control_points (( i - 1 ) * num_cols + j , 3 ) = & peak_height * exp ( - (( control_points (( i - 1 ) * num_cols + j , 1 ) ** 2 ) & + ( control_points (( i - 1 ) * num_cols + j , 2 ) ** 2 ))) + 0.5_rk * peak_height * 0.2_rk end do end do end function !----------------------------------------------------------------------------- end program example_nurbs_surface","tags":"","loc":"sourcefile/demo_surface.f90.html"},{"title":"forcad.f90 – ForCAD","text":"This file depends on sourcefile~~forcad.f90~~EfferentGraph sourcefile~forcad.f90 forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Files dependent on this one sourcefile~~forcad.f90~~AfferentGraph sourcefile~forcad.f90 forcad.f90 sourcefile~demo_curve.f90 demo_curve.f90 sourcefile~demo_curve.f90->sourcefile~forcad.f90 sourcefile~demo_surface.f90 demo_surface.f90 sourcefile~demo_surface.f90->sourcefile~forcad.f90 sourcefile~demo_volume.f90 demo_volume.f90 sourcefile~demo_volume.f90->sourcefile~forcad.f90 sourcefile~example_curve_1.f90 example_curve_1.f90 sourcefile~example_curve_1.f90->sourcefile~forcad.f90 sourcefile~example_ppm1.f90 example_ppm1.f90 sourcefile~example_ppm1.f90->sourcefile~forcad.f90 sourcefile~example_ppm2.f90 example_ppm2.f90 sourcefile~example_ppm2.f90->sourcefile~forcad.f90 sourcefile~example_ppm3.f90 example_ppm3.f90 sourcefile~example_ppm3.f90->sourcefile~forcad.f90 sourcefile~example_surface_1.f90 example_surface_1.f90 sourcefile~example_surface_1.f90->sourcefile~forcad.f90 sourcefile~example_volume_1.f90 example_volume_1.f90 sourcefile~example_volume_1.f90->sourcefile~forcad.f90 sourcefile~nearest_point_1d.f90 nearest_point_1d.f90 sourcefile~nearest_point_1d.f90->sourcefile~forcad.f90 sourcefile~nearest_point_2d.f90 nearest_point_2d.f90 sourcefile~nearest_point_2d.f90->sourcefile~forcad.f90 sourcefile~nearest_point_2d_bench.f90 nearest_point_2d_bench.f90 sourcefile~nearest_point_2d_bench.f90->sourcefile~forcad.f90 sourcefile~nearest_point_3d.f90 nearest_point_3d.f90 sourcefile~nearest_point_3d.f90->sourcefile~forcad.f90 sourcefile~put_to_nurbs.f90 put_to_nurbs.f90 sourcefile~put_to_nurbs.f90->sourcefile~forcad.f90 sourcefile~shape_c_1d.f90 shape_C_1d.f90 sourcefile~shape_c_1d.f90->sourcefile~forcad.f90 sourcefile~shape_c_2d.f90 shape_C_2d.f90 sourcefile~shape_c_2d.f90->sourcefile~forcad.f90 sourcefile~shape_c_3d.f90 shape_C_3d.f90 sourcefile~shape_c_3d.f90->sourcefile~forcad.f90 sourcefile~shape_circle.f90 shape_circle.f90 sourcefile~shape_circle.f90->sourcefile~forcad.f90 sourcefile~shape_half_circle.f90 shape_half_circle.f90 sourcefile~shape_half_circle.f90->sourcefile~forcad.f90 sourcefile~shape_half_ring_2d.f90 shape_half_ring_2d.f90 sourcefile~shape_half_ring_2d.f90->sourcefile~forcad.f90 sourcefile~shape_half_ring_3d.f90 shape_half_ring_3d.f90 sourcefile~shape_half_ring_3d.f90->sourcefile~forcad.f90 sourcefile~shape_hexahedron.f90 shape_hexahedron.f90 sourcefile~shape_hexahedron.f90->sourcefile~forcad.f90 sourcefile~shape_ring_2d.f90 shape_ring_2d.f90 sourcefile~shape_ring_2d.f90->sourcefile~forcad.f90 sourcefile~shape_ring_3d.f90 shape_ring_3d.f90 sourcefile~shape_ring_3d.f90->sourcefile~forcad.f90 sourcefile~shape_tetragon.f90 shape_tetragon.f90 sourcefile~shape_tetragon.f90->sourcefile~forcad.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause module forcad use forcad_utils use forcad_nurbs_curve use forcad_nurbs_surface use forcad_nurbs_volume private public rk , nurbs_curve , nurbs_surface , nurbs_volume end module forcad","tags":"","loc":"sourcefile/forcad.f90.html"},{"title":"example_volume_1.f90 – ForCAD","text":"This file depends on sourcefile~~example_volume_1.f90~~EfferentGraph sourcefile~example_volume_1.f90 example_volume_1.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~example_volume_1.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> This program demonstrates the usage of a NURBS (Non-Uniform Rational B-Spline) volume object to create and finalize a NURBS volume. !> It sets up control points, weights, and knot vectors for all three dimensions, generates the volume, and exports the control points and the volume to VTK files. program example3_volume use forcad , only : rk , nurbs_volume implicit none type ( nurbs_volume ) :: nurbs !! Declare a NURBS volume object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights real ( rk ) :: knot1 ( 4 ), knot2 ( 4 ), knot3 ( 4 ) !! Arrays for knot vectors in all three dimensions !----------------------------------------------------------------------------- ! Setting up the NURBS volume !----------------------------------------------------------------------------- !> Define the control points for the NURBS volume Xc = generate_Xc ( 5.0_rk ) !> Define weights for the control points (optional) allocate ( Wc ( size ( Xc , 1 )), source = 1.0_rk ) Wc ( 2 ) = 5.0_rk !> Define knot vectors for all three dimensions knot1 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] knot2 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] knot3 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] !> Set knot vectors, control points, and weights for the NURBS volume object !> Wc is optional. call nurbs % set ( knot1 , knot2 , knot3 , Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export the control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_volume_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS volume !----------------------------------------------------------------------------- !> Generate the NURBS volume with resolutions of 20, 20, and 20 in the three dimensions call nurbs % create ( 20 , 20 , 20 ) !> Export the generated volume to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_volume_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_volume_Xc.vtk' , 'vtk/nurbs_volume_Xg.vtk' ) !----------------------------------------------------------------------------- ! Refinements !----------------------------------------------------------------------------- !> Print size of knot vectors print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) print * , size ( nurbs % get_knot ( 3 )) !> Insert knots 0.25 and 0.75 in all three directions call nurbs % insert_knots ( 1 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 1 call nurbs % insert_knots ( 2 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 2 call nurbs % insert_knots ( 3 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 3 !> Print size of knot vectors after inserting knots print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) print * , size ( nurbs % get_knot ( 3 )) !> Print degrees print * , nurbs % get_degree () !> Elevate degree by 2 in all three directions call nurbs % elevate_degree ( 1 , 2 ) ! direction 1 call nurbs % elevate_degree ( 2 , 2 ) ! direction 2 call nurbs % elevate_degree ( 3 , 2 ) ! direction 3 !> Print degrees after elevating print * , nurbs % get_degree () !> Print size of knot vectors print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) print * , size ( nurbs % get_knot ( 3 )) call nurbs % remove_knots ( 1 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 1 call nurbs % remove_knots ( 2 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 2 call nurbs % remove_knots ( 3 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 3 !> Print size of knot vectors after removing knots print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) print * , size ( nurbs % get_knot ( 3 )) !> Generate the refined NURBS volume with resolutions of 40, 40, and 40 in the three dimensions call nurbs % create () !> Export updated control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_volume_Xc2.vtk' ) !> Export the refined generated volume to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_volume_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_volume_Xc2.vtk' , 'vtk/nurbs_volume_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Transformations !----------------------------------------------------------------------------- !> Rotate the control points call nurbs % rotate_Xc ( alpha =- 4 5.0_rk , beta = 0.0_rk , theta = 9 0.0_rk ) !> Rotate the generated curve call nurbs % rotate_Xg ( alpha =- 4 5.0_rk , beta = 0.0_rk , theta = 9 0.0_rk ) !> Translate the control points call nurbs % translate_Xc ([ 1.0_rk , 2.0_rk , - 3.0_rk ]) !> Translate the generated curve call nurbs % translate_Xg ([ 1.0_rk , 2.0_rk , - 3.0_rk ]) !> Export the transformed control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_volume_Xc3.vtk' ) !> Export the transformed generated volume to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_volume_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_volume_Xc3.vtk' , 'vtk/nurbs_volume_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS volume object call nurbs % finalize () contains !----------------------------------------------------------------------------- function generate_Xc ( L ) result ( control_points ) implicit none real ( rk ), intent ( in ) :: L real ( rk ), allocatable :: control_points (:,:) real ( rk ) :: L2 L2 = L / 2.0_rk allocate ( control_points ( 8 , 3 )) control_points ( 1 ,:) = [ L2 , - L2 , L2 ] control_points ( 2 ,:) = [ L2 , - L2 , - L2 ] control_points ( 3 ,:) = [ - L2 , - L2 , L2 ] control_points ( 4 ,:) = [ - L2 , - L2 , - L2 ] control_points ( 5 ,:) = [ L2 , L2 , L2 ] control_points ( 6 ,:) = [ L2 , L2 , - L2 ] control_points ( 7 ,:) = [ - L2 , L2 , L2 ] control_points ( 8 ,:) = [ - L2 , L2 , - L2 ] end function !----------------------------------------------------------------------------- end program example3_volume","tags":"","loc":"sourcefile/example_volume_1.f90.html"},{"title":"shape_tetragon.f90 – ForCAD","text":"This file depends on sourcefile~~shape_tetragon.f90~~EfferentGraph sourcefile~shape_tetragon.f90 shape_tetragon.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_tetragon.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_tetragon use forcad implicit none type ( nurbs_surface ) :: shape !! Declare a NURBS surface object !----------------------------------------------------------------------------- ! Setting up the NURBS tetrangon !----------------------------------------------------------------------------- !> Set a tetragon with lengths of 2.0 and 3.0 and 3 and 4 control points in each direction !> The weights of the control points (Wc) are optional. call shape % set_tetragon ( L = [ 2.0_rk , 3.0_rk ], nc = [ 3 , 4 ]) !> Export the control points to a VTK file call shape % export_Xc ( 'vtk/shape_tetragon_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS surface !----------------------------------------------------------------------------- !> Generate the NURBS surface with resolutions of 30 in both dimensions call shape % create ( 30 , 30 ) !> Export the generated surface to a VTK file call shape % export_Xg ( 'vtk/shape_tetragon_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_tetragon_Xc.vtk' , 'vtk/shape_tetragon_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS surface object call shape % finalize () end program","tags":"","loc":"sourcefile/shape_tetragon.f90.html"},{"title":"shape_half_ring_3d.f90 – ForCAD","text":"This file depends on sourcefile~~shape_half_ring_3d.f90~~EfferentGraph sourcefile~shape_half_ring_3d.f90 shape_half_ring_3d.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_half_ring_3d.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_half_ring_3d use forcad , only : rk , nurbs_volume implicit none type ( nurbs_volume ) :: shape !> Set up a half ring centered at 0,0,0 with inner radius 1, outer radius 2, and length 1. call shape % set_half_ring ([ 0.0_rk , 0.0_rk , 0.0_rk ], 1.0_rk , 2.0_rk , 1.0_rk ) !> Export the control points to a VTK file for visualization. call shape % export_Xc ( 'vtk/shape_half_ring_3d_Xc.vtk' ) !> Create the shape using the specified number of elements in each direction. call shape % create ( 60 , 15 , 10 ) !> Export the geometry to a VTK file for visualization. call shape % export_Xg ( 'vtk/shape_half_ring_3d_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_half_ring_3d_Xc.vtk' , 'vtk/shape_half_ring_3d_Xg.vtk' ) !> Finalize and clean up the shape object. call shape % finalize () end program","tags":"","loc":"sourcefile/shape_half_ring_3d.f90.html"},{"title":"nearest_point_2d_bench.f90 – ForCAD","text":"This file depends on sourcefile~~nearest_point_2d_bench.f90~~EfferentGraph sourcefile~nearest_point_2d_bench.f90 nearest_point_2d_bench.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~nearest_point_2d_bench.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program nearest_point_2d_bench use forcad , only : rk , nurbs_surface use fortime implicit none type ( nurbs_surface ) :: shape !! Declare a NURBS surface object real ( rk ), allocatable :: nearest_Xg (:) !! Coordinates of the nearest point on the surface real ( rk ), allocatable :: nearest_Xt (:) !! Corresponding parametric coordinates of the nearest point integer :: id !! id of the nearest point real ( rk ), allocatable :: points (:,:) integer :: i , j type ( timer ) :: t !----------------------------------------------------------------------------- ! Setting up the NURBS tetrangon !----------------------------------------------------------------------------- !> Set a tetragon with lengths of 2.0 and 3.0 and 3 and 4 control points in each direction !> The weights of the control points (Wc) are optional. call shape % set_tetragon ( L = [ 2.0_rk , 3.0_rk ], nc = [ 3 , 4 ]) !----------------------------------------------------------------------------- ! Creating the NURBS surface !----------------------------------------------------------------------------- !> Generate the NURBS surface with resolutions of 30 in both dimensions call shape % create ( 100 , 100 ) !----------------------------------------------------------------------------- ! Nearest point on the surface !----------------------------------------------------------------------------- !> Find the nearest point on the surface to a given point ! nearest_Xg: Coordinates of the nearest point on the surface (optional) ! nearest_Xt: Corresponding parametric coordinates of the nearest point (optional) ! id: id of the nearest point (optional) do j = 1 , 40 allocate ( points ( j * 1000 , 3 )) print * , j * 1000 call random_number ( points ) call t % timer_start () do concurrent ( i = 1 : size ( points , 1 )) call shape % nearest_point ( points ( i ,:), nearest_Xg , nearest_Xt , id ) end do call t % timer_stop () deallocate ( points ) end do !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS surface object call shape % finalize () deallocate ( nearest_Xg , nearest_Xt ) end program","tags":"","loc":"sourcefile/nearest_point_2d_bench.f90.html"},{"title":"nearest_point_3d.f90 – ForCAD","text":"This file depends on sourcefile~~nearest_point_3d.f90~~EfferentGraph sourcefile~nearest_point_3d.f90 nearest_point_3d.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~nearest_point_3d.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program nearest_point_3d use forcad , only : rk , nurbs_volume implicit none type ( nurbs_volume ) :: shape !! Declare a NURBS volume object real ( rk ), allocatable :: nearest_Xg (:) !! Coordinates of the nearest point on the volume real ( rk ), allocatable :: nearest_Xt (:) !! Corresponding parametric coordinates of the nearest point integer :: id !! id of the nearest point !----------------------------------------------------------------------------- ! Setting up the NURBS hexahedron !----------------------------------------------------------------------------- !> Set up a hexahedron shape with dimensions L = [2.0, 4.0, 8.0] and a specified number of control points nc = [4, 6, 8]. !> The weights of the control points (Wc) are optional. call shape % set_hexahedron ( L = [ 2.0_rk , 4.0_rk , 8.0_rk ], nc = [ 4 , 6 , 8 ]) !----------------------------------------------------------------------------- ! Creating the NURBS volume !----------------------------------------------------------------------------- !> Generate the NURBS volume with resolutions of 8, 16 and 32 call shape % create ( 8 , 16 , 32 ) !----------------------------------------------------------------------------- ! Nearest point on the volume !----------------------------------------------------------------------------- !> Find the nearest point on the volume to a given point ! nearest_Xg: Coordinates of the nearest point on the volume (optional) ! nearest_Xt: Corresponding parametric coordinates of the nearest point (optional) ! id: id of the nearest point (optional) call shape % nearest_point ([ 2.0_rk , 3.0_rk , 5.0_rk ], nearest_Xg , nearest_Xt , id ) print * , 'Nearest point on the volume:' , nearest_Xg , 'with parametric coordinates:' , nearest_Xt , 'and id:' , id !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS volume object call shape % finalize () deallocate ( nearest_Xg , nearest_Xt ) end program","tags":"","loc":"sourcefile/nearest_point_3d.f90.html"},{"title":"forcad_nurbs_volume.f90 – ForCAD","text":"This file depends on sourcefile~~forcad_nurbs_volume.f90~~EfferentGraph sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Files dependent on this one sourcefile~~forcad_nurbs_volume.f90~~AfferentGraph sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~demo_curve.f90 demo_curve.f90 sourcefile~demo_curve.f90->sourcefile~forcad.f90 sourcefile~demo_surface.f90 demo_surface.f90 sourcefile~demo_surface.f90->sourcefile~forcad.f90 sourcefile~demo_volume.f90 demo_volume.f90 sourcefile~demo_volume.f90->sourcefile~forcad.f90 sourcefile~example_curve_1.f90 example_curve_1.f90 sourcefile~example_curve_1.f90->sourcefile~forcad.f90 sourcefile~example_ppm1.f90 example_ppm1.f90 sourcefile~example_ppm1.f90->sourcefile~forcad.f90 sourcefile~example_ppm2.f90 example_ppm2.f90 sourcefile~example_ppm2.f90->sourcefile~forcad.f90 sourcefile~example_ppm3.f90 example_ppm3.f90 sourcefile~example_ppm3.f90->sourcefile~forcad.f90 sourcefile~example_surface_1.f90 example_surface_1.f90 sourcefile~example_surface_1.f90->sourcefile~forcad.f90 sourcefile~example_volume_1.f90 example_volume_1.f90 sourcefile~example_volume_1.f90->sourcefile~forcad.f90 sourcefile~nearest_point_1d.f90 nearest_point_1d.f90 sourcefile~nearest_point_1d.f90->sourcefile~forcad.f90 sourcefile~nearest_point_2d.f90 nearest_point_2d.f90 sourcefile~nearest_point_2d.f90->sourcefile~forcad.f90 sourcefile~nearest_point_2d_bench.f90 nearest_point_2d_bench.f90 sourcefile~nearest_point_2d_bench.f90->sourcefile~forcad.f90 sourcefile~nearest_point_3d.f90 nearest_point_3d.f90 sourcefile~nearest_point_3d.f90->sourcefile~forcad.f90 sourcefile~put_to_nurbs.f90 put_to_nurbs.f90 sourcefile~put_to_nurbs.f90->sourcefile~forcad.f90 sourcefile~shape_c_1d.f90 shape_C_1d.f90 sourcefile~shape_c_1d.f90->sourcefile~forcad.f90 sourcefile~shape_c_2d.f90 shape_C_2d.f90 sourcefile~shape_c_2d.f90->sourcefile~forcad.f90 sourcefile~shape_c_3d.f90 shape_C_3d.f90 sourcefile~shape_c_3d.f90->sourcefile~forcad.f90 sourcefile~shape_circle.f90 shape_circle.f90 sourcefile~shape_circle.f90->sourcefile~forcad.f90 sourcefile~shape_half_circle.f90 shape_half_circle.f90 sourcefile~shape_half_circle.f90->sourcefile~forcad.f90 sourcefile~shape_half_ring_2d.f90 shape_half_ring_2d.f90 sourcefile~shape_half_ring_2d.f90->sourcefile~forcad.f90 sourcefile~shape_half_ring_3d.f90 shape_half_ring_3d.f90 sourcefile~shape_half_ring_3d.f90->sourcefile~forcad.f90 sourcefile~shape_hexahedron.f90 shape_hexahedron.f90 sourcefile~shape_hexahedron.f90->sourcefile~forcad.f90 sourcefile~shape_ring_2d.f90 shape_ring_2d.f90 sourcefile~shape_ring_2d.f90->sourcefile~forcad.f90 sourcefile~shape_ring_3d.f90 shape_ring_3d.f90 sourcefile~shape_ring_3d.f90->sourcefile~forcad.f90 sourcefile~shape_tetragon.f90 shape_tetragon.f90 sourcefile~shape_tetragon.f90->sourcefile~forcad.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> This module defines the 'nurbs_volume' type for representing a Non-Uniform Rational B-Spline (NURBS) volume. module forcad_nurbs_volume use forcad_utils , only : rk , basis_bspline , elemConn_C0 , kron , ndgrid , compute_multiplicity , compute_knot_vector , & basis_bspline_der , insert_knot_A_5_1 , findspan , elevate_degree_A_5_9 , hexahedron_Xc , remove_knots_A_5_8 , & elemConn_Cn , unique , rotation implicit none private public nurbs_volume !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause type nurbs_volume real ( rk ), allocatable , private :: Xc (:,:) !! Control points (2D array: [nc(1)*nc(2)*nc(3), dim]) real ( rk ), allocatable , private :: Xg (:,:) !! Geometry points (2D array: [ng(1)*ng(2)*ng(3), dim]) real ( rk ), allocatable , private :: Wc (:) !! Weights for the control points (1D array: [nc(1)*nc(2)*nc(3)]) real ( rk ), allocatable , private :: Xt1 (:) !! Evaluation parameter values in the first direction (1D array: [ng(1)]) real ( rk ), allocatable , private :: Xt2 (:) !! Evaluation parameter values in the second direction (1D array: [ng(2)]) real ( rk ), allocatable , private :: Xt3 (:) !! Evaluation parameter values in the third direction (1D array: [ng(3)]) real ( rk ), allocatable , private :: Xt (:,:) !! Evaluation parameter values (2D array: [ng(1)*ng(2)*ng(3), dim] real ( rk ), allocatable , private :: knot1 (:) !! Knot vector in the first direction (1D array) real ( rk ), allocatable , private :: knot2 (:) !! Knot vector in the second direction (1D array) real ( rk ), allocatable , private :: knot3 (:) !! Knot vector in the third direction (1D array) integer , private :: degree ( 3 ) !! Degree (order) of the volume integer , private :: nc ( 3 ) !! Number of control points in each direction integer , private :: ng ( 3 ) !! Number of geometry points in each direction integer , allocatable , private :: elemConn_Xc_vis (:,:) !! Connectivity for visualization of control points integer , allocatable , private :: elemConn_Xg_vis (:,:) !! Connectivity for visualization of geometry points integer , allocatable , private :: elemConn (:,:) !! IGA element connectivity contains procedure :: set1 !!> Set knot vectors, control points and weights for the NURBS volume object procedure :: set2 !!> Set NURBS volume using nodes of parameter space, degree, continuity, control points and weights procedure :: set3 !!> Set Bezier or Rational Bezier volume using control points and weights generic :: set => set1 , set2 , set3 !!> Set NURBS volume procedure :: create !!> Generate geometry points procedure , private :: get_Xc_all !!> Get all control points procedure , private :: get_Xci !!> Get i-th control point procedure , private :: get_Xcid !!> Get i-th control point in a specific direction generic :: get_Xc => get_Xc_all , get_Xci , get_Xcid !!> Get control points procedure , private :: get_Xg_all !!> Get all geometry points procedure , private :: get_Xgi !!> Get i-th geometry point procedure , private :: get_Xgid !!> Get i-th geometry point in a specific direction generic :: get_Xg => get_Xg_all , get_Xgi , get_Xgid !!> Get geometry points procedure , private :: get_Wc_all !!> Get all weights procedure , private :: get_Wci !!> Get i-th weight generic :: get_Wc => get_Wc_all , get_Wci !!> Get weights procedure :: get_Xt !!> Get parameter values procedure , private :: get_knot_all !!> Get all knot vectors procedure , private :: get_knoti !!> Get i-th knot value generic :: get_knot => get_knoti , get_knot_all !!> Get knot vector procedure :: get_ng !!> Get number of geometry points procedure :: cmp_degree !!> Compute degree of the NURBS volume procedure , private :: get_degree_all !!> Get degree of the NURBS volume in all directions procedure , private :: get_degree_dir !!> Get degree of the NURBS volume in a specific direction generic :: get_degree => get_degree_all , get_degree_dir !!> Get degree of the NURBS volume procedure :: finalize !!> Finalize the NURBS volume object procedure :: cmp_elem_Xc_vis !!> Generate connectivity for control points procedure :: cmp_elem_Xg_vis !!> Generate connectivity for geometry points procedure :: cmp_elem !!> Generate IGA element connectivity procedure :: get_elem_Xc_vis !!> Get connectivity for control points procedure :: get_elem_Xg_vis !!> Get connectivity for geometry points procedure :: get_elem !!> Get IGA element connectivity procedure :: set_elem_Xc_vis !!> Set connectivity for control points procedure :: set_elem_Xg_vis !!> Set connectivity for geometry points procedure :: set_elem !!> Set IGA element connectivity procedure :: export_Xc !!> Export control points to VTK file procedure :: export_Xg !!> Export geometry points to VTK file procedure :: modify_Xc !!> Modify control points procedure :: modify_Wc !!> Modify weights procedure :: get_multiplicity !!> Compute and return the multiplicity of the knots procedure :: get_continuity !!> Compute and return the continuity of the NURBS volume procedure :: cmp_nc !!> Compute number of required control points procedure :: derivative !!> Compute the derivative of the NURBS volume procedure :: basis !!> Compute the basis functions of the NURBS volume procedure :: insert_knots !!> Insert knots into the knot vector procedure :: elevate_degree !!> Elevate the degree of the NURBS volume procedure :: is_rational !!> Check if the NURBS volume is rational procedure :: put_to_nurbs !!> Put a shape to a NURBS volume procedure :: remove_knots !!> Remove knots from the knot vector procedure :: rotate_Xc !!> Rotate control points procedure :: rotate_Xg !!> Rotate geometry points procedure :: translate_Xc !!> Translate control points procedure :: translate_Xg !!> Translate geometry points procedure :: show !!> Show the NURBS object using PyVista procedure :: nearest_point !!> Find the nearest point on the NURBS volume ! Shapes procedure :: set_hexahedron !!> Set a hexahedron procedure :: set_ring !!> Set a ring procedure :: set_half_ring !!> Set a half ring procedure :: set_C !!> Set a C-shape end type !=============================================================================== contains !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> Set control points and weights for the NURBS volume object. pure subroutine set1 ( this , knot1 , knot2 , knot3 , Xc , Wc ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:), knot3 (:) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) if ( allocated ( this % knot1 )) deallocate ( this % knot1 ) if ( allocated ( this % knot2 )) deallocate ( this % knot2 ) if ( allocated ( this % knot3 )) deallocate ( this % knot3 ) if ( allocated ( this % Xc )) deallocate ( this % Xc ) this % knot1 = knot1 this % knot2 = knot2 this % knot3 = knot3 call this % cmp_degree () call this % cmp_nc () this % Xc = Xc if ( present ( Wc )) then if ( size ( Wc ) /= this % nc ( 1 ) * this % nc ( 2 ) * this % nc ( 3 )) then error stop 'Number of weights does not match the number of control points.' else if ( allocated ( this % Wc )) deallocate ( this % Wc ) this % Wc = Wc end if end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> Set control points and weights for the NURBS volume object. pure subroutine set2 ( this , Xth_dir1 , Xth_dir2 , Xth_dir3 , degree , continuity1 , continuity2 , continuity3 , Xc , Wc ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: Xth_dir1 (:), Xth_dir2 (:), Xth_dir3 (:) integer , intent ( in ), contiguous :: degree (:) integer , intent ( in ), contiguous :: continuity1 (:), continuity2 (:), continuity3 (:) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) this % knot1 = compute_knot_vector ( Xth_dir1 , degree ( 1 ), continuity1 ) this % knot2 = compute_knot_vector ( Xth_dir2 , degree ( 2 ), continuity2 ) this % knot3 = compute_knot_vector ( Xth_dir3 , degree ( 3 ), continuity3 ) this % degree ( 1 ) = degree ( 1 ) this % degree ( 2 ) = degree ( 2 ) this % degree ( 3 ) = degree ( 3 ) call this % cmp_nc () this % Xc = Xc if ( present ( Wc )) this % Wc = Wc end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> Set Bezier or Rational Bezier volume using control points and weights. pure subroutine set3 ( this , nc , Xc , Wc ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ), contiguous :: nc (:) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) if ( allocated ( this % Xc )) deallocate ( this % Xc ) this % Xc = Xc this % nc = nc if ( allocated ( this % knot1 )) deallocate ( this % knot1 ) allocate ( this % knot1 ( 2 * this % nc ( 1 ))) this % knot1 ( 1 : this % nc ( 1 )) = 0.0_rk this % knot1 ( this % nc ( 1 ) + 1 : 2 * this % nc ( 1 )) = 1.0_rk if ( allocated ( this % knot2 )) deallocate ( this % knot2 ) allocate ( this % knot2 ( 2 * this % nc ( 2 ))) this % knot2 ( 1 : this % nc ( 2 )) = 0.0_rk this % knot2 ( this % nc ( 2 ) + 1 : 2 * this % nc ( 2 )) = 1.0_rk if ( allocated ( this % knot3 )) deallocate ( this % knot3 ) allocate ( this % knot3 ( 2 * this % nc ( 3 ))) this % knot3 ( 1 : this % nc ( 3 )) = 0.0_rk this % knot3 ( this % nc ( 3 ) + 1 : 2 * this % nc ( 3 )) = 1.0_rk call this % cmp_degree () if ( present ( Wc )) then if ( size ( Wc ) /= this % nc ( 1 ) * this % nc ( 2 ) * this % nc ( 3 )) then error stop 'Number of weights does not match the number of control points.' else if ( allocated ( this % Wc )) deallocate ( this % Wc ) this % Wc = Wc end if end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine create ( this , res1 , res2 , res3 , Xt1 , Xt2 , Xt3 , Xt ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ), optional :: res1 , res2 , res3 real ( rk ), intent ( in ), contiguous , optional :: Xt1 (:), Xt2 (:), Xt3 (:) real ( rk ), intent ( in ), contiguous , optional :: Xt (:,:) integer :: i interface pure function compute_Xg_nurbs_3d ( f_Xt , f_knot1 , f_knot2 , f_knot3 , f_degree , f_nc , f_ng , f_Xc , f_Wc ) result ( f_Xg ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:), f_knot3 (:) integer , intent ( in ) :: f_degree ( 3 ) integer , intent ( in ) :: f_nc ( 3 ) integer , intent ( in ) :: f_ng ( 3 ) real ( rk ), intent ( in ), contiguous :: f_Xc (:,:) real ( rk ), intent ( in ), contiguous :: f_Wc (:) real ( rk ), allocatable :: f_Xg (:,:) end function end interface interface pure function compute_Xg_bspline_3d ( f_Xt , f_knot1 , f_knot2 , f_knot3 , f_degree , f_nc , f_ng , f_Xc ) result ( f_Xg ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:), f_knot3 (:) integer , intent ( in ) :: f_degree ( 3 ) integer , intent ( in ) :: f_nc ( 3 ) integer , intent ( in ) :: f_ng ( 3 ) real ( rk ), intent ( in ), contiguous :: f_Xc (:,:) real ( rk ), allocatable :: f_Xg (:,:) end function end interface ! check if (. not . allocated ( this % Xc )) then error stop 'Control points are not set.' end if if (. not . allocated ( this % knot1 ) . or . . not . allocated ( this % knot2 ) . or . . not . allocated ( this % knot3 )) then error stop 'Knot vector(s) is/are not set.' end if ! Set parameter values if ( present ( Xt1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) this % Xt1 = Xt1 elseif ( present ( res1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) allocate ( this % Xt1 ( res1 )) this % Xt1 = [( real ( i - 1 , rk ) / real ( res1 - 1 , rk ), i = 1 , res1 )] ! else ! this%Xt1 = this%Xt1 end if ! Set parameter values if ( present ( Xt2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) this % Xt2 = Xt2 elseif ( present ( res2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) allocate ( this % Xt2 ( res2 )) this % Xt2 = [( real ( i - 1 , rk ) / real ( res2 - 1 , rk ), i = 1 , res2 )] ! else ! this%Xt2 = this%Xt2 end if ! Set parameter values if ( present ( Xt3 )) then if ( allocated ( this % Xt3 )) deallocate ( this % Xt3 ) this % Xt3 = Xt3 elseif ( present ( res3 )) then if ( allocated ( this % Xt3 )) deallocate ( this % Xt3 ) allocate ( this % Xt3 ( res3 )) this % Xt3 = [( real ( i - 1 , rk ) / real ( res3 - 1 , rk ), i = 1 , res3 )] ! else ! this%Xt3 = this%Xt3 end if if ( present ( Xt )) then this % Xt = Xt else ! Set number of geometry points this % ng ( 1 ) = size ( this % Xt1 , 1 ) this % ng ( 2 ) = size ( this % Xt2 , 1 ) this % ng ( 3 ) = size ( this % Xt3 , 1 ) call ndgrid ( this % Xt1 , this % Xt2 , this % Xt3 , this % Xt ) end if if ( allocated ( this % Xg )) deallocate ( this % Xg ) allocate ( this % Xg ( this % ng ( 1 ) * this % ng ( 2 ) * this % ng ( 3 ), size ( this % Xc , 2 ))) if ( allocated ( this % Wc )) then ! NURBS volume this % Xg = compute_Xg_nurbs_3d (& this % Xt , this % knot1 , this % knot2 , this % knot3 , this % degree , this % nc , this % ng , this % Xc , this % Wc ) else this % Xg = compute_Xg_bspline_3d (& this % Xt , this % knot1 , this % knot2 , this % knot3 , this % degree , this % nc , this % ng , this % Xc ) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xc_all ( this ) result ( Xc ) class ( nurbs_volume ), intent ( in ) :: this real ( rk ), allocatable :: Xc (:,:) if ( allocated ( this % Xc )) then Xc = this % Xc else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xci ( this , n ) result ( Xc ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: n real ( rk ), allocatable :: Xc (:) if ( allocated ( this % Xc )) then if ( n < lbound ( this % Xc , 1 ) . or . n > ubound ( this % Xc , 1 )) then error stop 'Invalid index for control points.' end if Xc = this % Xc ( n ,:) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xcid ( this , n , dir ) result ( Xc ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: n integer , intent ( in ) :: dir real ( rk ) :: Xc if ( allocated ( this % Xc )) then if ( n < lbound ( this % Xc , 1 ) . or . n > ubound ( this % Xc , 1 )) then error stop 'Invalid index for control points.' end if if ( dir < lbound ( this % Xc , 2 ) . or . dir > ubound ( this % Xc , 2 )) then error stop 'Invalid direction for control points.' end if Xc = this % Xc ( n , dir ) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xg_all ( this ) result ( Xg ) class ( nurbs_volume ), intent ( in ) :: this real ( rk ), allocatable :: Xg (:,:) if ( allocated ( this % Xg )) then Xg = this % Xg else error stop 'Geometry points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xgi ( this , n ) result ( Xg ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: n real ( rk ), allocatable :: Xg (:) if ( allocated ( this % Xg )) then if ( n < lbound ( this % Xg , 1 ) . or . n > ubound ( this % Xg , 1 )) then error stop 'Invalid index for geometry points.' end if Xg = this % Xg ( n ,:) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xgid ( this , n , dir ) result ( Xg ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: n integer , intent ( in ) :: dir real ( rk ) :: Xg if ( allocated ( this % Xg )) then if ( n < lbound ( this % Xg , 1 ) . or . n > ubound ( this % Xg , 1 )) then error stop 'Invalid index for geometry points.' end if if ( dir < lbound ( this % Xg , 2 ) . or . dir > ubound ( this % Xg , 2 )) then error stop 'Invalid direction for geometry points.' end if Xg = this % Xg ( n , dir ) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Wc_all ( this ) result ( Wc ) class ( nurbs_volume ), intent ( in ) :: this real ( rk ), allocatable :: Wc (:) if ( allocated ( this % Wc )) then Wc = this % Wc else error stop 'The NURBS volume is not rational or weights are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Wci ( this , n ) result ( Wc ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: n real ( rk ) :: Wc if ( allocated ( this % Wc )) then if ( n < lbound ( this % Wc , 1 ) . or . n > ubound ( this % Wc , 1 )) then error stop 'Invalid index for weights.' end if Wc = this % Wc ( n ) else error stop 'The NURBS volume is not rational or weights are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xt ( this , dir ) result ( Xt ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: dir real ( rk ), allocatable :: Xt (:) if ( dir == 1 ) then if ( allocated ( this % Xt1 )) then Xt = this % Xt1 else error stop 'Parameter values are not set.' end if elseif ( dir == 2 ) then if ( allocated ( this % Xt2 )) then Xt = this % Xt2 else error stop 'Parameter values are not set.' end if elseif ( dir == 3 ) then if ( allocated ( this % Xt3 )) then Xt = this % Xt3 else error stop 'Parameter values are not set.' end if else error stop 'Invalid direction for parameter values.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_ng ( this ) result ( ng ) class ( nurbs_volume ), intent ( in ) :: this integer :: ng ( 3 ) ng = this % ng end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine cmp_degree ( this , dir ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ), optional :: dir integer , allocatable :: m1 (:), m2 (:), m3 (:) if ( present ( dir )) then if ( dir == 1 ) then m1 = this % get_multiplicity ( 1 ) this % degree ( 1 ) = m1 ( 1 ) - 1 else if ( dir == 2 ) then m2 = this % get_multiplicity ( 2 ) this % degree ( 2 ) = m2 ( 1 ) - 1 else if ( dir == 3 ) then m3 = this % get_multiplicity ( 3 ) this % degree ( 3 ) = m3 ( 1 ) - 1 else error stop 'Invalid direction for degree.' end if else m1 = this % get_multiplicity ( 1 ) this % degree ( 1 ) = m1 ( 1 ) - 1 m2 = this % get_multiplicity ( 2 ) this % degree ( 2 ) = m2 ( 1 ) - 1 m3 = this % get_multiplicity ( 3 ) this % degree ( 3 ) = m3 ( 1 ) - 1 end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_degree_all ( this ) result ( degree ) class ( nurbs_volume ), intent ( in ) :: this integer :: degree ( 3 ) degree ( 1 ) = this % degree ( 1 ) degree ( 2 ) = this % degree ( 2 ) degree ( 3 ) = this % degree ( 3 ) end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_degree_dir ( this , dir ) result ( degree ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: dir integer :: degree if ( dir == 1 ) then degree = this % degree ( 1 ) else if ( dir == 2 ) then degree = this % degree ( 2 ) else if ( dir == 3 ) then degree = this % degree ( 3 ) else error stop 'Invalid direction for degree.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_knot_all ( this , dir ) result ( knot ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: dir real ( rk ), allocatable :: knot (:) if ( dir == 1 ) then if ( allocated ( this % knot1 )) then knot = this % knot1 else error stop 'Knot vector is not set.' end if elseif ( dir == 2 ) then if ( allocated ( this % knot2 )) then knot = this % knot2 else error stop 'Knot vector is not set.' end if elseif ( dir == 3 ) then if ( allocated ( this % knot3 )) then knot = this % knot3 else error stop 'Knot vector is not set.' end if else error stop 'Invalid direction for knot vector.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_knoti ( this , dir , i ) result ( knot ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: dir integer , intent ( in ) :: i real ( rk ) :: knot if ( dir == 1 ) then if ( allocated ( this % knot1 )) then if ( i < 1 . or . i > size ( this % knot1 )) then error stop 'Invalid index for knot vector.' else knot = this % knot1 ( i ) end if else error stop 'Knot vector is not set.' end if elseif ( dir == 2 ) then if ( allocated ( this % knot2 )) then if ( i < 1 . or . i > size ( this % knot2 )) then error stop 'Invalid index for knot vector.' else knot = this % knot2 ( i ) end if else error stop 'Knot vector is not set.' end if elseif ( dir == 3 ) then if ( allocated ( this % knot3 )) then if ( i < 1 . or . i > size ( this % knot3 )) then error stop 'Invalid index for knot vector.' else knot = this % knot3 ( i ) end if else error stop 'Knot vector is not set.' end if else error stop 'Invalid direction for knot vector.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine finalize ( this ) class ( nurbs_volume ), intent ( inout ) :: this if ( allocated ( this % Xc )) deallocate ( this % Xc ) if ( allocated ( this % Xg )) deallocate ( this % Xg ) if ( allocated ( this % Wc )) deallocate ( this % Wc ) if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) if ( allocated ( this % Xt3 )) deallocate ( this % Xt3 ) if ( allocated ( this % Xt )) deallocate ( this % Xt ) if ( allocated ( this % knot1 )) deallocate ( this % knot1 ) if ( allocated ( this % knot2 )) deallocate ( this % knot2 ) if ( allocated ( this % knot3 )) deallocate ( this % knot3 ) if ( allocated ( this % elemConn_Xc_vis )) deallocate ( this % elemConn_Xc_vis ) if ( allocated ( this % elemConn_Xg_vis )) deallocate ( this % elemConn_Xg_vis ) if ( allocated ( this % elemConn )) deallocate ( this % elemConn ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elem_Xc_vis ( this , p ) result ( elemConn ) class ( nurbs_volume ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) integer , intent ( in ), contiguous , optional :: p (:) if ( present ( p )) then elemConn = elemConn_C0 ( this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), p ( 1 ), p ( 2 ), p ( 3 )) else elemConn = elemConn_C0 ( this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), 1 , 1 , 1 ) end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elem_Xg_vis ( this , p ) result ( elemConn ) class ( nurbs_volume ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) integer , intent ( in ), contiguous , optional :: p (:) if ( present ( p )) then elemConn = elemConn_C0 ( this % ng ( 1 ), this % ng ( 2 ), this % ng ( 3 ), p ( 1 ), p ( 2 ), p ( 3 )) else elemConn = elemConn_C0 ( this % ng ( 1 ), this % ng ( 2 ), this % ng ( 3 ), 1 , 1 , 1 ) end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure subroutine export_Xc ( this , filename ) class ( nurbs_volume ), intent ( in ) :: this character ( len =* ), intent ( in ) :: filename integer :: i , nc , nunit integer , allocatable :: elemConn (:,:) ! check if (. not . allocated ( this % Xc )) then error stop 'Control points are not set.' end if if (. not . allocated ( this % elemConn_Xc_vis )) then elemConn = this % cmp_elem_Xc_vis () else elemConn = this % elemConn_Xc_vis end if nc = size ( this % Xc , 1 ) open ( newunit = nunit , file = filename , action = 'write' ) write ( nunit , '(a)' ) '# vtk DataFile Version 2.0' write ( nunit , '(a)' ) 'Generated by ForCAD' write ( nunit , '(a)' ) 'ASCII' write ( nunit , '(a)' ) 'DATASET UNSTRUCTURED_GRID' write ( nunit , '(a,\" \",g0,\" \",a)' ) 'POINTS' , nc , 'double' if ( size ( this % Xc , 2 ) == 2 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xc ( i , 1 ), this % Xc ( i , 2 ), 0.0_rk , i = 1 , nc ) elseif ( size ( this % Xc , 2 ) == 3 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xc ( i , 1 ), this % Xc ( i , 2 ), this % Xc ( i , 3 ) , i = 1 , nc ) else error stop 'Invalid dimension for control points.' end if write ( nunit , '(a,\" \",g0,\" \",g0)' ) 'CELLS' , size ( elemConn , 1 ), size ( elemConn , 1 ) * ( size ( elemConn , 2 ) + 1 ) write ( nunit , '(g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0)' )& ( 8 , elemConn ( i , 1 ) - 1 , elemConn ( i , 2 ) - 1 , elemConn ( i , 4 ) - 1 , elemConn ( i , 3 ) - 1 ,& elemConn ( i , 5 ) - 1 , elemConn ( i , 6 ) - 1 , elemConn ( i , 8 ) - 1 , elemConn ( i , 7 ) - 1 , i = 1 , size ( elemConn , 1 )) write ( nunit , '(a,\" \",g0)' ) 'CELL_TYPES' , size ( elemConn , 1 ) write ( nunit , '(g0)' ) ( 12 , i = 1 , size ( elemConn , 1 )) close ( nunit ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure subroutine export_Xg ( this , filename ) class ( nurbs_volume ), intent ( in ) :: this character ( len =* ), intent ( in ) :: filename integer :: i , ng , nunit integer , allocatable :: elemConn (:,:) ! check if (. not . allocated ( this % Xg )) then error stop 'Geometry points are not set.' end if if (. not . allocated ( this % elemConn_Xg_vis )) then elemConn = this % cmp_elem_Xg_vis () else elemConn = this % elemConn_Xg_vis end if ng = size ( this % Xg , 1 ) open ( newunit = nunit , file = filename , action = 'write' ) write ( nunit , '(a)' ) '# vtk DataFile Version 2.0' write ( nunit , '(a)' ) 'Generated by ForCAD' write ( nunit , '(a)' ) 'ASCII' write ( nunit , '(a)' ) 'DATASET UNSTRUCTURED_GRID' write ( nunit , '(a,\" \",g0,\" \",a)' ) 'POINTS' , ng , 'double' if ( size ( this % Xg , 2 ) == 2 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xg ( i , 1 ), this % Xg ( i , 2 ), 0.0_rk , i = 1 , ng ) elseif ( size ( this % Xg , 2 ) == 3 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xg ( i , 1 ), this % Xg ( i , 2 ), this % Xg ( i , 3 ) , i = 1 , ng ) else error stop 'Invalid dimension for geometry points.' end if write ( nunit , '(a,\" \",g0,\" \",g0)' ) 'CELLS' , size ( elemConn , 1 ), size ( elemConn , 1 ) * ( size ( elemConn , 2 ) + 1 ) write ( nunit , '(g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0)' )& ( 8 , elemConn ( i , 1 ) - 1 , elemConn ( i , 2 ) - 1 , elemConn ( i , 4 ) - 1 , elemConn ( i , 3 ) - 1 ,& elemConn ( i , 5 ) - 1 , elemConn ( i , 6 ) - 1 , elemConn ( i , 8 ) - 1 , elemConn ( i , 7 ) - 1 , i = 1 , size ( elemConn , 1 )) write ( nunit , '(a,\" \",g0)' ) 'CELL_TYPES' , size ( elemConn , 1 ) write ( nunit , '(g0)' ) ( 12 , i = 1 , size ( elemConn , 1 )) close ( nunit ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine modify_Xc ( this , X , num , dir ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ) :: X integer , intent ( in ) :: num integer , intent ( in ) :: dir if ( allocated ( this % Xc )) then this % Xc ( num , dir ) = X if ( allocated ( this % Wc )) then call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), knot3 = this % get_knot ( 3 ),& Xc = this % get_Xc (), Wc = this % get_Wc ()) else call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), knot3 = this % get_knot ( 3 ),& Xc = this % get_Xc ()) end if else error stop 'Control points are not set.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine modify_Wc ( this , W , num ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ) :: W integer , intent ( in ) :: num if ( allocated ( this % Wc )) then this % Wc ( num ) = W if ( allocated ( this % knot1 ) . and . allocated ( this % knot2 ) . and . allocated ( this % knot3 )) then call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), knot3 = this % get_knot ( 3 ),& Xc = this % get_Xc (), Wc = this % get_Wc ()) else call this % set ( nc = this % nc , Xc = this % get_Xc (), Wc = this % get_Wc ()) end if else error stop 'The NURBS volume is not rational.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_multiplicity ( this , dir ) result ( m ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: dir integer , allocatable :: m (:) if ( dir == 1 ) then ! check if (. not . allocated ( this % knot1 )) then error stop 'Knot vector is not set.' else m = compute_multiplicity ( this % knot1 ) end if elseif ( dir == 2 ) then ! check if (. not . allocated ( this % knot2 )) then error stop 'Knot vector is not set.' else m = compute_multiplicity ( this % knot2 ) end if elseif ( dir == 3 ) then ! check if (. not . allocated ( this % knot3 )) then error stop 'Knot vector is not set.' else m = compute_multiplicity ( this % knot3 ) end if else error stop 'Invalid direction.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_continuity ( this , dir ) result ( c ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: dir integer , allocatable :: c (:) if ( dir == 1 ) then ! check if (. not . allocated ( this % knot1 )) then error stop 'Knot vector is not set.' else c = this % degree ( 1 ) - compute_multiplicity ( this % knot1 ) end if elseif ( dir == 2 ) then ! check if (. not . allocated ( this % knot2 )) then error stop 'Knot vector is not set.' else c = this % degree ( 2 ) - compute_multiplicity ( this % knot2 ) end if elseif ( dir == 3 ) then ! check if (. not . allocated ( this % knot3 )) then error stop 'Knot vector is not set.' else c = this % degree ( 3 ) - compute_multiplicity ( this % knot3 ) end if else error stop 'Invalid direction.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine cmp_nc ( this , dir ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ), optional :: dir if ( present ( dir )) then if ( dir == 1 ) then ! check if (. not . allocated ( this % knot1 )) then error stop 'Knot vector is not set.' else this % nc ( 1 ) = sum ( compute_multiplicity ( this % knot1 )) - this % degree ( 1 ) - 1 end if elseif ( dir == 2 ) then ! check if (. not . allocated ( this % knot2 )) then error stop 'Knot vector is not set.' else this % nc ( 2 ) = sum ( compute_multiplicity ( this % knot2 )) - this % degree ( 2 ) - 1 end if elseif ( dir == 3 ) then ! check if (. not . allocated ( this % knot3 )) then error stop 'Knot vector is not set.' else this % nc ( 3 ) = sum ( compute_multiplicity ( this % knot3 )) - this % degree ( 3 ) - 1 end if else error stop 'Invalid direction.' end if else ! check if (. not . allocated ( this % knot1 )) then error stop 'Knot vector is not set.' else this % nc ( 1 ) = sum ( compute_multiplicity ( this % knot1 )) - this % degree ( 1 ) - 1 end if ! check if (. not . allocated ( this % knot2 )) then error stop 'Knot vector is not set.' else this % nc ( 2 ) = sum ( compute_multiplicity ( this % knot2 )) - this % degree ( 2 ) - 1 end if ! check if (. not . allocated ( this % knot3 )) then error stop 'Knot vector is not set.' else this % nc ( 3 ) = sum ( compute_multiplicity ( this % knot3 )) - this % degree ( 3 ) - 1 end if end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_nc ( this , dir ) result ( nc ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: dir integer :: nc if ( dir == 1 ) then ! check if (. not . allocated ( this % knot1 )) then error stop 'Knot vector is not set.' else nc = sum ( compute_multiplicity ( this % knot1 )) - this % degree ( 1 ) - 1 end if elseif ( dir == 2 ) then ! check if (. not . allocated ( this % knot2 )) then error stop 'Knot vector is not set.' else nc = sum ( compute_multiplicity ( this % knot2 )) - this % degree ( 2 ) - 1 end if elseif ( dir == 3 ) then ! check if (. not . allocated ( this % knot3 )) then error stop 'Knot vector is not set.' else nc = sum ( compute_multiplicity ( this % knot3 )) - this % degree ( 3 ) - 1 end if else error stop 'Invalid direction.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine derivative ( this , res1 , res2 , res3 , Xt1 , Xt2 , Xt3 , dTgc ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ), optional :: res1 , res2 , res3 real ( rk ), intent ( in ), contiguous , optional :: Xt1 (:), Xt2 (:), Xt3 (:) real ( rk ), allocatable , intent ( out ) :: dTgc (:,:) integer :: i real ( rk ), allocatable :: Xt (:,:) interface pure function compute_dTgc_nurbs_3d ( f_Xt , f_knot1 , f_knot2 , f_knot3 , f_degree , f_nc , f_ng , f_Wc ) result ( f_dTgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:), f_knot3 (:) integer , intent ( in ) :: f_degree ( 3 ) integer , intent ( in ) :: f_nc ( 3 ) integer , intent ( in ) :: f_ng ( 3 ) real ( rk ), intent ( in ), contiguous :: f_Wc (:) real ( rk ), allocatable :: f_dTgc (:,:) end function end interface interface pure function compute_dTgc_bspline_3d ( f_Xt , f_knot1 , f_knot2 , f_knot3 , f_degree , f_nc , f_ng ) result ( f_dTgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:), f_knot3 (:) integer , intent ( in ) :: f_degree ( 3 ) integer , intent ( in ) :: f_nc ( 3 ) integer , intent ( in ) :: f_ng ( 3 ) real ( rk ), allocatable :: f_dTgc (:,:) end function end interface ! Set parameter values if ( present ( Xt1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) this % Xt1 = Xt1 elseif ( present ( res1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) allocate ( this % Xt1 ( res1 )) this % Xt1 = [( real ( i - 1 , rk ) / real ( res1 - 1 , rk ), i = 1 , res1 )] ! else ! this%Xt1 = this%Xt1 end if ! Set parameter values if ( present ( Xt2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) this % Xt2 = Xt2 elseif ( present ( res2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) allocate ( this % Xt2 ( res2 )) this % Xt2 = [( real ( i - 1 , rk ) / real ( res2 - 1 , rk ), i = 1 , res2 )] ! else ! this%Xt2 = this%Xt2 end if ! Set parameter values if ( present ( Xt3 )) then if ( allocated ( this % Xt3 )) deallocate ( this % Xt3 ) this % Xt3 = Xt3 elseif ( present ( res3 )) then if ( allocated ( this % Xt3 )) deallocate ( this % Xt3 ) allocate ( this % Xt3 ( res3 )) this % Xt3 = [( real ( i - 1 , rk ) / real ( res3 - 1 , rk ), i = 1 , res3 )] ! else ! this%Xt3 = this%Xt3 end if ! Set number of geometry points this % ng ( 1 ) = size ( this % Xt1 , 1 ) this % ng ( 2 ) = size ( this % Xt2 , 1 ) this % ng ( 3 ) = size ( this % Xt3 , 1 ) call ndgrid ( this % Xt1 , this % Xt2 , this % Xt3 , Xt ) if ( this % is_rational ()) then ! NURBS dTgc = compute_dTgc_nurbs_3d ( Xt , this % knot1 , this % knot2 , this % knot3 , this % degree , this % nc , this % ng , this % Wc ) else dTgc = compute_dTgc_bspline_3d ( Xt , this % knot1 , this % knot2 , this % knot3 , this % degree , this % nc , this % ng ) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine basis ( this , res1 , res2 , res3 , Xt1 , Xt2 , Xt3 , Tgc ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ), optional :: res1 , res2 , res3 real ( rk ), intent ( in ), contiguous , optional :: Xt1 (:), Xt2 (:), Xt3 (:) real ( rk ), allocatable , intent ( out ) :: Tgc (:,:) integer :: i real ( rk ), allocatable :: Xt (:,:) interface pure function compute_Tgc_nurbs_3d ( f_Xt , f_knot1 , f_knot2 , f_knot3 , f_degree , f_nc , f_ng , f_Wc ) result ( f_Tgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:), f_knot3 (:) integer , intent ( in ) :: f_degree ( 3 ) integer , intent ( in ) :: f_nc ( 3 ) integer , intent ( in ) :: f_ng ( 3 ) real ( rk ), intent ( in ), contiguous :: f_Wc (:) real ( rk ), allocatable :: f_Tgc (:,:) end function end interface interface pure function compute_Tgc_bspline_3d ( f_Xt , f_knot1 , f_knot2 , f_knot3 , f_degree , f_nc , f_ng ) result ( f_Tgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:), f_knot3 (:) integer , intent ( in ) :: f_degree ( 3 ) integer , intent ( in ) :: f_nc ( 3 ) integer , intent ( in ) :: f_ng ( 3 ) real ( rk ), allocatable :: f_Tgc (:,:) end function end interface ! Set parameter values if ( present ( Xt1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) this % Xt1 = Xt1 elseif ( present ( res1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) allocate ( this % Xt1 ( res1 )) this % Xt1 = [( real ( i - 1 , rk ) / real ( res1 - 1 , rk ), i = 1 , res1 )] ! else ! this%Xt1 = this%Xt1 end if ! Set parameter values if ( present ( Xt2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) this % Xt2 = Xt2 elseif ( present ( res2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) allocate ( this % Xt2 ( res2 )) this % Xt2 = [( real ( i - 1 , rk ) / real ( res2 - 1 , rk ), i = 1 , res2 )] ! else ! this%Xt2 = this%Xt2 end if ! Set parameter values if ( present ( Xt3 )) then if ( allocated ( this % Xt3 )) deallocate ( this % Xt3 ) this % Xt3 = Xt3 elseif ( present ( res3 )) then if ( allocated ( this % Xt3 )) deallocate ( this % Xt3 ) allocate ( this % Xt3 ( res3 )) this % Xt3 = [( real ( i - 1 , rk ) / real ( res3 - 1 , rk ), i = 1 , res3 )] ! else ! this%Xt3 = this%Xt3 end if ! Set number of geometry points this % ng ( 1 ) = size ( this % Xt1 , 1 ) this % ng ( 2 ) = size ( this % Xt2 , 1 ) this % ng ( 3 ) = size ( this % Xt3 , 1 ) call ndgrid ( this % Xt1 , this % Xt2 , this % Xt3 , Xt ) if ( allocated ( this % Wc )) then ! NURBS volume Tgc = compute_Tgc_nurbs_3d ( Xt , this % knot1 , this % knot2 , this % knot3 , this % degree , this % nc , this % ng , this % Wc ) else Tgc = compute_Tgc_bspline_3d ( Xt , this % knot1 , this % knot2 , this % knot3 , this % degree , this % nc , this % ng ) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine insert_knots ( this , dir , Xth , r ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ) :: dir real ( rk ), intent ( in ), contiguous :: Xth (:) integer , intent ( in ), contiguous :: r (:) integer :: k , i , s , dim , j , n_new real ( rk ), allocatable :: Xc (:,:), Xcw (:,:), Xcw_new (:,:), Xc_new (:,:), Wc_new (:), knot_new (:) real ( rk ), allocatable :: Xc4 (:,:,:,:) if ( dir == 1 ) then ! direction 1 if ( allocated ( this % Wc )) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc ( 1 ) - 1 , this % degree ( 1 ), Xth ( i ), this % knot1 ) if ( this % knot1 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot1 , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xcw = reshape ( Xcw ,[ this % nc ( 1 ), this % nc ( 2 ) * this % nc ( 3 ) * ( dim + 1 )]) call insert_knot_A_5_1 (& this % degree ( 1 ),& this % knot1 ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xcw_new ) Xcw_new = reshape ( Xcw_new ,[( n_new + 1 ) * this % nc ( 2 ) * this % nc ( 3 ), dim + 1 ]) allocate ( Xc_new ( 1 :( n_new + 1 ) * this % nc ( 2 ) * this % nc ( 3 ), 1 : dim )) allocate ( Wc_new ( 1 :( n_new + 1 ) * this % nc ( 2 ) * this % nc ( 3 ))) do j = 1 , ( n_new + 1 ) * this % nc ( 2 ) * this % nc ( 3 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), knot3 = this % get_knot ( 3 ), Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc ( 1 ) - 1 , this % degree ( 1 ), Xth ( i ), this % knot1 ) if ( this % knot1 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot1 , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) Xc = reshape ( this % Xc ,[ this % nc ( 1 ), this % nc ( 2 ) * this % nc ( 3 ) * dim ]) call insert_knot_A_5_1 (& this % degree ( 1 ),& this % knot1 ,& Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xc_new ) Xc_new = reshape ( Xc_new ,[( n_new + 1 ) * this % nc ( 2 ) * this % nc ( 3 ), dim ]) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), knot3 = this % get_knot ( 3 ), Xc = Xc_new ) end do end if elseif ( dir == 2 ) then ! direction 2 if ( allocated ( this % Wc )) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc ( 2 ) - 1 , this % degree ( 2 ), Xth ( i ), this % knot2 ) if ( this % knot2 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot2 , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xc4 = reshape ( Xcw , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 2 ), this % nc ( 1 ), this % nc ( 3 ), dim + 1 ], order = [ 2 , 1 , 3 , 4 ]) Xcw = reshape ( Xc4 ,[ this % nc ( 2 ), this % nc ( 1 ) * this % nc ( 3 ) * ( dim + 1 )]) call insert_knot_A_5_1 (& this % degree ( 2 ),& this % knot2 ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xcw_new ) Xc4 = reshape ( Xcw_new , [ n_new + 1 , this % nc ( 1 ), this % nc ( 3 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), n_new + 1 , this % nc ( 3 ), dim + 1 ], order = [ 2 , 1 , 3 , 4 ]) Xcw_new = reshape ( Xc4 ,[ this % nc ( 1 ) * ( n_new + 1 ) * this % nc ( 3 ), dim + 1 ]) allocate ( Xc_new ( 1 : this % nc ( 1 ) * ( n_new + 1 ) * this % nc ( 3 ), 1 : dim )) allocate ( Wc_new ( 1 : this % nc ( 1 ) * ( n_new + 1 ) * this % nc ( 3 ))) do j = 1 , this % nc ( 1 ) * ( n_new + 1 ) * this % nc ( 3 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , knot3 = this % get_knot ( 3 ), Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc ( 2 ) - 1 , this % degree ( 2 ), Xth ( i ), this % knot2 ) if ( this % knot2 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot2 , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) Xc4 = reshape ( this % Xc , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 2 ), this % nc ( 1 ), this % nc ( 3 ), dim ], order = [ 2 , 1 , 3 , 4 ]) Xc = reshape ( Xc4 ,[ this % nc ( 2 ), this % nc ( 1 ) * this % nc ( 3 ) * dim ]) call insert_knot_A_5_1 (& this % degree ( 2 ),& this % knot2 ,& Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xc_new ) Xc4 = reshape ( Xc_new , [ n_new + 1 , this % nc ( 1 ), this % nc ( 3 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), n_new + 1 , this % nc ( 3 ), dim ], order = [ 2 , 1 , 3 , 4 ]) Xc_new = reshape ( Xc4 ,[ this % nc ( 1 ) * ( n_new + 1 ) * this % nc ( 3 ), dim ]) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , knot3 = this % get_knot ( 3 ), Xc = Xc_new ) end do end if elseif ( dir == 3 ) then ! direction 3 if ( allocated ( this % Wc )) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc ( 3 ) - 1 , this % degree ( 3 ), Xth ( i ), this % knot3 ) if ( this % knot3 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot3 , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xc4 = reshape ( Xcw , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 3 ), this % nc ( 2 ), this % nc ( 1 ), dim + 1 ], order = [ 3 , 2 , 1 , 4 ]) Xcw = reshape ( Xc4 ,[ this % nc ( 3 ), this % nc ( 2 ) * this % nc ( 1 ) * ( dim + 1 )]) call insert_knot_A_5_1 (& this % degree ( 3 ),& this % knot3 ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xcw_new ) Xc4 = reshape ( Xcw_new , [ n_new + 1 , this % nc ( 2 ), this % nc ( 1 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), this % nc ( 2 ), n_new + 1 , dim + 1 ], order = [ 3 , 2 , 1 , 4 ]) Xcw_new = reshape ( Xc4 ,[ this % nc ( 1 ) * this % nc ( 2 ) * ( n_new + 1 ), dim + 1 ]) allocate ( Xc_new ( 1 : this % nc ( 1 ) * this % nc ( 2 ) * ( n_new + 1 ), 1 : dim )) allocate ( Wc_new ( 1 : this % nc ( 1 ) * this % nc ( 2 ) * ( n_new + 1 ))) do j = 1 , this % nc ( 1 ) * this % nc ( 2 ) * ( n_new + 1 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), knot3 = knot_new , Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc ( 3 ) - 1 , this % degree ( 3 ), Xth ( i ), this % knot3 ) if ( this % knot3 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot3 , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) Xc4 = reshape ( this % Xc , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 3 ), this % nc ( 2 ), this % nc ( 1 ), dim ], order = [ 3 , 2 , 1 , 4 ]) Xc = reshape ( Xc4 ,[ this % nc ( 3 ), this % nc ( 2 ) * this % nc ( 1 ) * dim ]) call insert_knot_A_5_1 (& this % degree ( 3 ),& this % knot3 ,& Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xc_new ) Xc4 = reshape ( Xc_new , [ n_new + 1 , this % nc ( 2 ), this % nc ( 1 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), this % nc ( 2 ), n_new + 1 , dim ], order = [ 3 , 2 , 1 , 4 ]) Xc_new = reshape ( Xc4 , [ this % nc ( 1 ) * this % nc ( 2 ) * ( n_new + 1 ), dim ]) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), knot3 = knot_new , Xc = Xc_new ) end do end if else error stop 'Invalid direction.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine elevate_degree ( this , dir , t ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ) :: dir integer , intent ( in ) :: t real ( rk ), allocatable :: Xc (:,:), Xcw (:,:), Xcw_new (:,:), Xc_new (:,:), Wc_new (:), knot_new (:) integer :: nc_new , dim , j real ( rk ), allocatable :: Xc4 (:,:,:,:) if ( dir == 1 ) then ! direction 1 if ( allocated ( this % Wc )) then ! NURBS dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xcw = reshape ( Xcw ,[ this % nc ( 1 ), this % nc ( 2 ) * this % nc ( 3 ) * ( dim + 1 )], order = [ 1 , 2 ]) call elevate_degree_A_5_9 ( t , this % knot1 , this % degree ( 1 ), Xcw , nc_new , knot_new , Xcw_new ) Xcw_new = reshape ( Xcw_new ,[ nc_new * this % nc ( 2 ) * this % nc ( 3 ), dim + 1 ], order = [ 1 , 2 ]) allocate ( Xc_new ( 1 : nc_new * this % nc ( 2 ) * this % nc ( 3 ), 1 : dim )) allocate ( Wc_new ( 1 : nc_new * this % nc ( 2 ) * this % nc ( 3 ))) do j = 1 , nc_new * this % nc ( 2 ) * this % nc ( 3 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), knot3 = this % get_knot ( 3 ), Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) else ! B-Spline dim = size ( this % Xc , 2 ) Xc = reshape ( this % Xc ,[ this % nc ( 1 ), this % nc ( 2 ) * this % nc ( 3 ) * dim ], order = [ 1 , 2 ]) call elevate_degree_A_5_9 ( t , this % knot1 , this % degree ( 1 ), Xc , nc_new , knot_new , Xc_new ) Xc_new = reshape ( Xc_new ,[ nc_new * this % nc ( 2 ) * this % nc ( 3 ), dim ], order = [ 1 , 2 ]) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), knot3 = this % get_knot ( 3 ), Xc = Xc_new ) end if elseif ( dir == 2 ) then ! direction 2 if ( allocated ( this % Wc )) then ! NURBS dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xc4 = reshape ( Xcw , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 2 ), this % nc ( 1 ), this % nc ( 3 ), dim + 1 ], order = [ 2 , 1 , 3 , 4 ]) Xcw = reshape ( Xc4 ,[ this % nc ( 2 ), this % nc ( 1 ) * this % nc ( 3 ) * ( dim + 1 )]) call elevate_degree_A_5_9 ( t , this % knot2 , this % degree ( 2 ), Xcw , nc_new , knot_new , Xcw_new ) Xc4 = reshape ( Xcw_new , [ nc_new , this % nc ( 1 ), this % nc ( 3 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), nc_new , this % nc ( 3 ), dim + 1 ], order = [ 2 , 1 , 3 , 4 ]) Xcw_new = reshape ( Xc4 ,[ this % nc ( 1 ) * nc_new * this % nc ( 3 ), dim + 1 ]) allocate ( Xc_new ( 1 : this % nc ( 1 ) * nc_new * this % nc ( 3 ), 1 : dim )) allocate ( Wc_new ( 1 : this % nc ( 1 ) * nc_new * this % nc ( 3 ))) do j = 1 , this % nc ( 1 ) * nc_new * this % nc ( 3 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , knot3 = this % get_knot ( 3 ), Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) else ! B-Spline dim = size ( this % Xc , 2 ) Xc4 = reshape ( this % Xc , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 2 ), this % nc ( 1 ), this % nc ( 3 ), dim ], order = [ 2 , 1 , 3 , 4 ]) Xc = reshape ( Xc4 ,[ this % nc ( 2 ), this % nc ( 1 ) * this % nc ( 3 ) * dim ]) call elevate_degree_A_5_9 ( t , this % knot2 , this % degree ( 2 ), Xc , nc_new , knot_new , Xc_new ) Xc4 = reshape ( Xc_new , [ nc_new , this % nc ( 1 ), this % nc ( 3 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), nc_new , this % nc ( 3 ), dim ], order = [ 2 , 1 , 3 , 4 ]) Xc_new = reshape ( Xc4 ,[ this % nc ( 1 ) * nc_new * this % nc ( 3 ), dim ]) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , knot3 = this % get_knot ( 3 ), Xc = Xc_new ) end if elseif ( dir == 3 ) then ! direction 3 if ( allocated ( this % Wc )) then ! NURBS dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xc4 = reshape ( Xcw , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 3 ), this % nc ( 2 ), this % nc ( 1 ), dim + 1 ], order = [ 3 , 2 , 1 , 4 ]) Xcw = reshape ( Xc4 ,[ this % nc ( 3 ), this % nc ( 2 ) * this % nc ( 1 ) * ( dim + 1 )]) call elevate_degree_A_5_9 ( t , this % knot3 , this % degree ( 3 ), Xcw , nc_new , knot_new , Xcw_new ) Xc4 = reshape ( Xcw_new , [ nc_new , this % nc ( 2 ), this % nc ( 1 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), this % nc ( 2 ), nc_new , dim + 1 ], order = [ 3 , 2 , 1 , 4 ]) Xcw_new = reshape ( Xc4 ,[ this % nc ( 1 ) * this % nc ( 2 ) * nc_new , dim + 1 ]) allocate ( Xc_new ( 1 : this % nc ( 1 ) * this % nc ( 2 ) * nc_new , 1 : dim )) allocate ( Wc_new ( 1 : this % nc ( 1 ) * this % nc ( 2 ) * nc_new )) do j = 1 , this % nc ( 1 ) * this % nc ( 2 ) * nc_new Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), knot3 = knot_new , Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) else ! B-Spline dim = size ( this % Xc , 2 ) Xc4 = reshape ( this % Xc , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 3 ), this % nc ( 2 ), this % nc ( 1 ), dim ], order = [ 3 , 2 , 1 , 4 ]) Xc = reshape ( Xc4 ,[ this % nc ( 3 ), this % nc ( 2 ) * this % nc ( 1 ) * dim ]) call elevate_degree_A_5_9 ( t , this % knot3 , this % degree ( 3 ), Xc , nc_new , knot_new , Xc_new ) Xc4 = reshape ( Xc_new , [ nc_new , this % nc ( 2 ), this % nc ( 1 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), this % nc ( 2 ), nc_new , dim ], order = [ 3 , 2 , 1 , 4 ]) Xc_new = reshape ( Xc4 ,[ this % nc ( 1 ) * this % nc ( 2 ) * nc_new , dim ]) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), knot3 = knot_new , Xc = Xc_new ) end if else error stop 'Invalid direction.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function is_rational ( this ) result ( r ) class ( nurbs_volume ), intent ( in ) :: this logical :: r r = . false . if ( allocated ( this % Wc )) then if ( any ( this % Wc /= this % Wc ( 1 ))) then r = . true . end if end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_elem_Xc_vis ( this , elemConn ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ), contiguous :: elemConn (:,:) if ( allocated ( this % elemConn_Xc_vis )) deallocate ( this % elemConn_Xc_vis ) this % elemConn_Xc_vis = elemConn end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_elem_Xg_vis ( this , elemConn ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ), contiguous :: elemConn (:,:) if ( allocated ( this % elemConn_Xg_vis )) deallocate ( this % elemConn_Xg_vis ) this % elemConn_Xg_vis = elemConn end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_elem ( this , elemConn ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ), contiguous :: elemConn (:,:) if ( allocated ( this % elemConn )) deallocate ( this % elemConn ) this % elemConn = elemConn end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_elem_Xc_vis ( this ) result ( elemConn ) class ( nurbs_volume ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) elemConn = this % elemConn_Xc_vis end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_elem_Xg_vis ( this ) result ( elemConn ) class ( nurbs_volume ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) elemConn = this % elemConn_Xg_vis end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_elem ( this ) result ( elemConn ) class ( nurbs_volume ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) elemConn = this % elemConn end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_hexahedron ( this , L , nc , Wc ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: L (:) integer , intent ( in ), contiguous :: nc (:) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) if ( present ( Wc )) then call this % set ( nc , hexahedron_Xc ( L , nc ), Wc ) else call this % set ( nc , hexahedron_Xc ( L , nc )) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine put_to_nurbs ( this , X , elemConn ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: X (:,:) integer , intent ( in ), contiguous :: elemConn (:,:) integer :: i real ( rk ), allocatable :: Tgc1 (:), Tgc2 (:), Tgc3 (:), Tgc (:) real ( rk ), allocatable :: Xt (:,:) real ( rk ) :: min_X1 , max_X1 , min_X2 , max_X2 , min_X3 , max_X3 ! Assuming knot vectors are in the range [0,1] ! Normalize the X coordinates to the range [0,1] allocate ( Xt ( size ( X , 1 ), size ( X , 2 ))) min_X1 = minval ( X (:, 1 )) max_X1 = maxval ( X (:, 1 )) min_X2 = minval ( X (:, 2 )) max_X2 = maxval ( X (:, 2 )) min_X3 = minval ( X (:, 3 )) max_X3 = maxval ( X (:, 3 )) Xt (:, 1 ) = ( X (:, 1 ) - min_X1 ) / ( max_X1 - min_X1 ) Xt (:, 2 ) = ( X (:, 2 ) - min_X2 ) / ( max_X2 - min_X2 ) Xt (:, 3 ) = ( X (:, 3 ) - min_X3 ) / ( max_X3 - min_X3 ) allocate ( this % Xg ( size ( Xt , 1 ), size ( this % Xc , 2 ))) allocate ( Tgc ( this % nc ( 1 ) * this % nc ( 2 ) * this % nc ( 3 ))) if ( allocated ( this % Wc )) then ! NURBS volume do i = 1 , size ( Xt , 1 ) Tgc1 = basis_bspline ( Xt ( i , 1 ), this % knot1 , this % nc ( 1 ), this % degree ( 1 )) Tgc2 = basis_bspline ( Xt ( i , 2 ), this % knot2 , this % nc ( 2 ), this % degree ( 2 )) Tgc3 = basis_bspline ( Xt ( i , 3 ), this % knot3 , this % nc ( 3 ), this % degree ( 3 )) Tgc = kron ( Tgc3 , kron ( Tgc2 , Tgc1 )) Tgc = Tgc * ( this % Wc / ( dot_product ( Tgc , this % Wc ))) this % Xg ( i ,:) = matmul ( Tgc , this % Xc ) end do else ! B-Spline volume do i = 1 , size ( Xt , 1 ) Tgc1 = basis_bspline ( Xt ( i , 1 ), this % knot1 , this % nc ( 1 ), this % degree ( 1 )) Tgc2 = basis_bspline ( Xt ( i , 2 ), this % knot2 , this % nc ( 2 ), this % degree ( 2 )) Tgc3 = basis_bspline ( Xt ( i , 3 ), this % knot3 , this % nc ( 3 ), this % degree ( 3 )) Tgc = kron ( Tgc3 , kron ( Tgc2 , Tgc1 )) this % Xg ( i ,:) = matmul ( Tgc , this % Xc ) end do end if call this % set_elem_Xg_vis ( elemConn ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine remove_knots ( this , dir , Xth , r ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ) :: dir real ( rk ), intent ( in ), contiguous :: Xth (:) integer , intent ( in ), contiguous :: r (:) integer :: k , i , s , dim , j , nc_new , t real ( rk ), allocatable :: Xc (:,:), Xcw (:,:), Xcw_new (:,:), Xc_new (:,:), Wc_new (:), knot_new (:) real ( rk ), allocatable :: Xc4 (:,:,:,:) if ( dir == 1 ) then ! direction 1 if ( allocated ( this % Wc )) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc ( 1 ) - 1 , this % degree ( 1 ), Xth ( i ), this % knot1 ) if ( this % knot1 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot1 , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xcw = reshape ( Xcw ,[ this % nc ( 1 ), this % nc ( 2 ) * this % nc ( 3 ) * ( dim + 1 )], order = [ 1 , 2 ]) call remove_knots_A_5_8 (& this % degree ( 1 ),& this % knot1 ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xcw_new ) if ( allocated ( Xcw )) deallocate ( Xcw ) if ( t == 0 ) then ! no change else nc_new = size ( Xcw_new , 1 ) Xcw_new = reshape ( Xcw_new ,[( nc_new ) * this % nc ( 2 ) * this % nc ( 3 ), dim + 1 ], order = [ 1 , 2 ]) allocate ( Xc_new ( 1 :( nc_new ) * this % nc ( 2 ) * this % nc ( 3 ), 1 : dim )) allocate ( Wc_new ( 1 :( nc_new ) * this % nc ( 2 ) * this % nc ( 3 ))) do j = 1 , ( nc_new ) * this % nc ( 2 ) * this % nc ( 3 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), knot3 = this % get_knot ( 3 ), Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw_new , Xc_new , Wc_new ) end if end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc ( 1 ) - 1 , this % degree ( 1 ), Xth ( i ), this % knot1 ) if ( this % knot1 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot1 , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) Xc = reshape ( this % Xc ,[ this % nc ( 1 ), this % nc ( 2 ) * this % nc ( 3 ) * dim ]) call remove_knots_A_5_8 (& this % degree ( 1 ),& this % knot1 ,& Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xc_new ) if ( allocated ( Xc )) deallocate ( Xc ) if ( t == 0 ) then ! no change else nc_new = size ( Xcw_new , 1 ) Xc_new = reshape ( Xc_new ,[( nc_new ) * this % nc ( 2 ) * this % nc ( 3 ), dim ]) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), knot3 = this % get_knot ( 3 ), Xc = Xc_new ) end if end do end if elseif ( dir == 2 ) then ! direction 2 if ( allocated ( this % Wc )) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc ( 2 ) - 1 , this % degree ( 2 ), Xth ( i ), this % knot2 ) if ( this % knot2 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot2 , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xc4 = reshape ( Xcw , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 2 ), this % nc ( 1 ), this % nc ( 3 ), dim + 1 ], order = [ 2 , 1 , 3 , 4 ]) Xcw = reshape ( Xc4 ,[ this % nc ( 2 ), this % nc ( 1 ) * this % nc ( 3 ) * ( dim + 1 )]) call remove_knots_A_5_8 (& this % degree ( 2 ),& this % knot2 ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xcw_new ) if ( allocated ( Xcw )) deallocate ( Xcw ) if ( t == 0 ) then ! no change else nc_new = size ( Xcw_new , 1 ) Xc4 = reshape ( Xcw_new , [ nc_new , this % nc ( 1 ), this % nc ( 3 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), nc_new , this % nc ( 3 ), dim + 1 ], order = [ 2 , 1 , 3 , 4 ]) Xcw_new = reshape ( Xc4 ,[ this % nc ( 1 ) * ( nc_new ) * this % nc ( 3 ), dim + 1 ]) allocate ( Xc_new ( 1 : this % nc ( 1 ) * ( nc_new ) * this % nc ( 3 ), 1 : dim )) allocate ( Wc_new ( 1 : this % nc ( 1 ) * ( nc_new ) * this % nc ( 3 ))) do j = 1 , this % nc ( 1 ) * ( nc_new ) * this % nc ( 3 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , knot3 = this % get_knot ( 3 ), Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw_new , Xc_new , Wc_new ) end if end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc ( 2 ) - 1 , this % degree ( 2 ), Xth ( i ), this % knot2 ) if ( this % knot2 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot2 , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) Xc4 = reshape ( this % Xc , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 2 ), this % nc ( 1 ), this % nc ( 3 ), dim ], order = [ 2 , 1 , 3 , 4 ]) Xc = reshape ( Xc4 , [ this % nc ( 2 ), this % nc ( 1 ) * this % nc ( 3 ) * dim ]) call remove_knots_A_5_8 (& this % degree ( 2 ),& this % knot2 ,& Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xc_new ) if ( allocated ( Xc )) deallocate ( Xc ) if ( t == 0 ) then ! no change else nc_new = size ( Xcw_new , 1 ) Xc4 = reshape ( Xc_new , [ nc_new , this % nc ( 1 ), this % nc ( 3 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), nc_new , this % nc ( 3 ), dim ], order = [ 2 , 1 , 3 , 4 ]) Xc_new = reshape ( Xc4 , [ this % nc ( 1 ) * ( nc_new ) * this % nc ( 3 ), dim ]) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , knot3 = this % get_knot ( 3 ), Xc = Xc_new ) end if end do end if elseif ( dir == 3 ) then ! direction 3 if ( allocated ( this % Wc )) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc ( 3 ) - 1 , this % degree ( 3 ), Xth ( i ), this % knot3 ) if ( this % knot3 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot3 , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xc4 = reshape ( Xcw , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 3 ), this % nc ( 2 ), this % nc ( 1 ), dim + 1 ], order = [ 3 , 2 , 1 , 4 ]) Xcw = reshape ( Xc4 , [ this % nc ( 3 ), this % nc ( 2 ) * this % nc ( 1 ) * ( dim + 1 )]) call remove_knots_A_5_8 (& this % degree ( 3 ),& this % knot3 ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xcw_new ) if ( allocated ( Xcw )) deallocate ( Xcw ) if ( t == 0 ) then ! no change else nc_new = size ( Xcw_new , 1 ) Xc4 = reshape ( Xcw_new , [ nc_new , this % nc ( 2 ), this % nc ( 1 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), this % nc ( 2 ), nc_new , dim + 1 ], order = [ 3 , 2 , 1 , 4 ]) Xcw_new = reshape ( Xc4 , [ this % nc ( 1 ) * this % nc ( 2 ) * ( nc_new ), dim + 1 ]) allocate ( Xc_new ( 1 : this % nc ( 1 ) * this % nc ( 2 ) * ( nc_new ), 1 : dim )) allocate ( Wc_new ( 1 : this % nc ( 1 ) * this % nc ( 2 ) * ( nc_new ))) do j = 1 , this % nc ( 1 ) * this % nc ( 2 ) * ( nc_new ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), knot3 = knot_new , Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw_new , Xc_new , Wc_new ) end if end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc ( 3 ) - 1 , this % degree ( 3 ), Xth ( i ), this % knot3 ) if ( this % knot3 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot3 , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) Xc4 = reshape ( this % Xc , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 3 ), this % nc ( 2 ), this % nc ( 1 ), dim ], order = [ 3 , 2 , 1 , 4 ]) Xc = reshape ( Xc4 , [ this % nc ( 3 ), this % nc ( 2 ) * this % nc ( 1 ) * dim ]) call remove_knots_A_5_8 (& this % degree ( 3 ),& this % knot3 ,& Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xc_new ) if ( allocated ( Xc )) deallocate ( Xc ) if ( t == 0 ) then ! no change else nc_new = size ( Xcw_new , 1 ) Xc4 = reshape ( Xc_new , [ nc_new , this % nc ( 2 ), this % nc ( 1 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), this % nc ( 2 ), nc_new , dim ], order = [ 3 , 2 , 1 , 4 ]) Xc_new = reshape ( Xc4 , [ this % nc ( 1 ) * this % nc ( 2 ) * ( nc_new ), dim ]) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), knot3 = knot_new , Xc = Xc_new ) end if end do end if else error stop 'Invalid direction.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elem ( this ) result ( elemConn ) class ( nurbs_volume ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) call elemConn_Cn ( this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ),& this % degree ( 1 ), this % degree ( 2 ), this % degree ( 3 ),& unique ( this % knot1 ), unique ( this % knot2 ), unique ( this % knot3 ),& this % get_multiplicity ( 1 ), this % get_multiplicity ( 2 ), this % get_multiplicity ( 3 ),& elemConn ) end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine rotate_Xc ( this , alpha , beta , theta ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ) :: alpha , beta , theta integer :: i do i = 1 , this % nc ( 1 ) * this % nc ( 2 ) * this % nc ( 3 ) this % Xc ( i , :) = matmul ( rotation ( alpha , beta , theta ), this % Xc ( i , :)) end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine rotate_Xg ( this , alpha , beta , theta ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ) :: alpha , beta , theta integer :: i do i = 1 , this % ng ( 1 ) * this % ng ( 2 ) * this % ng ( 3 ) this % Xg ( i , :) = matmul ( rotation ( alpha , beta , theta ), this % Xg ( i , :)) end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine translate_Xc ( this , vec ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ) :: vec (:) integer :: i do i = 1 , this % nc ( 1 ) * this % nc ( 2 ) * this % nc ( 3 ) this % Xc ( i , :) = this % Xc ( i , :) + vec end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine translate_Xg ( this , vec ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ) :: vec (:) integer :: i do i = 1 , this % ng ( 1 ) * this % ng ( 2 ) * this % ng ( 3 ) this % Xg ( i , :) = this % Xg ( i , :) + vec end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure subroutine show ( this , vtkfile_Xc , vtkfile_Xg ) class ( nurbs_volume ), intent ( inout ) :: this character ( len =* ), intent ( in ) :: vtkfile_Xc , vtkfile_Xg character ( len = 3000 ) :: pyvista_script pyvista_script = & \"import pyvista as pv\" // achar ( 10 ) // & \"pv.global_theme.color = 'white'\" // achar ( 10 ) // & \"Xc = pv.read('\" // trim ( vtkfile_Xc ) // \"')\" // achar ( 10 ) // & \"Xg = pv.read('\" // trim ( vtkfile_Xg ) // \"')\" // achar ( 10 ) // & \"p = pv.Plotter(lighting='light kit')\" // achar ( 10 ) // & \"actor_Xcp = p.add_mesh(\" // achar ( 10 ) // & \" Xc,\" // achar ( 10 ) // & \" style='points',\" // achar ( 10 ) // & \" point_size=10,\" // achar ( 10 ) // & \" color='red',\" // achar ( 10 ) // & \" render_points_as_spheres=True,\" // achar ( 10 ) // & \" opacity=0.5,\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"actor_Xcw = p.add_mesh(\" // achar ( 10 ) // & \" Xc,\" // achar ( 10 ) // & \" show_edges=True,\" // achar ( 10 ) // & \" color='yellow',\" // achar ( 10 ) // & \" line_width=3,\" // achar ( 10 ) // & \" style='wireframe',\" // achar ( 10 ) // & \" opacity=0.2\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"actor_Xg = p.add_mesh(\" // achar ( 10 ) // & \" Xg,\" // achar ( 10 ) // & \" show_edges=False,\" // achar ( 10 ) // & \" color='cyan',\" // achar ( 10 ) // & \" line_width=7,\" // achar ( 10 ) // & \" metallic=0.6,\" // achar ( 10 ) // & \" pbr=True,\" // achar ( 10 ) // & \" split_sharp_edges=True,\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_axes(interactive=False)\" // achar ( 10 ) // & \"def point_picker_callback(point):\" // achar ( 10 ) // & \" mesh = Xc\" // achar ( 10 ) // & \" point_id = mesh.find_closest_point(point)\" // achar ( 10 ) // & \" point_coords = mesh.points[point_id]\" // achar ( 10 ) // & \" label = f'ID: {point_id + 1}\\n({point_coords[0]:.3f}, {point_coords[1]:.3f}, {point_coords[2]:.3f})'\" // achar ( 10 ) // & \" p.add_point_labels(\" // achar ( 10 ) // & \" [point_coords],\" // achar ( 10 ) // & \" [label],\" // achar ( 10 ) // & \" font_size=14,\" // achar ( 10 ) // & \" text_color='black',\" // achar ( 10 ) // & \" show_points=False,\" // achar ( 10 ) // & \" fill_shape=False,\" // achar ( 10 ) // & \" shape=None,\" // achar ( 10 ) // & \" )\" // achar ( 10 ) // & \"picker = p.enable_point_picking(callback=point_picker_callback, show_message=False)\" // achar ( 10 ) // & \"window_size = p.window_size\" // achar ( 10 ) // & \"y_pos = window_size[1]\" // achar ( 10 ) // & \"def Xcp_toggle_vis(flag):\" // achar ( 10 ) // & \" actor_Xcp.SetVisibility(flag)\" // achar ( 10 ) // & \"def Xcw_toggle_vis(flag):\" // achar ( 10 ) // & \" actor_Xcw.SetVisibility(flag)\" // achar ( 10 ) // & \"def Xg_toggle_vis(flag):\" // achar ( 10 ) // & \" actor_Xg.SetVisibility(flag)\" // achar ( 10 ) // & \"p.add_checkbox_button_widget(\" // achar ( 10 ) // & \" Xcp_toggle_vis,\" // achar ( 10 ) // & \" value=True,\" // achar ( 10 ) // & \" color_on='red',\" // achar ( 10 ) // & \" size=25,\" // achar ( 10 ) // & \" position=(0, y_pos - 1 * 25),\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_checkbox_button_widget(\" // achar ( 10 ) // & \" Xcw_toggle_vis,\" // achar ( 10 ) // & \" value=True,\" // achar ( 10 ) // & \" color_on='yellow',\" // achar ( 10 ) // & \" size=25,\" // achar ( 10 ) // & \" position=(0, y_pos - 2 * 25),\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_checkbox_button_widget(\" // achar ( 10 ) // & \" Xg_toggle_vis,\" // achar ( 10 ) // & \" value=True,\" // achar ( 10 ) // & \" color_on='cyan',\" // achar ( 10 ) // & \" size=25,\" // achar ( 10 ) // & \" position=(0, y_pos - 3 * 25),\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'Xc (Points)',\" // achar ( 10 ) // & \" position=(25 + 3, y_pos - 1 * 25),\" // achar ( 10 ) // & \" font_size=8,\" // achar ( 10 ) // & \" color='black',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'Xc (Control geometry)',\" // achar ( 10 ) // & \" position=(25 + 3, y_pos - 2 * 25),\" // achar ( 10 ) // & \" font_size=8,\" // achar ( 10 ) // & \" color='black',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'Xg (Geometry)',\" // achar ( 10 ) // & \" position=(25 + 3, y_pos - 3 * 25),\" // achar ( 10 ) // & \" font_size=8,\" // achar ( 10 ) // & \" color='black',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text('ForCAD', position=(0.0, 10.0), font_size=14, color='black', font='times')\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'https://github.com/gha3mi/forcad',\" // achar ( 10 ) // & \" position=(0.0, 0.0),\" // achar ( 10 ) // & \" font_size=7,\" // achar ( 10 ) // & \" color='blue',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.show(title='ForCAD', interactive=True)\" call execute_command_line ( 'python -c \"' // trim ( adjustl ( pyvista_script )) // '\"' ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_ring ( this , center , radius1 , radius2 , length ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: center (:) real ( rk ), intent ( in ) :: radius1 , radius2 , length real ( rk ), allocatable :: Xc (:,:), Wc (:), knot1 (:), knot2 (:), knot3 (:) integer :: i ! Define control points for ring allocate ( Xc ( 28 , 3 )) Xc ( 1 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 3 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 4 ,:) = [ - 2.0_rk , 0.0_rk , 0.0_rk ] Xc ( 5 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 6 ,:) = [ 1.0_rk , - sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 7 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 1 : 7 , 1 : 2 ) = Xc ( 1 : 7 , 1 : 2 ) * radius1 Xc ( 8 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 9 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 10 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 11 ,:) = [ - 2.0_rk , 0.0_rk , 0.0_rk ] Xc ( 12 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 13 ,:) = [ 1.0_rk , - sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 14 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 8 : 14 , 1 : 2 ) = Xc ( 8 : 14 , 1 : 2 ) * radius2 Xc ( 15 ,:) = [ 1.0_rk , 0.0_rk , length ] Xc ( 16 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), length ] Xc ( 17 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , length ] Xc ( 18 ,:) = [ - 2.0_rk , 0.0_rk , length ] Xc ( 19 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , length ] Xc ( 20 ,:) = [ 1.0_rk , - sqrt ( 3.0_rk ), length ] Xc ( 21 ,:) = [ 1.0_rk , 0.0_rk , length ] Xc ( 15 : 21 , 1 : 2 ) = Xc ( 15 : 21 , 1 : 2 ) * radius1 Xc ( 22 ,:) = [ 1.0_rk , 0.0_rk , length ] Xc ( 23 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), length ] Xc ( 24 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , length ] Xc ( 25 ,:) = [ - 2.0_rk , 0.0_rk , length ] Xc ( 26 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , length ] Xc ( 27 ,:) = [ 1.0_rk , - sqrt ( 3.0_rk ), length ] Xc ( 28 ,:) = [ 1.0_rk , 0.0_rk , length ] Xc ( 22 : 28 , 1 : 2 ) = Xc ( 22 : 28 , 1 : 2 ) * radius2 ! Translate the control points do i = 1 , size ( Xc , 1 ) Xc ( i ,:) = center + Xc ( i ,:) end do ! Define weights for the control points Wc = [ 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ,& 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ,& 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ,& 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ] ! Define knot vector knot1 = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk / 3.0_rk , 1.0_rk / 3.0_rk , 2.0_rk / 3.0_rk , 2.0_rk / 3.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] knot2 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] knot3 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] ! Set knot vector, control points, and weights call this % set ( knot1 , knot2 , knot3 , Xc , Wc ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_C ( this , center , radius1 , radius2 , length ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: center (:) real ( rk ), intent ( in ) :: radius1 , radius2 , length real ( rk ), allocatable :: Xc (:,:), Wc (:), knot1 (:), knot2 (:), knot3 (:) integer :: i ! Define control points for C-shape allocate ( Xc ( 20 , 3 )) Xc ( 1 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 3 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 4 ,:) = [ - 2.0_rk , 0.0_rk , 0.0_rk ] Xc ( 5 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 1 : 5 , 1 : 2 ) = Xc ( 1 : 5 , 1 : 2 ) * radius1 Xc ( 6 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 7 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 8 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 9 ,:) = [ - 2.0_rk , 0.0_rk , 0.0_rk ] Xc ( 10 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 6 : 10 , 1 : 2 ) = Xc ( 6 : 10 , 1 : 2 ) * radius2 Xc ( 11 ,:) = [ 1.0_rk , 0.0_rk , length ] Xc ( 12 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), length ] Xc ( 13 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , length ] Xc ( 14 ,:) = [ - 2.0_rk , 0.0_rk , length ] Xc ( 15 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , length ] Xc ( 11 : 15 , 1 : 2 ) = Xc ( 11 : 15 , 1 : 2 ) * radius1 Xc ( 16 ,:) = [ 1.0_rk , 0.0_rk , length ] Xc ( 17 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), length ] Xc ( 18 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , length ] Xc ( 19 ,:) = [ - 2.0_rk , 0.0_rk , length ] Xc ( 20 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , length ] Xc ( 16 : 20 , 1 : 2 ) = Xc ( 16 : 20 , 1 : 2 ) * radius2 ! Translate the control points do i = 1 , size ( Xc , 1 ) Xc ( i ,:) = center + Xc ( i ,:) end do ! Define weights for the control points Wc = [ 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ,& 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ,& 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ,& 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ] ! Define knot vector knot1 = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk / 2.0_rk , 1.0_rk / 2.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] knot2 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] knot3 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] ! Set knot vector, control points, and weights call this % set ( knot1 , knot2 , knot3 , Xc , Wc ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_half_ring ( this , center , radius1 , radius2 , length ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: center (:) real ( rk ), intent ( in ) :: radius1 , radius2 , length real ( rk ), allocatable :: Xc (:,:), Wc (:), knot1 (:), knot2 (:), knot3 (:) integer :: i ! Define control points for half ring allocate ( Xc ( 20 , 3 )) Xc ( 1 ,:) = [ 0.5_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 0.5_rk , 0.5_rk , 0.0_rk ] Xc ( 3 ,:) = [ 0.0_rk , 0.5_rk , 0.0_rk ] Xc ( 4 ,:) = [ - 0.5_rk , 0.5_rk , 0.0_rk ] Xc ( 5 ,:) = [ - 0.5_rk , 0.0_rk , 0.0_rk ] Xc ( 1 : 5 , 1 : 2 ) = Xc ( 1 : 5 , 1 : 2 ) * radius1 Xc ( 6 ,:) = [ 0.5_rk , 0.0_rk , 0.0_rk ] Xc ( 7 ,:) = [ 0.5_rk , 0.5_rk , 0.0_rk ] Xc ( 8 ,:) = [ 0.0_rk , 0.5_rk , 0.0_rk ] Xc ( 9 ,:) = [ - 0.5_rk , 0.5_rk , 0.0_rk ] Xc ( 10 ,:) = [ - 0.5_rk , 0.0_rk , 0.0_rk ] Xc ( 6 : 10 , 1 : 2 ) = Xc ( 6 : 10 , 1 : 2 ) * radius2 Xc ( 11 ,:) = [ 0.5_rk , 0.0_rk , length ] Xc ( 12 ,:) = [ 0.5_rk , 0.5_rk , length ] Xc ( 13 ,:) = [ 0.0_rk , 0.5_rk , length ] Xc ( 14 ,:) = [ - 0.5_rk , 0.5_rk , length ] Xc ( 15 ,:) = [ - 0.5_rk , 0.0_rk , length ] Xc ( 11 : 15 , 1 : 2 ) = Xc ( 11 : 15 , 1 : 2 ) * radius1 Xc ( 16 ,:) = [ 0.5_rk , 0.0_rk , length ] Xc ( 17 ,:) = [ 0.5_rk , 0.5_rk , length ] Xc ( 18 ,:) = [ 0.0_rk , 0.5_rk , length ] Xc ( 19 ,:) = [ - 0.5_rk , 0.5_rk , length ] Xc ( 20 ,:) = [ - 0.5_rk , 0.0_rk , length ] Xc ( 16 : 20 , 1 : 2 ) = Xc ( 16 : 20 , 1 : 2 ) * radius2 ! Translate the control points do i = 1 , size ( Xc , 1 ) Xc ( i ,:) = center + Xc ( i ,:) end do ! Define weights for the control points Wc = [ 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk ,& 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk ,& 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk ,& 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk ] ! Define knot vector knot1 = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk / 2.0_rk , & 1.0_rk / 2.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] knot2 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] knot3 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] ! Set knot vector, control points, and weights call this % set ( knot1 , knot2 , knot3 , Xc , Wc ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine nearest_point ( this , point_Xg , nearest_Xg , nearest_Xt , id ) class ( nurbs_volume ), intent ( in ) :: this real ( rk ), intent ( in ) :: point_Xg (:) real ( rk ), intent ( out ), allocatable , optional :: nearest_Xg (:) real ( rk ), intent ( out ), allocatable , optional :: nearest_Xt (:) integer , intent ( out ), optional :: id integer :: id_ real ( rk ), allocatable :: distances (:) interface pure function nearest_point_help_3d ( f_ng , f_Xg , f_point_Xg ) result ( f_distances ) import :: rk integer , intent ( in ) :: f_ng ( 3 ) real ( rk ), intent ( in ), contiguous :: f_Xg (:,:) real ( rk ), intent ( in ), contiguous :: f_point_Xg (:) real ( rk ), allocatable :: f_distances (:) end function end interface allocate ( distances ( this % ng ( 1 ) * this % ng ( 2 ) * this % ng ( 3 ))) distances = nearest_point_help_3d ( this % ng , this % Xg , point_Xg ) id_ = minloc ( distances , dim = 1 ) if ( present ( id )) id = id_ if ( present ( nearest_Xg )) nearest_Xg = this % Xg ( id_ ,:) if ( present ( nearest_Xt )) nearest_Xt = this % Xt ( id_ ,:) end subroutine !=============================================================================== end module forcad_nurbs_volume !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Xg_nurbs_3d ( Xt , knot1 , knot2 , knot3 , degree , nc , ng , Xc , Wc ) result ( Xg ) use forcad_utils , only : rk , basis_bspline , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:), knot3 (:) integer , intent ( in ) :: degree ( 3 ) integer , intent ( in ) :: nc ( 3 ) integer , intent ( in ) :: ng ( 3 ) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous :: Wc (:) real ( rk ), allocatable :: Xg (:,:) real ( rk ), allocatable :: Tgc (:) integer :: i allocate ( Xg ( ng ( 1 ) * ng ( 2 ) * ng ( 3 ), size ( Xc , 2 ))) allocate ( Tgc ( nc ( 1 ) * nc ( 2 ) * nc ( 3 ))) !$OMP PARALLEL DO PRIVATE(Tgc) do i = 1 , ng ( 1 ) * ng ( 2 ) * ng ( 3 ) Tgc = kron ( basis_bspline ( Xt ( i , 3 ), knot3 , nc ( 3 ), degree ( 3 )),& kron (& basis_bspline ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 )))) Tgc = Tgc * ( Wc / ( dot_product ( Tgc , Wc ))) Xg ( i ,:) = matmul ( Tgc , Xc ) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Xg_bspline_3d ( Xt , knot1 , knot2 , knot3 , degree , nc , ng , Xc ) result ( Xg ) use forcad_utils , only : rk , basis_bspline , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:), knot3 (:) integer , intent ( in ) :: degree ( 3 ) integer , intent ( in ) :: nc ( 3 ) integer , intent ( in ) :: ng ( 3 ) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), allocatable :: Xg (:,:) integer :: i allocate ( Xg ( ng ( 1 ) * ng ( 2 ) * ng ( 3 ), size ( Xc , 2 ))) !$OMP PARALLEL DO do i = 1 , ng ( 1 ) * ng ( 2 ) * ng ( 3 ) Xg ( i ,:) = matmul ( kron ( basis_bspline ( Xt ( i , 3 ), knot3 , nc ( 3 ), degree ( 3 )), kron (& basis_bspline ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 )))),& Xc ) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_dTgc_nurbs_3d ( Xt , knot1 , knot2 , knot3 , degree , nc , ng , Wc ) result ( dTgc ) use forcad_utils , only : rk , basis_bspline_der , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:), knot3 (:) integer , intent ( in ) :: degree ( 3 ) integer , intent ( in ) :: nc ( 3 ) integer , intent ( in ) :: ng ( 3 ) real ( rk ), intent ( in ), contiguous :: Wc (:) real ( rk ), allocatable :: dTgc (:,:) real ( rk ), allocatable :: dTgci (:) integer :: i allocate ( dTgc ( ng ( 1 ) * ng ( 2 ) * ng ( 3 ), nc ( 1 ) * nc ( 2 ) * nc ( 3 ))) !$OMP PARALLEL DO PRIVATE(dTgci) do i = 1 , size ( Xt , 1 ) dTgci = kron ( basis_bspline_der ( Xt ( i , 3 ), knot3 , nc ( 3 ), degree ( 3 )), kron (& basis_bspline_der ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline_der ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 )))) dTgci = dTgci * ( Wc / ( dot_product ( dTgci , Wc ))) dTgc ( i ,:) = dTgci end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_dTgc_bspline_3d ( Xt , knot1 , knot2 , knot3 , degree , nc , ng ) result ( dTgc ) use forcad_utils , only : rk , basis_bspline_der , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:), knot3 (:) integer , intent ( in ) :: degree ( 3 ) integer , intent ( in ) :: nc ( 3 ) integer , intent ( in ) :: ng ( 3 ) real ( rk ), allocatable :: dTgc (:,:) integer :: i allocate ( dTgc ( ng ( 1 ) * ng ( 2 ) * ng ( 3 ), nc ( 1 ) * nc ( 2 ) * nc ( 3 ))) !$OMP PARALLEL DO do i = 1 , size ( Xt , 1 ) dTgc ( i ,:) = kron ( basis_bspline_der ( Xt ( i , 3 ), knot3 , nc ( 3 ), degree ( 3 )), kron (& basis_bspline_der ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline_der ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 )))) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Tgc_nurbs_3d ( Xt , knot1 , knot2 , knot3 , degree , nc , ng , Wc ) result ( Tgc ) use forcad_utils , only : rk , basis_bspline , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:), knot3 (:) integer , intent ( in ) :: degree ( 3 ) integer , intent ( in ) :: nc ( 3 ) integer , intent ( in ) :: ng ( 3 ) real ( rk ), intent ( in ), contiguous :: Wc (:) real ( rk ), allocatable :: Tgc (:,:) real ( rk ), allocatable :: Tgci (:) integer :: i allocate ( Tgc ( ng ( 1 ) * ng ( 2 ) * ng ( 3 ), nc ( 1 ) * nc ( 2 ) * nc ( 3 ))) !$OMP PARALLEL DO PRIVATE(Tgci) do i = 1 , size ( Xt , 1 ) Tgci = kron ( basis_bspline ( Xt ( i , 3 ), knot3 , nc ( 3 ), degree ( 3 )), kron (& basis_bspline ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 )))) Tgci = Tgci * ( Wc / ( dot_product ( Tgci , Wc ))) Tgc ( i ,:) = Tgci end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Tgc_bspline_3d ( Xt , knot1 , knot2 , knot3 , degree , nc , ng ) result ( Tgc ) use forcad_utils , only : rk , basis_bspline , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:), knot3 (:) integer , intent ( in ) :: degree ( 3 ) integer , intent ( in ) :: nc ( 3 ) integer , intent ( in ) :: ng ( 3 ) real ( rk ), allocatable :: Tgc (:,:) integer :: i allocate ( Tgc ( ng ( 1 ) * ng ( 2 ) * ng ( 3 ), nc ( 1 ) * nc ( 2 ) * nc ( 3 ))) !$OMP PARALLEL DO do i = 1 , size ( Xt , 1 ) Tgc ( i ,:) = kron ( basis_bspline ( Xt ( i , 3 ), knot3 , nc ( 3 ), degree ( 3 )), kron (& basis_bspline ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 )))) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function nearest_point_help_3d ( ng , Xg , point_Xg ) result ( distances ) use forcad_utils , only : rk implicit none integer , intent ( in ) :: ng ( 3 ) real ( rk ), intent ( in ), contiguous :: Xg (:,:) real ( rk ), intent ( in ), contiguous :: point_Xg (:) real ( rk ), allocatable :: distances (:) integer :: i allocate ( distances ( ng ( 1 ) * ng ( 2 ) * ng ( 3 ))) !$OMP PARALLEL DO do i = 1 , ng ( 1 ) * ng ( 2 ) * ng ( 3 ) distances ( i ) = norm2 ( Xg ( i ,:) - point_Xg ) end do !$OMP END PARALLEL DO end function !===============================================================================","tags":"","loc":"sourcefile/forcad_nurbs_volume.f90.html"},{"title":"demo_curve.f90 – ForCAD","text":"This file depends on sourcefile~~demo_curve.f90~~EfferentGraph sourcefile~demo_curve.f90 demo_curve.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~demo_curve.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> This program demonstrates the usage of a NURBS curve object to create, and finalize a NURBS curve. !> It sets up control points and weights, generates the curve, and exports the control points !> and the curve to VTK files at various stages. program example_nurbs_curve use forcad , only : rk , nurbs_curve implicit none type ( nurbs_curve ) :: nurbs !! Declare a NURBS curve object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights !----------------------------------------------------------------------------- ! Setting up the NURBS curve !----------------------------------------------------------------------------- !> Define control points for the NURBS curve Xc = generate_Xc ( 5 , 1.0_rk , 2.0_rk , 20 ) !> Define weights for the control points allocate ( Wc ( size ( Xc , 1 )), source = 1.0_rk ) !> Set control points and weights for the NURBS curve object call nurbs % set ( Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export initial control points to a VTK file call nurbs % export_Xc ( 'vtk/demo_curve_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS curve !----------------------------------------------------------------------------- !> Generate the NURBS curve with a resolution of 500 call nurbs % create ( res = 500 ) !> Export the generated curve to a VTK file call nurbs % export_Xg ( 'vtk/demo_curve_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/demo_curve_Xc.vtk' , 'vtk/demo_curve_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS curve object call nurbs % finalize () contains !----------------------------------------------------------------------------- function generate_Xc ( num_coils , radius , height , num_points_per_coil ) result ( control_points ) integer , intent ( in ) :: num_coils , num_points_per_coil real ( rk ), intent ( in ) :: radius , height real ( rk ), allocatable :: control_points (:,:) integer :: coil , i real ( rk ) :: theta , coil_height allocate ( control_points ( num_coils * num_points_per_coil , 3 )) do coil = 1 , num_coils coil_height = height * real ( coil - 1 , rk ) / real ( num_coils - 1 , rk ) theta = 0.0_rk do i = 1 , num_points_per_coil theta = theta + 2.0_rk * acos ( - 1.0_rk ) / real ( num_points_per_coil , rk ) control_points (( coil - 1 ) * num_points_per_coil + i , 1 ) = radius * cos ( theta ) control_points (( coil - 1 ) * num_points_per_coil + i , 2 ) = radius * sin ( theta ) control_points (( coil - 1 ) * num_points_per_coil + i , 3 ) = coil_height end do end do end function !----------------------------------------------------------------------------- end program example_nurbs_curve","tags":"","loc":"sourcefile/demo_curve.f90.html"},{"title":"shape_ring_3d.f90 – ForCAD","text":"This file depends on sourcefile~~shape_ring_3d.f90~~EfferentGraph sourcefile~shape_ring_3d.f90 shape_ring_3d.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_ring_3d.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_ring_3d use forcad , only : rk , nurbs_volume implicit none type ( nurbs_volume ) :: shape !> Set up a ring shape centered at 0,0,0 with inner radius 1, outer radius 2, and length 1. call shape % set_ring ([ 0.0_rk , 0.0_rk , 0.0_rk ], 1.0_rk , 2.0_rk , 1.0_rk ) !> Export the control points to a VTK file for visualization. call shape % export_Xc ( 'vtk/shape_ring_3d_Xc.vtk' ) !> Create the shape using the specified number of elements in each direction. call shape % create ( 60 , 15 , 10 ) !> Export the geometry to a VTK file for visualization. call shape % export_Xg ( 'vtk/shape_ring_3d_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_ring_3d_Xc.vtk' , 'vtk/shape_ring_3d_Xg.vtk' ) !> Finalize and clean up the shape object. call shape % finalize () end program","tags":"","loc":"sourcefile/shape_ring_3d.f90.html"},{"title":"example_surface_1.f90 – ForCAD","text":"This file depends on sourcefile~~example_surface_1.f90~~EfferentGraph sourcefile~example_surface_1.f90 example_surface_1.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~example_surface_1.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> This program demonstrates the usage of a NURBS (Non-Uniform Rational B-Spline) surface object to create and finalize a NURBS surface. !> It sets up control points, weights, and knot vectors for all three dimensions, generates the surface, and exports the control points and the surface to VTK files. program example3_surface use forcad implicit none type ( nurbs_surface ) :: nurbs !! Declare a NURBS surface object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights real ( rk ) :: knot1 ( 6 ), knot2 ( 6 ) !! Arrays for knot vectors in both dimensions !----------------------------------------------------------------------------- ! Setting up the NURBS surface !----------------------------------------------------------------------------- !> Define control points for the NURBS surface Xc = generate_Xc ( 3 , 3 , 1.0_rk ) !> Define weights for the control points allocate ( Wc ( size ( Xc , 1 ))) Wc = 1.0_rk Wc ( 2 ) = 2.0_rk !> Define knot vectors for both dimensions knot1 = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] knot2 = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] !> Set knot vectors, control points, and weights for the NURBS surface object call nurbs % set ( knot1 , knot2 , Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export the control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_surface_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS surface !----------------------------------------------------------------------------- !> Generate the NURBS surface with resolutions of 30 in both dimensions call nurbs % create ( 30 , 30 ) !> Export the generated surface to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_surface_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_surface_Xc.vtk' , 'vtk/nurbs_surface_Xg.vtk' ) !----------------------------------------------------------------------------- ! Refinements !----------------------------------------------------------------------------- !> Print size of the knot vectors print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) !> Insert knots 0.25, twice and 0.75, once in both directions call nurbs % insert_knots ( 1 , [ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) ! direction 1 call nurbs % insert_knots ( 2 , [ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) ! direction 2 !> Print size of the knot vectors after inserting knots print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) !> Print the degrees print * , nurbs % get_degree () !> Elevate degree by 2 in both directions call nurbs % elevate_degree ( 1 , 2 ) ! direction 1 call nurbs % elevate_degree ( 2 , 2 ) ! direction 2 !> Print the degrees after elevating print * , nurbs % get_degree () !> Print size of the knot vectors print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) !> Remove knots 0.25, twice and 0.75, once in both directions call nurbs % remove_knots ( 1 , [ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) ! direction 1 call nurbs % remove_knots ( 2 , [ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) ! direction 2 !> Print size of the knot vectors after removing knots print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) !> Generate the refined NURBS surface with resolutions of 30 in both dimensions call nurbs % create () !> Export updated control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_surface_Xc2.vtk' ) !> Export the refined generated surface to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_surface_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_surface_Xc2.vtk' , 'vtk/nurbs_surface_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Transformations !----------------------------------------------------------------------------- !> Rotate the control points call nurbs % rotate_Xc ( alpha = 4 5.0_rk , beta = 0.0_rk , theta = 9 0.0_rk ) !> Rotate the generated curve call nurbs % rotate_Xg ( alpha =- 4 5.0_rk , beta = 0.0_rk , theta =- 9 0.0_rk ) !> Translate the control points call nurbs % translate_Xc ([ 1.0_rk , 2.0_rk , - 3.0_rk ]) !> Translate the generated curve call nurbs % translate_Xg ([ - 1.0_rk , - 2.0_rk , 3.0_rk ]) !> Export the transformed control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_surface_Xc3.vtk' ) !> Export the transformed generated volume to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_surface_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_surface_Xc3.vtk' , 'vtk/nurbs_surface_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS surface object call nurbs % finalize () contains !----------------------------------------------------------------------------- function generate_Xc ( num_rows , num_cols , peak_height ) result ( control_points ) integer , intent ( in ) :: num_rows , num_cols real ( rk ), intent ( in ) :: peak_height real ( rk ), allocatable :: control_points (:,:) integer :: i , j real ( rk ) :: x_spacing , y_spacing , x_offset , y_offset x_spacing = 1.0_rk / real ( num_cols - 1 , rk ) y_spacing = 1.0_rk / real ( num_rows - 1 , rk ) x_offset = - 0.5_rk y_offset = - 0.5_rk allocate ( control_points ( num_rows * num_cols , 3 )) do i = 1 , num_rows do j = 1 , num_cols control_points (( i - 1 ) * num_cols + j , 1 ) = x_offset + real ( j - 1 , rk ) * x_spacing control_points (( i - 1 ) * num_cols + j , 2 ) = y_offset + real ( i - 1 , rk ) * y_spacing control_points (( i - 1 ) * num_cols + j , 3 ) = & peak_height * exp ( - (( control_points (( i - 1 ) * num_cols + j , 1 ) ** 2 ) & + ( control_points (( i - 1 ) * num_cols + j , 2 ) ** 2 ))) + 0.5_rk * peak_height * 0.2_rk end do end do end function !----------------------------------------------------------------------------- end program example3_surface","tags":"","loc":"sourcefile/example_surface_1.f90.html"},{"title":"shape_C_1d.f90 – ForCAD","text":"This file depends on sourcefile~~shape_c_1d.f90~~EfferentGraph sourcefile~shape_c_1d.f90 shape_C_1d.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_c_1d.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_C_1d use forcad , only : rk , nurbs_curve implicit none type ( nurbs_curve ) :: shape !----------------------------------------------------------------------------- ! Setting up NURBS C-shape !----------------------------------------------------------------------------- !> Set a C-shape with radius 2.0 and center at [0.0, 0.0, 0.0] call shape % set_C ( center = [ 0.0_rk , 0.0_rk , 0.0_rk ], radius = 2.0_rk ) !> Export control points to a VTK file call shape % export_Xc ( 'vtk/shape_C_1d_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating C-shape !----------------------------------------------------------------------------- !> Generate the NURBS C-shape with a resolution of 100 call shape % create ( res = 100 ) !> Export the generated cirlce to a VTK file call shape % export_Xg ( 'vtk/shape_C_1d_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_C_1d_Xc.vtk' , 'vtk/shape_C_1d_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS curve object call shape % finalize () end program","tags":"","loc":"sourcefile/shape_c_1d.f90.html"},{"title":"forcad_nurbs_curve.f90 – ForCAD","text":"This file depends on sourcefile~~forcad_nurbs_curve.f90~~EfferentGraph sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Files dependent on this one sourcefile~~forcad_nurbs_curve.f90~~AfferentGraph sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~demo_curve.f90 demo_curve.f90 sourcefile~demo_curve.f90->sourcefile~forcad.f90 sourcefile~demo_surface.f90 demo_surface.f90 sourcefile~demo_surface.f90->sourcefile~forcad.f90 sourcefile~demo_volume.f90 demo_volume.f90 sourcefile~demo_volume.f90->sourcefile~forcad.f90 sourcefile~example_curve_1.f90 example_curve_1.f90 sourcefile~example_curve_1.f90->sourcefile~forcad.f90 sourcefile~example_ppm1.f90 example_ppm1.f90 sourcefile~example_ppm1.f90->sourcefile~forcad.f90 sourcefile~example_ppm2.f90 example_ppm2.f90 sourcefile~example_ppm2.f90->sourcefile~forcad.f90 sourcefile~example_ppm3.f90 example_ppm3.f90 sourcefile~example_ppm3.f90->sourcefile~forcad.f90 sourcefile~example_surface_1.f90 example_surface_1.f90 sourcefile~example_surface_1.f90->sourcefile~forcad.f90 sourcefile~example_volume_1.f90 example_volume_1.f90 sourcefile~example_volume_1.f90->sourcefile~forcad.f90 sourcefile~nearest_point_1d.f90 nearest_point_1d.f90 sourcefile~nearest_point_1d.f90->sourcefile~forcad.f90 sourcefile~nearest_point_2d.f90 nearest_point_2d.f90 sourcefile~nearest_point_2d.f90->sourcefile~forcad.f90 sourcefile~nearest_point_2d_bench.f90 nearest_point_2d_bench.f90 sourcefile~nearest_point_2d_bench.f90->sourcefile~forcad.f90 sourcefile~nearest_point_3d.f90 nearest_point_3d.f90 sourcefile~nearest_point_3d.f90->sourcefile~forcad.f90 sourcefile~put_to_nurbs.f90 put_to_nurbs.f90 sourcefile~put_to_nurbs.f90->sourcefile~forcad.f90 sourcefile~shape_c_1d.f90 shape_C_1d.f90 sourcefile~shape_c_1d.f90->sourcefile~forcad.f90 sourcefile~shape_c_2d.f90 shape_C_2d.f90 sourcefile~shape_c_2d.f90->sourcefile~forcad.f90 sourcefile~shape_c_3d.f90 shape_C_3d.f90 sourcefile~shape_c_3d.f90->sourcefile~forcad.f90 sourcefile~shape_circle.f90 shape_circle.f90 sourcefile~shape_circle.f90->sourcefile~forcad.f90 sourcefile~shape_half_circle.f90 shape_half_circle.f90 sourcefile~shape_half_circle.f90->sourcefile~forcad.f90 sourcefile~shape_half_ring_2d.f90 shape_half_ring_2d.f90 sourcefile~shape_half_ring_2d.f90->sourcefile~forcad.f90 sourcefile~shape_half_ring_3d.f90 shape_half_ring_3d.f90 sourcefile~shape_half_ring_3d.f90->sourcefile~forcad.f90 sourcefile~shape_hexahedron.f90 shape_hexahedron.f90 sourcefile~shape_hexahedron.f90->sourcefile~forcad.f90 sourcefile~shape_ring_2d.f90 shape_ring_2d.f90 sourcefile~shape_ring_2d.f90->sourcefile~forcad.f90 sourcefile~shape_ring_3d.f90 shape_ring_3d.f90 sourcefile~shape_ring_3d.f90->sourcefile~forcad.f90 sourcefile~shape_tetragon.f90 shape_tetragon.f90 sourcefile~shape_tetragon.f90->sourcefile~forcad.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> This module defines the 'nurbs_curve' type for representing a Non-Uniform Rational B-Spline (NURBS) curve. module forcad_nurbs_curve use forcad_utils , only : rk , basis_bspline , elemConn_C0 , compute_multiplicity , compute_knot_vector , basis_bspline_der ,& insert_knot_A_5_1 , findspan , elevate_degree_A_5_9 , remove_knots_A_5_8 , & elemConn_Cn , unique , rotation implicit none private public nurbs_curve !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause type nurbs_curve real ( rk ), allocatable , private :: Xc (:,:) !! Control points (2D array: [nc, dim]) real ( rk ), allocatable , private :: Xg (:,:) !! Geometry points (2D array: [ng, dim]) real ( rk ), allocatable , private :: Wc (:) !! Weights for control points (1D array: [nc]) real ( rk ), allocatable , private :: Xt (:) !! Evaluation points (1D array: [ng]) real ( rk ), allocatable , private :: knot (:) !! Knot vector (1D array) integer , private :: degree !! Degree (order) of the curve integer , private :: nc !! Number of control points integer , private :: ng !! Number of geometry points integer , allocatable , private :: elemConn_Xc_vis (:,:) !! Connectivity for visualization of control points integer , allocatable , private :: elemConn_Xg_vis (:,:) !! Connectivity for visualization of geometry points integer , allocatable , private :: elemConn (:,:) !! IGA element connectivity contains procedure :: set1 !!> Set knot vector, control points and weights for the NURBS curve object procedure :: set2 !!> Set NURBS curve using nodes of parameter space, degree, continuity, control points and weights procedure :: set3 !!> Set Bezier or Rational Bezier curve using control points and weights generic :: set => set1 , set2 , set3 !!> Set NURBS curve procedure :: create !!> Generate geometry points procedure , private :: get_Xc_all !!> Get all control points procedure , private :: get_Xci !!> Get i-th control point procedure , private :: get_Xcid !!> Get i-th control point in a specific direction generic :: get_Xc => get_Xc_all , get_Xci , get_Xcid !!> Get control points procedure , private :: get_Xg_all !!> Get all geometry points procedure , private :: get_Xgi !!> Get i-th geometry point procedure , private :: get_Xgid !!> Get i-th geometry point in a specific direction generic :: get_Xg => get_Xg_all , get_Xgi , get_Xgid !!> Get geometry points procedure , private :: get_Wc_all !!> Get all weights procedure , private :: get_Wci !!> Get i-th weight generic :: get_Wc => get_Wc_all , get_Wci !!> Get weights procedure :: get_Xt !!> Get parameter values procedure , private :: get_knot_all !!> Get all knot vectors procedure , private :: get_knoti !!> Get i-th knot value generic :: get_knot => get_knoti , get_knot_all !!> Get knot vector procedure :: get_ng !!> Get number of geometry points procedure :: cmp_degree !!> Compute degree of the NURBS curve procedure :: get_degree !!> Get degree of the NURBS curve procedure :: finalize !!> Finalize the NURBS curve object procedure :: cmp_elem_Xc_vis !!> Generate connectivity for control points procedure :: cmp_elem_Xg_vis !!> Generate connectivity for geometry points procedure :: cmp_elem !!> Generate IGA element connectivity procedure :: get_elem_Xc_vis !!> Get connectivity for control points procedure :: get_elem_Xg_vis !!> Get connectivity for geometry points procedure :: get_elem !!> Get IGA element connectivity procedure :: set_elem_Xc_vis !!> Set connectivity for control points procedure :: set_elem_Xg_vis !!> Set connectivity for geometry points procedure :: set_elem !!> Set IGA element connectivity procedure :: export_Xc !!> Export control points to VTK file procedure :: export_Xg !!> Export geometry points to VTK file procedure :: modify_Xc !!> Modify control points procedure :: modify_Wc !!> Modify weights procedure :: get_multiplicity !!> Compute and return the multiplicity of the knots procedure :: get_continuity !!> Compute and return the continuity of the curve procedure :: cmp_nc !!> Compute number of required control points procedure :: get_nc !!> Get number of control points procedure :: insert_knots !!> Insert knots into the knot vector procedure :: elevate_degree !!> Elevate the degree of the curve procedure :: derivative !!> Compute the derivative of the NURBS curve procedure :: basis !!> Compute the basis functions of the NURBS curve procedure :: is_rational !!> Check if the NURBS curve is rational procedure :: remove_knots !!> Remove knots from the knot vector procedure :: rotate_Xc !!> Rotate control points procedure :: rotate_Xg !!> Rotate geometry points procedure :: translate_Xc !!> Translate control points procedure :: translate_Xg !!> Translate geometry points procedure :: show !!> Show the NURBS object using PyVista procedure :: nearest_point !!> Find the nearest point on the NURBS curve ! Shapes procedure :: set_circle !!> Set a circle procedure :: set_half_circle !!> Set a half circle procedure :: set_C !!> Set a C-shape end type !=============================================================================== contains !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> Set knot vector, control points and weights for the NURBS curve object. pure subroutine set1 ( this , knot , Xc , Wc ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: knot (:) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) if ( allocated ( this % knot )) deallocate ( this % knot ) if ( allocated ( this % Xc )) deallocate ( this % Xc ) this % knot = knot call this % cmp_degree () this % Xc = Xc this % nc = size ( this % Xc , 1 ) if ( present ( Wc )) then if ( size ( Wc ) /= this % nc ) then error stop 'Number of weights does not match the number of control points.' else if ( allocated ( this % Wc )) deallocate ( this % Wc ) this % Wc = Wc end if end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> Set NURBS curve using nodes of parameter space (Xth), degree, continuity, control points and weights. pure subroutine set2 ( this , Xth_dir , degree , continuity , Xc , Wc ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: Xth_dir (:) integer , intent ( in ) :: degree integer , intent ( in ), contiguous :: continuity (:) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) if ( allocated ( this % knot )) deallocate ( this % knot ) if ( allocated ( this % Xc )) deallocate ( this % Xc ) this % knot = compute_knot_vector ( Xth_dir , degree , continuity ) this % degree = degree this % Xc = Xc this % nc = size ( this % Xc , 1 ) if ( present ( Wc )) then if ( size ( Wc ) /= this % nc ) then error stop 'Number of weights does not match the number of control points.' else if ( allocated ( this % Wc )) deallocate ( this % Wc ) this % Wc = Wc end if end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> Set Bezier or Rational Bezier curve using control points and weights. pure subroutine set3 ( this , Xc , Wc ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) if ( allocated ( this % knot )) deallocate ( this % knot ) if ( allocated ( this % Xc )) deallocate ( this % Xc ) this % Xc = Xc this % nc = size ( this % Xc , 1 ) if ( allocated ( this % knot )) deallocate ( this % knot ) allocate ( this % knot ( 2 * this % nc )) this % knot ( 1 : this % nc ) = 0.0_rk this % knot ( this % nc + 1 : 2 * this % nc ) = 1.0_rk call this % cmp_degree () if ( present ( Wc )) then if ( size ( Wc ) /= this % nc ) then error stop 'Number of weights does not match the number of control points.' else if ( allocated ( this % Wc )) deallocate ( this % Wc ) this % Wc = Wc end if end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine create ( this , res , Xt ) class ( nurbs_curve ), intent ( inout ) :: this integer , intent ( in ), optional :: res real ( rk ), intent ( in ), contiguous , optional :: Xt (:) integer :: i interface pure function compute_Xg_nurbs_1d ( f_Xt , f_knot , f_degree , f_nc , f_ng , f_Xc , f_Wc ) result ( f_Xg ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:) real ( rk ), intent ( in ), contiguous :: f_knot (:) integer , intent ( in ) :: f_degree integer , intent ( in ) :: f_nc integer , intent ( in ) :: f_ng real ( rk ), intent ( in ), contiguous :: f_Xc (:,:) real ( rk ), intent ( in ), contiguous :: f_Wc (:) real ( rk ), allocatable :: f_Xg (:,:) end function end interface interface pure function compute_Xg_bspline_1d ( f_Xt , f_knot , f_degree , f_nc , f_ng , f_Xc ) result ( f_Xg ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:) real ( rk ), intent ( in ), contiguous :: f_knot (:) integer , intent ( in ) :: f_degree integer , intent ( in ) :: f_nc integer , intent ( in ) :: f_ng real ( rk ), intent ( in ), contiguous :: f_Xc (:,:) real ( rk ), allocatable :: f_Xg (:,:) end function end interface ! check if (. not . allocated ( this % Xc )) then error stop 'Control points are not set.' end if if (. not . allocated ( this % knot )) then error stop 'Knot vector is not set.' end if ! Set parameter values if ( present ( Xt )) then if ( allocated ( this % Xt )) deallocate ( this % Xt ) this % Xt = Xt elseif ( present ( res )) then if ( allocated ( this % Xt )) deallocate ( this % Xt ) allocate ( this % Xt ( res )) this % Xt = [( real ( i - 1 , rk ) / real ( res - 1 , rk ), i = 1 , res )] ! else ! this%Xt = this%Xt end if ! Set number of geometry points this % ng = size ( this % Xt ) ! Allocate memory for geometry points if ( allocated ( this % Xg )) deallocate ( this % Xg ) if ( this % is_rational ()) then ! NURBS this % Xg = compute_Xg_nurbs_1d (& this % Xt , this % knot , this % degree , this % nc , this % ng , this % Xc , this % Wc ) else ! B-Spline this % Xg = compute_Xg_bspline_1d (& this % Xt , this % knot , this % degree , this % nc , this % ng , this % Xc ) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xc_all ( this ) result ( Xc ) class ( nurbs_curve ), intent ( in ) :: this real ( rk ), allocatable :: Xc (:,:) if ( allocated ( this % Xc )) then Xc = this % Xc else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xci ( this , n ) result ( Xc ) class ( nurbs_curve ), intent ( in ) :: this integer , intent ( in ) :: n real ( rk ), allocatable :: Xc (:) if ( allocated ( this % Xc )) then if ( n < lbound ( this % Xc , 1 ) . or . n > ubound ( this % Xc , 1 )) then error stop 'Invalid index for control points.' end if Xc = this % Xc ( n ,:) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xcid ( this , n , dir ) result ( Xc ) class ( nurbs_curve ), intent ( in ) :: this integer , intent ( in ) :: n integer , intent ( in ) :: dir real ( rk ) :: Xc if ( allocated ( this % Xc )) then if ( n < lbound ( this % Xc , 1 ) . or . n > ubound ( this % Xc , 1 )) then error stop 'Invalid index for control points.' end if if ( dir < lbound ( this % Xc , 2 ) . or . dir > ubound ( this % Xc , 2 )) then error stop 'Invalid index for control points.' end if Xc = this % Xc ( n , dir ) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xg_all ( this ) result ( Xg ) class ( nurbs_curve ), intent ( in ) :: this real ( rk ), allocatable :: Xg (:,:) if ( allocated ( this % Xg )) then Xg = this % Xg else error stop 'Geometry points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xgi ( this , n ) result ( Xg ) class ( nurbs_curve ), intent ( in ) :: this integer , intent ( in ) :: n real ( rk ), allocatable :: Xg (:) if ( allocated ( this % Xg )) then if ( n < lbound ( this % Xg , 1 ) . or . n > ubound ( this % Xg , 1 )) then error stop 'Invalid index for geometry points.' end if Xg = this % Xg ( n ,:) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xgid ( this , n , dir ) result ( Xg ) class ( nurbs_curve ), intent ( in ) :: this integer , intent ( in ) :: n integer , intent ( in ) :: dir real ( rk ) :: Xg if ( allocated ( this % Xg )) then if ( n < lbound ( this % Xg , 1 ) . or . n > ubound ( this % Xg , 1 )) then error stop 'Invalid index for geometry points.' end if if ( dir < lbound ( this % Xg , 2 ) . or . dir > ubound ( this % Xg , 2 )) then error stop 'Invalid index for geometry points.' end if Xg = this % Xg ( n , dir ) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Wc_all ( this ) result ( Wc ) class ( nurbs_curve ), intent ( in ) :: this real ( rk ), allocatable :: Wc (:) if ( allocated ( this % Wc )) then Wc = this % Wc else error stop 'The NURBS curve is not rational or weights are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Wci ( this , n ) result ( Wc ) class ( nurbs_curve ), intent ( in ) :: this integer , intent ( in ) :: n real ( rk ) :: Wc if ( allocated ( this % Wc )) then if ( n < lbound ( this % Wc , 1 ) . or . n > ubound ( this % Wc , 1 )) then error stop 'Invalid index for weights.' end if Wc = this % Wc ( n ) else error stop 'The NURBS curve is not rational or weights are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xt ( this ) result ( Xt ) class ( nurbs_curve ), intent ( in ) :: this real ( rk ), allocatable :: Xt (:) if ( allocated ( this % Xt )) then Xt = this % Xt else error stop 'Parameter values are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_ng ( this ) result ( ng ) class ( nurbs_curve ), intent ( in ) :: this integer :: ng ng = this % ng end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine cmp_degree ( this ) class ( nurbs_curve ), intent ( inout ) :: this integer , allocatable :: m (:) m = this % get_multiplicity () this % degree = m ( 1 ) - 1 end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_degree ( this ) result ( degree ) class ( nurbs_curve ), intent ( in ) :: this integer :: degree degree = this % degree end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_knot_all ( this ) result ( knot ) class ( nurbs_curve ), intent ( in ) :: this real ( rk ), allocatable :: knot (:) if ( allocated ( this % knot )) then knot = this % knot else error stop 'Knot vector is not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_knoti ( this , i ) result ( knot ) class ( nurbs_curve ), intent ( in ) :: this integer , intent ( in ) :: i real ( rk ) :: knot if ( allocated ( this % knot )) then if ( i < 1 . or . i > size ( this % knot )) then error stop 'Invalid index for knot vector.' else knot = this % knot ( i ) end if else error stop 'Knot vector is not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine finalize ( this ) class ( nurbs_curve ), intent ( inout ) :: this if ( allocated ( this % Xc )) deallocate ( this % Xc ) if ( allocated ( this % Xg )) deallocate ( this % Xg ) if ( allocated ( this % Wc )) deallocate ( this % Wc ) if ( allocated ( this % Xt )) deallocate ( this % Xt ) if ( allocated ( this % knot )) deallocate ( this % knot ) if ( allocated ( this % elemConn_Xc_vis )) deallocate ( this % elemConn_Xc_vis ) if ( allocated ( this % elemConn_Xg_vis )) deallocate ( this % elemConn_Xg_vis ) if ( allocated ( this % elemConn )) deallocate ( this % elemConn ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elem_Xc_vis ( this , p ) result ( elemConn ) class ( nurbs_curve ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) integer , intent ( in ), optional :: p if ( present ( p )) then elemConn = elemConn_C0 ( this % nc , p ) else elemConn = elemConn_C0 ( this % nc , 1 ) end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elem_Xg_vis ( this , p ) result ( elemConn ) class ( nurbs_curve ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) integer , intent ( in ), optional :: p if ( present ( p )) then elemConn = elemConn_C0 ( this % ng , p ) else elemConn = elemConn_C0 ( this % ng , 1 ) end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure subroutine export_Xc ( this , filename ) class ( nurbs_curve ), intent ( in ) :: this character ( len =* ), intent ( in ) :: filename integer :: i , nc , nunit integer , allocatable :: elemConn (:,:) ! check if (. not . allocated ( this % Xc )) then error stop 'Control points are not set.' end if if (. not . allocated ( this % elemConn_Xc_vis )) then elemConn = this % cmp_elem_Xc_vis () else elemConn = this % elemConn_Xc_vis end if nc = size ( this % Xc , 1 ) open ( newunit = nunit , file = filename , action = 'write' ) write ( nunit , '(a)' ) '# vtk DataFile Version 2.0' write ( nunit , '(a)' ) 'Generated by ForCAD' write ( nunit , '(a)' ) 'ASCII' write ( nunit , '(a)' ) 'DATASET UNSTRUCTURED_GRID' write ( nunit , '(a,\" \",g0,\" \",a)' ) 'POINTS' , nc , 'double' if ( size ( this % Xc , 2 ) == 2 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xc ( i , 1 ), this % Xc ( i , 2 ), 0.0_rk , i = 1 , nc ) elseif ( size ( this % Xc , 2 ) == 3 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xc ( i , 1 ), this % Xc ( i , 2 ), this % Xc ( i , 3 ) , i = 1 , nc ) else error stop 'Invalid dimension of the control points.' end if write ( nunit , '(a,\" \",g0,\" \",g0)' ) 'CELLS' , size ( elemConn , 1 ), size ( elemConn , 1 ) * ( size ( elemConn , 2 ) + 1 ) write ( nunit , '(g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0)' )& ( 2 , elemConn ( i , 1 ) - 1 , elemConn ( i , 2 ) - 1 , i = 1 , size ( elemConn , 1 )) write ( nunit , '(a,\" \",g0)' ) 'CELL_TYPES' , size ( elemConn , 1 ) write ( nunit , '(g0)' ) ( 3 , i = 1 , size ( elemConn , 1 )) close ( nunit ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure subroutine export_Xg ( this , filename ) class ( nurbs_curve ), intent ( in ) :: this character ( len =* ), intent ( in ) :: filename integer :: i , ng , nunit integer , allocatable :: elemConn (:,:) ! check if (. not . allocated ( this % Xg )) then error stop 'Geometry points are not set.' end if if (. not . allocated ( this % elemConn_Xg_vis )) then elemConn = this % cmp_elem_Xg_vis () else elemConn = this % elemConn_Xg_vis end if ng = size ( this % Xg , 1 ) open ( newunit = nunit , file = filename , action = 'write' ) write ( nunit , '(a)' ) '# vtk DataFile Version 2.0' write ( nunit , '(a)' ) 'Generated by ForCAD' write ( nunit , '(a)' ) 'ASCII' write ( nunit , '(a)' ) 'DATASET UNSTRUCTURED_GRID' write ( nunit , '(a,\" \",g0,\" \",a)' ) 'POINTS' , ng , 'double' if ( size ( this % Xg , 2 ) == 2 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xg ( i , 1 ), this % Xg ( i , 2 ), 0.0_rk , i = 1 , ng ) elseif ( size ( this % Xg , 2 ) == 3 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xg ( i , 1 ), this % Xg ( i , 2 ), this % Xg ( i , 3 ) , i = 1 , ng ) else error stop 'Invalid dimension of the geometry points.' end if write ( nunit , '(a,\" \",g0,\" \",g0)' ) 'CELLS' , size ( elemConn , 1 ), size ( elemConn , 1 ) * ( size ( elemConn , 2 ) + 1 ) write ( nunit , '(g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0)' )& ( 2 , elemConn ( i , 1 ) - 1 , elemConn ( i , 2 ) - 1 , i = 1 , size ( elemConn , 1 )) write ( nunit , '(a,\" \",g0)' ) 'CELL_TYPES' , size ( elemConn , 1 ) write ( nunit , '(g0)' ) ( 3 , i = 1 , size ( elemConn , 1 )) close ( nunit ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine modify_Xc ( this , X , num , dir ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ) :: X integer , intent ( in ) :: num integer , intent ( in ) :: dir if ( allocated ( this % Xc )) then this % Xc ( num , dir ) = X if ( allocated ( this % Wc )) then call this % set ( knot = this % get_knot (), Xc = this % get_Xc (), Wc = this % get_Wc ()) else call this % set ( knot = this % get_knot (), Xc = this % get_Xc ()) end if else error stop 'Control points are not set.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine modify_Wc ( this , W , num ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ) :: W integer , intent ( in ) :: num if ( allocated ( this % Wc )) then this % Wc ( num ) = W if ( allocated ( this % knot )) then call this % set ( knot = this % get_knot (), Xc = this % get_Xc (), Wc = this % get_Wc ()) else call this % set ( Xc = this % get_Xc (), Wc = this % get_Wc ()) end if else error stop 'The NURBS curve is not rational.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_multiplicity ( this ) result ( m ) class ( nurbs_curve ), intent ( in ) :: this integer , allocatable :: m (:) ! check if (. not . allocated ( this % knot )) then error stop 'Knot vector is not set.' else m = compute_multiplicity ( this % knot ) end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_continuity ( this ) result ( c ) class ( nurbs_curve ), intent ( in ) :: this integer , allocatable :: c (:) ! check if (. not . allocated ( this % knot )) then error stop 'Knot vector is not set.' else c = this % degree - compute_multiplicity ( this % knot ) end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine cmp_nc ( this ) class ( nurbs_curve ), intent ( inout ) :: this this % nc = sum ( compute_multiplicity ( this % knot )) - this % degree - 1 end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_nc ( this ) result ( nc ) class ( nurbs_curve ), intent ( in ) :: this integer :: nc nc = this % nc end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine insert_knots ( this , Xth , r ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: Xth (:) integer , intent ( in ), contiguous :: r (:) integer :: k , i , s , dim , j , n_new real ( rk ), allocatable :: Xcw (:,:), Xcw_new (:,:), Xc_new (:,:), Wc_new (:), knot_new (:) if ( this % is_rational ()) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc - 1 , this % degree , Xth ( i ), this % knot ) if ( this % knot ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) call insert_knot_A_5_1 (& this % degree ,& this % knot ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xcw_new ) allocate ( Xc_new ( 1 : n_new + 1 , 1 : dim )) allocate ( Wc_new ( 1 : n_new + 1 )) do j = 1 , n_new + 1 Xc_new ( j , 1 : dim ) = Xcw_new ( j - 1 , 1 : dim ) / Xcw_new ( j - 1 , dim + 1 ) Wc_new ( j ) = Xcw_new ( j - 1 , dim + 1 ) end do call this % set ( knot = knot_new , Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc - 1 , this % degree , Xth ( i ), this % knot ) if ( this % knot ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot , Xth ( i )) else s = 0 end if call insert_knot_A_5_1 (& this % degree ,& this % knot ,& this % Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xc_new ) call this % set ( knot = knot_new , Xc = Xc_new ) end do end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine elevate_degree ( this , t ) class ( nurbs_curve ), intent ( inout ) :: this integer , intent ( in ) :: t real ( rk ), allocatable :: Xcw (:,:), Xcw_new (:,:), knot_new (:), Xc_new (:,:), Wc_new (:) integer :: dim , j , nc_new if ( this % is_rational ()) then ! NURBS dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) Xcw ( j , dim + 1 ) = this % Wc ( j ) end do call elevate_degree_A_5_9 ( t , this % knot , this % degree , Xcw , nc_new , knot_new , Xcw_new ) allocate ( Xc_new ( 1 : nc_new , 1 : dim )) allocate ( Wc_new ( 1 : nc_new )) do j = 1 , nc_new Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot = knot_new , Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) else ! B-Spline dim = size ( this % Xc , 2 ) call elevate_degree_A_5_9 ( t , this % knot , this % degree , this % Xc , nc_new , knot_new , Xc_new ) call this % set ( knot = knot_new , Xc = Xc_new ) deallocate ( Xc_new ) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine derivative ( this , res , Xt , dTgc ) class ( nurbs_curve ), intent ( inout ) :: this integer , intent ( in ), optional :: res real ( rk ), intent ( in ), contiguous , optional :: Xt (:) real ( rk ), allocatable , intent ( out ) :: dTgc (:,:) integer :: i interface pure function compute_dTgc_nurbs_1d ( f_Xt , f_knot , f_degree , f_nc , f_ng , f_Wc ) result ( f_dTgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:) real ( rk ), intent ( in ), contiguous :: f_knot (:) integer , intent ( in ) :: f_degree integer , intent ( in ) :: f_nc integer , intent ( in ) :: f_ng real ( rk ), intent ( in ), contiguous :: f_Wc (:) real ( rk ), allocatable :: f_dTgc (:,:) end function end interface interface pure function compute_dTgc_bspline_1d ( f_Xt , f_knot , f_degree , f_nc , f_ng ) result ( f_dTgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:) real ( rk ), intent ( in ), contiguous :: f_knot (:) integer , intent ( in ) :: f_degree integer , intent ( in ) :: f_nc integer , intent ( in ) :: f_ng real ( rk ), allocatable :: f_dTgc (:,:) end function end interface ! Set parameter values if ( present ( Xt )) then if ( allocated ( this % Xt )) deallocate ( this % Xt ) this % Xt = Xt elseif ( present ( res )) then if ( allocated ( this % Xt )) deallocate ( this % Xt ) allocate ( this % Xt ( res )) this % Xt = [( real ( i - 1 , rk ) / real ( res - 1 , rk ), i = 1 , res )] ! else ! this%Xt = this%Xt end if ! Set number of geometry points this % ng = size ( this % Xt , 1 ) if ( this % is_rational ()) then ! NURBS dTgc = compute_dTgc_nurbs_1d ( this % Xt , this % knot , this % degree , this % nc , this % ng , this % Wc ) else ! B-Spline dTgc = compute_dTgc_bspline_1d ( this % Xt , this % knot , this % degree , this % nc , this % ng ) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine basis ( this , res , Xt , Tgc ) class ( nurbs_curve ), intent ( inout ) :: this integer , intent ( in ), optional :: res real ( rk ), intent ( in ), contiguous , optional :: Xt (:) real ( rk ), allocatable , intent ( out ) :: Tgc (:,:) integer :: i interface pure function compute_Tgc_nurbs_1d ( f_Xt , f_knot , f_degree , f_nc , f_ng , f_Wc ) result ( f_Tgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:) real ( rk ), intent ( in ), contiguous :: f_knot (:) integer , intent ( in ) :: f_degree integer , intent ( in ) :: f_nc integer , intent ( in ) :: f_ng real ( rk ), intent ( in ), contiguous :: f_Wc (:) real ( rk ), allocatable :: f_Tgc (:,:) end function end interface interface pure function compute_Tgc_bspline_1d ( f_Xt , f_knot , f_degree , f_nc , f_ng ) result ( f_Tgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:) real ( rk ), intent ( in ), contiguous :: f_knot (:) integer , intent ( in ) :: f_degree integer , intent ( in ) :: f_nc integer , intent ( in ) :: f_ng real ( rk ), allocatable :: f_Tgc (:,:) end function end interface ! Set parameter values if ( present ( Xt )) then if ( allocated ( this % Xt )) deallocate ( this % Xt ) this % Xt = Xt elseif ( present ( res )) then if ( allocated ( this % Xt )) deallocate ( this % Xt ) allocate ( this % Xt ( res )) this % Xt = [( real ( i - 1 , rk ) / real ( res - 1 , rk ), i = 1 , res )] ! else ! this%Xt = this%Xt end if ! Set number of geometry points this % ng = size ( this % Xt , 1 ) if ( this % is_rational ()) then ! NURBS Tgc = compute_Tgc_nurbs_1d ( this % Xt , this % knot , this % degree , this % nc , this % ng , this % Wc ) else ! B-Spline Tgc = compute_Tgc_bspline_1d ( this % Xt , this % knot , this % degree , this % nc , this % ng ) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function is_rational ( this ) result ( r ) class ( nurbs_curve ), intent ( in ) :: this logical :: r r = . false . if ( allocated ( this % Wc )) then if ( any ( this % Wc /= this % Wc ( 1 ))) then r = . true . end if end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_elem_Xc_vis ( this , elemConn ) class ( nurbs_curve ), intent ( inout ) :: this integer , intent ( in ), contiguous :: elemConn (:,:) if ( allocated ( this % elemConn_Xc_vis )) deallocate ( this % elemConn_Xc_vis ) this % elemConn_Xc_vis = elemConn end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_elem_Xg_vis ( this , elemConn ) class ( nurbs_curve ), intent ( inout ) :: this integer , intent ( in ), contiguous :: elemConn (:,:) if ( allocated ( this % elemConn_Xg_vis )) deallocate ( this % elemConn_Xg_vis ) this % elemConn_Xg_vis = elemConn end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_elem ( this , elemConn ) class ( nurbs_curve ), intent ( inout ) :: this integer , intent ( in ), contiguous :: elemConn (:,:) if ( allocated ( this % elemConn )) deallocate ( this % elemConn ) this % elemConn = elemConn end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_elem_Xc_vis ( this ) result ( elemConn ) class ( nurbs_curve ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) elemConn = this % elemConn_Xc_vis end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_elem_Xg_vis ( this ) result ( elemConn ) class ( nurbs_curve ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) elemConn = this % elemConn_Xg_vis end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_elem ( this ) result ( elemConn ) class ( nurbs_curve ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) elemConn = this % elemConn end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine remove_knots ( this , Xth , r ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: Xth (:) integer , intent ( in ), contiguous :: r (:) integer :: k , i , s , dim , j , nc_new , t real ( rk ), allocatable :: Xcw (:,:), Xcw_new (:,:), Xc_new (:,:), Wc_new (:), knot_new (:) if ( this % is_rational ()) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc - 1 , this % degree , Xth ( i ), this % knot ) if ( this % knot ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) call remove_knots_A_5_8 (& this % degree ,& this % knot ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xcw_new ) if ( allocated ( Xcw )) deallocate ( Xcw ) if ( t == 0 ) then ! no change else nc_new = size ( Xcw_new , 1 ) allocate ( Xc_new ( nc_new , dim )) allocate ( Wc_new ( nc_new )) do j = 1 , nc_new Xc_new ( j ,:) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot = knot_new , Xc = Xc_new , Wc = Wc_new ) if ( allocated ( Xcw_new )) deallocate ( Xcw_new ) if ( allocated ( Xc_new )) deallocate ( Xc_new ) if ( allocated ( Wc_new )) deallocate ( Wc_new ) end if end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc - 1 , this % degree , Xth ( i ), this % knot ) if ( this % knot ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot , Xth ( i )) else s = 0 end if k = k + 1 call remove_knots_A_5_8 (& this % degree ,& this % knot ,& this % Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xc_new ) if ( t == 0 ) then ! no change else call this % set ( knot = knot_new , Xc = Xc_new ) end if end do end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_circle ( this , center , radius ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: center (:) real ( rk ), intent ( in ) :: radius real ( rk ), allocatable :: Xc (:,:), Wc (:), knot (:) integer :: i ! Define control points for circle allocate ( Xc ( 7 , 3 )) Xc ( 1 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 3 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 4 ,:) = [ - 2.0_rk , 0.0_rk , 0.0_rk ] Xc ( 5 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 6 ,:) = [ 1.0_rk , - sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 7 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] ! Scale and translate the control points do i = 1 , size ( Xc , 1 ) Xc ( i ,:) = center + Xc ( i ,:) * radius end do ! Define weights for the control points Wc = [ 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ] ! Define knot vector knot = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk / 3.0_rk , 1.0_rk / 3.0_rk , 2.0_rk / 3.0_rk , 2.0_rk / 3.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] ! Set knot vector, control points, and weights call this % set ( knot , Xc , Wc ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_C ( this , center , radius ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: center (:) real ( rk ), intent ( in ) :: radius real ( rk ), allocatable :: Xc (:,:), Wc (:), knot (:) integer :: i ! Define control points for C-shape allocate ( Xc ( 5 , 3 )) Xc ( 1 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 3 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 4 ,:) = [ - 2.0_rk , 0.0_rk , 0.0_rk ] Xc ( 5 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] ! Scale and translate the control points do i = 1 , size ( Xc , 1 ) Xc ( i ,:) = center + Xc ( i ,:) * radius end do ! Define weights for the control points Wc = [ 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ] ! Define knot vector knot = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk / 2.0_rk , 1.0_rk / 2.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] ! Set knot vector, control points, and weights call this % set ( knot , Xc , Wc ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elem ( this ) result ( elemConn ) class ( nurbs_curve ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) call elemConn_Cn ( this % nc , this % degree , unique ( this % knot ), this % get_multiplicity (),& elemConn ) end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine rotate_Xc ( this , alpha , beta , theta ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ) :: alpha , beta , theta integer :: i do i = 1 , this % nc this % Xc ( i , :) = matmul ( rotation ( alpha , beta , theta ), this % Xc ( i , :)) end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine rotate_Xg ( this , alpha , beta , theta ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ) :: alpha , beta , theta integer :: i do i = 1 , this % ng this % Xg ( i , :) = matmul ( rotation ( alpha , beta , theta ), this % Xg ( i , :)) end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine translate_Xc ( this , vec ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ) :: vec (:) integer :: i do i = 1 , this % nc this % Xc ( i , :) = this % Xc ( i , :) + vec end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine translate_Xg ( this , vec ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ) :: vec (:) integer :: i do i = 1 , this % nc this % Xg ( i , :) = this % Xg ( i , :) + vec end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure subroutine show ( this , vtkfile_Xc , vtkfile_Xg ) class ( nurbs_curve ), intent ( inout ) :: this character ( len =* ), intent ( in ) :: vtkfile_Xc , vtkfile_Xg character ( len = 3000 ) :: pyvista_script pyvista_script = & \"import pyvista as pv\" // achar ( 10 ) // & \"pv.global_theme.color = 'white'\" // achar ( 10 ) // & \"Xc = pv.read('\" // trim ( vtkfile_Xc ) // \"')\" // achar ( 10 ) // & \"Xg = pv.read('\" // trim ( vtkfile_Xg ) // \"')\" // achar ( 10 ) // & \"p = pv.Plotter(lighting='light kit')\" // achar ( 10 ) // & \"actor_Xcp = p.add_mesh(\" // achar ( 10 ) // & \" Xc,\" // achar ( 10 ) // & \" style='points',\" // achar ( 10 ) // & \" point_size=10,\" // achar ( 10 ) // & \" color='red',\" // achar ( 10 ) // & \" render_points_as_spheres=True,\" // achar ( 10 ) // & \" opacity=0.5,\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"actor_Xcw = p.add_mesh(\" // achar ( 10 ) // & \" Xc,\" // achar ( 10 ) // & \" show_edges=True,\" // achar ( 10 ) // & \" color='yellow',\" // achar ( 10 ) // & \" line_width=3,\" // achar ( 10 ) // & \" style='wireframe',\" // achar ( 10 ) // & \" opacity=0.2\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"actor_Xg = p.add_mesh(\" // achar ( 10 ) // & \" Xg,\" // achar ( 10 ) // & \" show_edges=False,\" // achar ( 10 ) // & \" color='cyan',\" // achar ( 10 ) // & \" line_width=7,\" // achar ( 10 ) // & \" metallic=0.6,\" // achar ( 10 ) // & \" pbr=True,\" // achar ( 10 ) // & \" split_sharp_edges=True,\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_axes(interactive=False)\" // achar ( 10 ) // & \"def point_picker_callback(point):\" // achar ( 10 ) // & \" mesh = Xc\" // achar ( 10 ) // & \" point_id = mesh.find_closest_point(point)\" // achar ( 10 ) // & \" point_coords = mesh.points[point_id]\" // achar ( 10 ) // & \" label = f'ID: {point_id + 1}\\n({point_coords[0]:.3f}, {point_coords[1]:.3f}, {point_coords[2]:.3f})'\" // achar ( 10 ) // & \" p.add_point_labels(\" // achar ( 10 ) // & \" [point_coords],\" // achar ( 10 ) // & \" [label],\" // achar ( 10 ) // & \" font_size=14,\" // achar ( 10 ) // & \" text_color='black',\" // achar ( 10 ) // & \" show_points=False,\" // achar ( 10 ) // & \" fill_shape=False,\" // achar ( 10 ) // & \" shape=None,\" // achar ( 10 ) // & \" )\" // achar ( 10 ) // & \"picker = p.enable_point_picking(callback=point_picker_callback, show_message=False)\" // achar ( 10 ) // & \"window_size = p.window_size\" // achar ( 10 ) // & \"y_pos = window_size[1]\" // achar ( 10 ) // & \"def Xcp_toggle_vis(flag):\" // achar ( 10 ) // & \" actor_Xcp.SetVisibility(flag)\" // achar ( 10 ) // & \"def Xcw_toggle_vis(flag):\" // achar ( 10 ) // & \" actor_Xcw.SetVisibility(flag)\" // achar ( 10 ) // & \"def Xg_toggle_vis(flag):\" // achar ( 10 ) // & \" actor_Xg.SetVisibility(flag)\" // achar ( 10 ) // & \"p.add_checkbox_button_widget(\" // achar ( 10 ) // & \" Xcp_toggle_vis,\" // achar ( 10 ) // & \" value=True,\" // achar ( 10 ) // & \" color_on='red',\" // achar ( 10 ) // & \" size=25,\" // achar ( 10 ) // & \" position=(0, y_pos - 1 * 25),\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_checkbox_button_widget(\" // achar ( 10 ) // & \" Xcw_toggle_vis,\" // achar ( 10 ) // & \" value=True,\" // achar ( 10 ) // & \" color_on='yellow',\" // achar ( 10 ) // & \" size=25,\" // achar ( 10 ) // & \" position=(0, y_pos - 2 * 25),\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_checkbox_button_widget(\" // achar ( 10 ) // & \" Xg_toggle_vis,\" // achar ( 10 ) // & \" value=True,\" // achar ( 10 ) // & \" color_on='cyan',\" // achar ( 10 ) // & \" size=25,\" // achar ( 10 ) // & \" position=(0, y_pos - 3 * 25),\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'Xc (Points)',\" // achar ( 10 ) // & \" position=(25 + 3, y_pos - 1 * 25),\" // achar ( 10 ) // & \" font_size=8,\" // achar ( 10 ) // & \" color='black',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'Xc (Control geometry)',\" // achar ( 10 ) // & \" position=(25 + 3, y_pos - 2 * 25),\" // achar ( 10 ) // & \" font_size=8,\" // achar ( 10 ) // & \" color='black',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'Xg (Geometry)',\" // achar ( 10 ) // & \" position=(25 + 3, y_pos - 3 * 25),\" // achar ( 10 ) // & \" font_size=8,\" // achar ( 10 ) // & \" color='black',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text('ForCAD', position=(0.0, 10.0), font_size=14, color='black', font='times')\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'https://github.com/gha3mi/forcad',\" // achar ( 10 ) // & \" position=(0.0, 0.0),\" // achar ( 10 ) // & \" font_size=7,\" // achar ( 10 ) // & \" color='blue',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.show(title='ForCAD', interactive=True)\" call execute_command_line ( 'python -c \"' // trim ( adjustl ( pyvista_script )) // '\"' ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_half_circle ( this , center , radius ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: center (:) real ( rk ), intent ( in ) :: radius real ( rk ), allocatable :: Xc (:,:), Wc (:), knot (:) integer :: i ! Define control points for half circle allocate ( Xc ( 5 , 3 )) Xc ( 1 ,:) = [ 0.5_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 0.5_rk , 0.5_rk , 0.0_rk ] Xc ( 3 ,:) = [ 0.0_rk , 0.5_rk , 0.0_rk ] Xc ( 4 ,:) = [ - 0.5_rk , 0.5_rk , 0.0_rk ] Xc ( 5 ,:) = [ - 0.5_rk , 0.0_rk , 0.0_rk ] ! Scale and translate the control points do i = 1 , size ( Xc , 1 ) Xc ( i ,:) = center + Xc ( i ,:) * radius end do ! Define weights for the control points Wc = [ 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk ] ! Define knot vector knot = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk / 2.0_rk , & 1.0_rk / 2.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] ! Set knot vector, control points, and weights call this % set ( knot , Xc , Wc ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine nearest_point ( this , point_Xg , nearest_Xg , nearest_Xt , id ) class ( nurbs_curve ), intent ( in ) :: this real ( rk ), intent ( in ) :: point_Xg (:) real ( rk ), intent ( out ), allocatable , optional :: nearest_Xg (:) real ( rk ), intent ( out ), optional :: nearest_Xt integer , intent ( out ), optional :: id integer :: id_ real ( rk ), allocatable :: distances (:) interface pure function nearest_point_help_1d ( f_ng , f_Xg , f_point_Xg ) result ( f_distances ) import :: rk integer , intent ( in ) :: f_ng real ( rk ), intent ( in ), contiguous :: f_Xg (:,:) real ( rk ), intent ( in ), contiguous :: f_point_Xg (:) real ( rk ), allocatable :: f_distances (:) end function end interface allocate ( distances ( this % ng )) distances = nearest_point_help_1d ( this % ng , this % Xg , point_Xg ) id_ = minloc ( distances , dim = 1 ) if ( present ( id )) id = id_ if ( present ( nearest_Xg )) nearest_Xg = this % Xg ( id_ ,:) if ( present ( nearest_Xt )) nearest_Xt = this % Xt ( id_ ) end subroutine !=============================================================================== end module forcad_nurbs_curve !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Xg_nurbs_1d ( Xt , knot , degree , nc , ng , Xc , Wc ) result ( Xg ) use forcad_utils , only : rk , basis_bspline implicit none real ( rk ), intent ( in ), contiguous :: Xt (:) real ( rk ), intent ( in ), contiguous :: knot (:) integer , intent ( in ) :: degree integer , intent ( in ) :: nc integer , intent ( in ) :: ng real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous :: Wc (:) real ( rk ), allocatable :: Xg (:,:) real ( rk ), allocatable :: Tgc (:) integer :: i allocate ( Xg ( ng , size ( Xc , 2 ))) allocate ( Tgc ( nc )) !$OMP PARALLEL DO PRIVATE(Tgc) do i = 1 , ng Tgc = basis_bspline ( Xt ( i ), knot , nc , degree ) Tgc = Tgc * ( Wc / ( dot_product ( Tgc , Wc ))) Xg ( i ,:) = matmul ( Tgc , Xc ) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Xg_bspline_1d ( Xt , knot , degree , nc , ng , Xc ) result ( Xg ) use forcad_utils , only : rk , basis_bspline implicit none real ( rk ), intent ( in ), contiguous :: Xt (:) real ( rk ), intent ( in ), contiguous :: knot (:) integer , intent ( in ) :: degree integer , intent ( in ) :: nc integer , intent ( in ) :: ng real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), allocatable :: Xg (:,:) integer :: i allocate ( Xg ( ng , size ( Xc , 2 ))) !$OMP PARALLEL DO do i = 1 , ng Xg ( i ,:) = matmul ( basis_bspline ( Xt ( i ), knot , nc , degree ), Xc ) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_dTgc_nurbs_1d ( Xt , knot , degree , nc , ng , Wc ) result ( dTgc ) use forcad_utils , only : rk , basis_bspline_der implicit none real ( rk ), intent ( in ), contiguous :: Xt (:) real ( rk ), intent ( in ), contiguous :: knot (:) integer , intent ( in ) :: degree integer , intent ( in ) :: nc integer , intent ( in ) :: ng real ( rk ), intent ( in ), contiguous :: Wc (:) real ( rk ), allocatable :: dTgc (:,:) real ( rk ), allocatable :: dTgci (:) integer :: i allocate ( dTgc ( ng , nc )) !$OMP PARALLEL DO PRIVATE(dTgci) do i = 1 , size ( Xt ) dTgci = basis_bspline_der ( Xt ( i ), knot , nc , degree ) dTgci = dTgci * ( Wc / ( dot_product ( dTgci , Wc ))) dTgc ( i ,:) = dTgci end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_dTgc_bspline_1d ( Xt , knot , degree , nc , ng ) result ( dTgc ) use forcad_utils , only : rk , basis_bspline_der implicit none real ( rk ), intent ( in ), contiguous :: Xt (:) real ( rk ), intent ( in ), contiguous :: knot (:) integer , intent ( in ) :: degree integer , intent ( in ) :: nc integer , intent ( in ) :: ng real ( rk ), allocatable :: dTgc (:,:) integer :: i allocate ( dTgc ( ng , nc )) !$OMP PARALLEL DO do i = 1 , size ( Xt ) dTgc ( i ,:) = basis_bspline_der ( Xt ( i ), knot , nc , degree ) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Tgc_nurbs_1d ( Xt , knot , degree , nc , ng , Wc ) result ( Tgc ) use forcad_utils , only : rk , basis_bspline implicit none real ( rk ), intent ( in ), contiguous :: Xt (:) real ( rk ), intent ( in ), contiguous :: knot (:) integer , intent ( in ) :: degree integer , intent ( in ) :: nc integer , intent ( in ) :: ng real ( rk ), intent ( in ), contiguous :: Wc (:) real ( rk ), allocatable :: Tgc (:,:) real ( rk ), allocatable :: Tgci (:) integer :: i allocate ( Tgc ( ng , nc )) !$OMP PARALLEL DO PRIVATE(Tgci) do i = 1 , size ( Xt , 1 ) Tgci = basis_bspline ( Xt ( i ), knot , nc , degree ) Tgci = Tgci * ( Wc / ( dot_product ( Tgci , Wc ))) Tgc ( i ,:) = Tgci end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Tgc_bspline_1d ( Xt , knot , degree , nc , ng ) result ( Tgc ) use forcad_utils , only : rk , basis_bspline implicit none real ( rk ), intent ( in ), contiguous :: Xt (:) real ( rk ), intent ( in ), contiguous :: knot (:) integer , intent ( in ) :: degree integer , intent ( in ) :: nc integer , intent ( in ) :: ng real ( rk ), allocatable :: Tgc (:,:) integer :: i allocate ( Tgc ( ng , nc )) !$OMP PARALLEL DO do i = 1 , size ( Xt , 1 ) Tgc ( i ,:) = basis_bspline ( Xt ( i ), knot , nc , degree ) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function nearest_point_help_1d ( ng , Xg , point_Xg ) result ( distances ) use forcad_utils , only : rk implicit none integer , intent ( in ) :: ng real ( rk ), intent ( in ), contiguous :: Xg (:,:) real ( rk ), intent ( in ), contiguous :: point_Xg (:) real ( rk ), allocatable :: distances (:) integer :: i allocate ( distances ( ng )) !$OMP PARALLEL DO do i = 1 , ng distances ( i ) = norm2 ( Xg ( i ,:) - point_Xg ) end do !$OMP END PARALLEL DO end function !===============================================================================","tags":"","loc":"sourcefile/forcad_nurbs_curve.f90.html"},{"title":"shape_C_2d.f90 – ForCAD","text":"This file depends on sourcefile~~shape_c_2d.f90~~EfferentGraph sourcefile~shape_c_2d.f90 shape_C_2d.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_c_2d.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_C_2d use forcad , only : rk , nurbs_surface implicit none type ( nurbs_surface ) :: shape !----------------------------------------------------------------------------- ! Setting up NURBS C-shape !----------------------------------------------------------------------------- !> Set a C-shape with radius 2.0 and center at [0.0, 0.0, 0.0] call shape % set_C ( center = [ 0.0_rk , 0.0_rk , 0.0_rk ], radius1 = 1.0_rk , radius2 = 2.0_rk ) !> Export control points to a VTK file call shape % export_Xc ( 'vtk/shape_C_2d_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating C-shape !----------------------------------------------------------------------------- !> Generate the NURBS C-shape with a resolution of 100 call shape % create ( 100 , 60 ) !> Export the generated cirlce to a VTK file call shape % export_Xg ( 'vtk/shape_C_2d_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_C_2d_Xc.vtk' , 'vtk/shape_C_2d_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS curve object call shape % finalize () end program","tags":"","loc":"sourcefile/shape_c_2d.f90.html"},{"title":"nearest_point_2d.f90 – ForCAD","text":"This file depends on sourcefile~~nearest_point_2d.f90~~EfferentGraph sourcefile~nearest_point_2d.f90 nearest_point_2d.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~nearest_point_2d.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program nearest_point_2d use forcad , only : rk , nurbs_surface implicit none type ( nurbs_surface ) :: shape !! Declare a NURBS surface object real ( rk ), allocatable :: nearest_Xg (:) !! Coordinates of the nearest point on the surface real ( rk ), allocatable :: nearest_Xt (:) !! Corresponding parametric coordinates of the nearest point integer :: id !! id of the nearest point !----------------------------------------------------------------------------- ! Setting up the NURBS tetrangon !----------------------------------------------------------------------------- !> Set a tetragon with lengths of 2.0 and 3.0 and 3 and 4 control points in each direction !> The weights of the control points (Wc) are optional. call shape % set_tetragon ( L = [ 2.0_rk , 3.0_rk ], nc = [ 3 , 4 ]) !----------------------------------------------------------------------------- ! Creating the NURBS surface !----------------------------------------------------------------------------- !> Generate the NURBS surface with resolutions of 30 in both dimensions call shape % create ( 30 , 30 ) !----------------------------------------------------------------------------- ! Nearest point on the surface !----------------------------------------------------------------------------- !> Find the nearest point on the surface to a given point ! nearest_Xg: Coordinates of the nearest point on the surface (optional) ! nearest_Xt: Corresponding parametric coordinates of the nearest point (optional) ! id: id of the nearest point (optional) call shape % nearest_point ([ 2.0_rk , 3.0_rk , 5.0_rk ], nearest_Xg , nearest_Xt , id ) print * , 'Nearest point on the surface:' , nearest_Xg , 'with parametric coordinates:' , nearest_Xt , 'and id:' , id !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS surface object call shape % finalize () deallocate ( nearest_Xg , nearest_Xt ) end program","tags":"","loc":"sourcefile/nearest_point_2d.f90.html"},{"title":"example_ppm3.f90 – ForCAD","text":"This file depends on sourcefile~~example_ppm3.f90~~EfferentGraph sourcefile~example_ppm3.f90 example_ppm3.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~example_ppm3.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> Visualization of NURBS surfaces using ForCAD, ForImage and ForColorMap libraries !> This example converts NURBS surfaces (vector) to an image (raster) using ForCAD, ForImage and ForColorMap libraries. program example_ppm3 use forcad , only : rk , nurbs_surface use forimage , only : ik , format_pnm , color use forcolormap , only : colormap use fortime , only : timer implicit none type ( nurbs_surface ) :: shape type ( format_pnm ) :: image type ( color ) :: background_color type ( colormap ) :: cmap integer ( ik ), allocatable :: px (:, :) real ( rk ), allocatable :: Xg (:,:), z_values (:) real ( rk ) :: aspect_ratio integer :: height , width , ng ( 2 ), red , green , blue , res1 , res2 , i integer , allocatable :: idx (:,:) type ( timer ) :: t !----------------------------------------------------------------------------- ! Set the image size and calculate the aspect ratio !----------------------------------------------------------------------------- width = 2000 height = 2000 aspect_ratio = real ( width , rk ) / real ( height , rk ) allocate ( px ( height , 3 * width )) !----------------------------------------------------------------------------- ! Set the background color using ForColor class of ForImage !----------------------------------------------------------------------------- call t % timer_start () call background_color % set ( 'white' , use_library = . true .) do i = 1 , width px (:, 3 * ( i - 1 ) + 1 ) = background_color % get_r () px (:, 3 * ( i - 1 ) + 2 ) = background_color % get_g () px (:, 3 * ( i - 1 ) + 3 ) = background_color % get_b () end do call t % timer_stop ( message = 'Setting the background color' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () !> Set the shape parameters for a tetragon res1 = 2000 res2 = 2000 call shape % set_tetragon ( L = [ 1.0_rk , 1.0_rk ], nc = [ 2 , 2 ]) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a tetragon' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! circular gradient z_values = (( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 )))) ** 2 & + (( Xg (:, 2 ) - minval ( Xg (:, 2 ))) / ( maxval ( Xg (:, 2 )) - minval ( Xg (:, 2 ))) ** 2 ) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'buda' , 0.0_rk , 1.0_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () res1 = 2000 res2 = 2000 call shape % set_tetragon ( L = [ 0.48_rk , 0.48_rk ], nc = [ 2 , 2 ]) call shape % translate_Xc ([ 0.01_rk , 0.01_rk , 0.0_rk ]) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! circular gradient z_values = (( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 )))) ** 2 & + (( Xg (:, 2 ) - minval ( Xg (:, 2 ))) / ( maxval ( Xg (:, 2 )) - minval ( Xg (:, 2 ))) ** 2 ) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'managua' , 0.0_rk , 2.2_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () res1 = 2000 res2 = 2000 call shape % set_tetragon ( L = [ 0.48_rk , 0.48_rk ], nc = [ 3 , 2 ]) call shape % translate_Xc ([ 0.51_rk , 0.01_rk , 0.0_rk ]) call shape % modify_Xc ( 0.24_rk , 2 , 2 ) call shape % modify_Xc ( 0.26_rk , 5 , 2 ) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! linear gradient in the y-direction z_values = ( Xg (:, 2 ) - minval ( Xg (:, 2 ))) / ( maxval ( Xg (:, 2 )) - minval ( Xg (:, 2 ))) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'lipari' , 0.0_rk , 1.0_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () res1 = 2000 res2 = 2000 call shape % set_tetragon ( L = [ 0.48_rk , 0.48_rk ], nc = [ 2 , 3 ]) call shape % translate_Xc ([ 0.01_rk , 0.51_rk , 0.0_rk ]) call shape % modify_Xc ( 0.26_rk , 3 , 1 ) call shape % modify_Xc ( 0.24_rk , 4 , 1 ) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! linear gradient in the x-direction z_values = ( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 ))) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'oslo10' , 0.0_rk , 1.0_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () res1 = 2000 res2 = 2000 call shape % set_tetragon ( L = [ 0.48_rk , 0.48_rk ], nc = [ 3 , 3 ]) call shape % translate_Xc ([ 0.51_rk , 0.51_rk , 0.0_rk ]) call shape % modify_Xc ( 0.7_rk , 1 , 2 ) call shape % modify_Xc ( 0.7_rk , 3 , 2 ) call shape % modify_Xc ( 0.8_rk , 7 , 2 ) call shape % modify_Xc ( 0.8_rk , 9 , 2 ) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! linear gradient in the x-direction z_values = ( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 ))) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- red = 255 green = 215 blue = 0 !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting colors' ) !----------------------------------------------------------------------------- ! Save the image to a PPM file using ForImage library !----------------------------------------------------------------------------- call t % timer_start () call image % set_pnm (& encoding = 'binary' , & file_format = 'ppm' , & width = width , & height = height , & max_color = 255 , & comment = 'example: ForCAD + ForImage + ForColor + ForColormap' , & pixels = px & ) call image % export_pnm ( 'ppm/example_ppm3' ) call image % finalize () call t % timer_stop ( message = 'Saving the image' ) ! Clean up call cmap % finalize () deallocate ( px , Xg , z_values ) end program","tags":"","loc":"sourcefile/example_ppm3.f90.html"},{"title":"forcad_nurbs_surface.f90 – ForCAD","text":"This file depends on sourcefile~~forcad_nurbs_surface.f90~~EfferentGraph sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Files dependent on this one sourcefile~~forcad_nurbs_surface.f90~~AfferentGraph sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~demo_curve.f90 demo_curve.f90 sourcefile~demo_curve.f90->sourcefile~forcad.f90 sourcefile~demo_surface.f90 demo_surface.f90 sourcefile~demo_surface.f90->sourcefile~forcad.f90 sourcefile~demo_volume.f90 demo_volume.f90 sourcefile~demo_volume.f90->sourcefile~forcad.f90 sourcefile~example_curve_1.f90 example_curve_1.f90 sourcefile~example_curve_1.f90->sourcefile~forcad.f90 sourcefile~example_ppm1.f90 example_ppm1.f90 sourcefile~example_ppm1.f90->sourcefile~forcad.f90 sourcefile~example_ppm2.f90 example_ppm2.f90 sourcefile~example_ppm2.f90->sourcefile~forcad.f90 sourcefile~example_ppm3.f90 example_ppm3.f90 sourcefile~example_ppm3.f90->sourcefile~forcad.f90 sourcefile~example_surface_1.f90 example_surface_1.f90 sourcefile~example_surface_1.f90->sourcefile~forcad.f90 sourcefile~example_volume_1.f90 example_volume_1.f90 sourcefile~example_volume_1.f90->sourcefile~forcad.f90 sourcefile~nearest_point_1d.f90 nearest_point_1d.f90 sourcefile~nearest_point_1d.f90->sourcefile~forcad.f90 sourcefile~nearest_point_2d.f90 nearest_point_2d.f90 sourcefile~nearest_point_2d.f90->sourcefile~forcad.f90 sourcefile~nearest_point_2d_bench.f90 nearest_point_2d_bench.f90 sourcefile~nearest_point_2d_bench.f90->sourcefile~forcad.f90 sourcefile~nearest_point_3d.f90 nearest_point_3d.f90 sourcefile~nearest_point_3d.f90->sourcefile~forcad.f90 sourcefile~put_to_nurbs.f90 put_to_nurbs.f90 sourcefile~put_to_nurbs.f90->sourcefile~forcad.f90 sourcefile~shape_c_1d.f90 shape_C_1d.f90 sourcefile~shape_c_1d.f90->sourcefile~forcad.f90 sourcefile~shape_c_2d.f90 shape_C_2d.f90 sourcefile~shape_c_2d.f90->sourcefile~forcad.f90 sourcefile~shape_c_3d.f90 shape_C_3d.f90 sourcefile~shape_c_3d.f90->sourcefile~forcad.f90 sourcefile~shape_circle.f90 shape_circle.f90 sourcefile~shape_circle.f90->sourcefile~forcad.f90 sourcefile~shape_half_circle.f90 shape_half_circle.f90 sourcefile~shape_half_circle.f90->sourcefile~forcad.f90 sourcefile~shape_half_ring_2d.f90 shape_half_ring_2d.f90 sourcefile~shape_half_ring_2d.f90->sourcefile~forcad.f90 sourcefile~shape_half_ring_3d.f90 shape_half_ring_3d.f90 sourcefile~shape_half_ring_3d.f90->sourcefile~forcad.f90 sourcefile~shape_hexahedron.f90 shape_hexahedron.f90 sourcefile~shape_hexahedron.f90->sourcefile~forcad.f90 sourcefile~shape_ring_2d.f90 shape_ring_2d.f90 sourcefile~shape_ring_2d.f90->sourcefile~forcad.f90 sourcefile~shape_ring_3d.f90 shape_ring_3d.f90 sourcefile~shape_ring_3d.f90->sourcefile~forcad.f90 sourcefile~shape_tetragon.f90 shape_tetragon.f90 sourcefile~shape_tetragon.f90->sourcefile~forcad.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> This module defines the 'nurbs_surface' type for representing a Non-Uniform Rational B-Spline (NURBS) surface. module forcad_nurbs_surface use forcad_utils , only : rk , basis_bspline , elemConn_C0 , kron , ndgrid , compute_multiplicity , compute_knot_vector , & basis_bspline_der , insert_knot_A_5_1 , findspan , elevate_degree_A_5_9 , remove_knots_A_5_8 , tetragon_Xc , & elemConn_Cn , unique , rotation implicit none private public nurbs_surface !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause type nurbs_surface real ( rk ), allocatable , private :: Xc (:,:) !! Control points (2D array: [nc(1)*nc(2), dim]) real ( rk ), allocatable , private :: Xg (:,:) !! Geometry points (2D array: [ng(1)*ng(2), dim]) real ( rk ), allocatable , private :: Wc (:) !! Weights for control points (1D array: [nc(1)*nc(2)]) real ( rk ), allocatable , private :: Xt1 (:) !! Evaluation parameter values in the first direction (1D array: [ng(1)]) real ( rk ), allocatable , private :: Xt2 (:) !! Evaluation parameter values in the second direction (1D array: [ng(2)]) real ( rk ), allocatable , private :: Xt (:,:) !! Evaluation parameter values (2D array: [ng(1)*ng(2), 2]) real ( rk ), allocatable , private :: knot1 (:) !! Knot vector in the first direction (1D array) real ( rk ), allocatable , private :: knot2 (:) !! Knot vector in the second direction (1D array) integer , private :: degree ( 2 ) !! Degree (order) of the surface integer , private :: nc ( 2 ) !! Number of control points in each direction integer , private :: ng ( 2 ) !! Number of geometry points in each direction integer , allocatable , private :: elemConn_Xc_vis (:,:) !! Connectivity for visualization of control points integer , allocatable , private :: elemConn_Xg_vis (:,:) !! Connectivity for visualization of geometry points integer , allocatable , private :: elemConn (:,:) !! IGA element connectivity contains procedure :: set1 !!> Set knot vectors, control points and weights for the NURBS surface object procedure :: set2 !!> Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights procedure :: set3 !!> Set Bezier or Rational Bezier surface using control points and weights generic :: set => set1 , set2 , set3 !!> Set NURBS surface procedure :: create !!> Generate geometry points procedure , private :: get_Xc_all !!> Get all control points procedure , private :: get_Xci !!> Get i-th control point procedure , private :: get_Xcid !!> Get i-th control point in a specific direction generic :: get_Xc => get_Xc_all , get_Xci , get_Xcid !!> Get control points procedure , private :: get_Xg_all !!> Get all geometry points procedure , private :: get_Xgi !!> Get i-th geometry point procedure , private :: get_Xgid !!> Get i-th geometry point in a specific direction generic :: get_Xg => get_Xg_all , get_Xgi , get_Xgid !!> Get geometry points procedure , private :: get_Wc_all !!> Get all weights procedure , private :: get_Wci !!> Get i-th weight generic :: get_Wc => get_Wc_all , get_Wci !!> Get weights procedure :: get_Xt !!> Get parameter values procedure , private :: get_knot_all !!> Get all knot vectors procedure , private :: get_knoti !!> Get i-th knot value generic :: get_knot => get_knoti , get_knot_all !!> Get knot vector procedure :: get_ng !!> Get number of geometry points procedure :: cmp_degree !!> Compute degree of the NURBS surface procedure , private :: get_degree_all !!> Get degree of the NURBS surface in both directions procedure , private :: get_degree_dir !!> Get degree of the NURBS surface in a specific direction generic :: get_degree => get_degree_all , get_degree_dir !!> Get degree of the NURBS surface procedure :: finalize !!> Finalize the NURBS surface object procedure :: cmp_elem_Xc_vis !!> Generate connectivity for control points procedure :: cmp_elem_Xg_vis !!> Generate connectivity for geometry points procedure :: cmp_elem !!> Generate IGA element connectivity procedure :: get_elem_Xc_vis !!> Get connectivity for control points procedure :: get_elem_Xg_vis !!> Get connectivity for geometry points procedure :: get_elem !!> Get IGA element connectivity procedure :: set_elem_Xc_vis !!> Set connectivity for control points procedure :: set_elem_Xg_vis !!> Set connectivity for geometry points procedure :: set_elem !!> Set IGA element connectivity procedure :: export_Xc !!> Export control points to VTK file procedure :: export_Xg !!> Export geometry points to VTK file procedure :: modify_Xc !!> Modify control points procedure :: modify_Wc !!> Modify weights procedure :: get_multiplicity !!> Compute and return the multiplicity of the knot vector procedure :: get_continuity !!> Compute and return the continuity of the NURBS surface procedure :: cmp_nc !!> Compute number of required control points procedure :: get_nc !!> Get number of control points procedure :: derivative !!> Compute the derivative of the NURBS surface procedure :: basis !!> Compute the basis functions of the NURBS surface procedure :: insert_knots !!> Insert knots into the knot vector procedure :: elevate_degree !!> Elevate degree procedure :: is_rational !!> Check if the NURBS surface is rational procedure :: remove_knots !!> Remove knots from the knot vector procedure :: rotate_Xc !!> Rotate control points procedure :: rotate_Xg !!> Rotate geometry points procedure :: translate_Xc !!> Translate control points procedure :: translate_Xg !!> Translate geometry points procedure :: show !!> Show the NURBS object using PyVista procedure :: nearest_point !!> Find the nearest point on the NURBS surface ! Shapes procedure :: set_tetragon !!> Set a tetragon procedure :: set_ring !!> Set a ring procedure :: set_half_ring !!> Set a half ring procedure :: set_C !!> Set a C-shape end type !=============================================================================== contains !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> Set knot vectors, control points and weights for the NURBS surface object. pure subroutine set1 ( this , knot1 , knot2 , Xc , Wc ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: knot1 (:) real ( rk ), intent ( in ), contiguous :: knot2 (:) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) if ( allocated ( this % knot1 )) deallocate ( this % knot1 ) if ( allocated ( this % knot2 )) deallocate ( this % knot2 ) if ( allocated ( this % Xc )) deallocate ( this % Xc ) this % knot1 = knot1 this % knot2 = knot2 call this % cmp_degree () call this % cmp_nc () this % Xc = Xc if ( present ( Wc )) then if ( size ( Wc ) /= this % nc ( 1 ) * this % nc ( 2 )) then error stop 'Number of weights does not match the number of control points.' else if ( allocated ( this % Wc )) deallocate ( this % Wc ) this % Wc = Wc end if end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights pure subroutine set2 ( this , Xth_dir1 , Xth_dir2 , degree , continuity1 , continuity2 , Xc , Wc ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: Xth_dir1 (:), Xth_dir2 (:) integer , intent ( in ), contiguous :: degree (:) integer , intent ( in ), contiguous :: continuity1 (:), continuity2 (:) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) this % knot1 = compute_knot_vector ( Xth_dir1 , degree ( 1 ), continuity1 ) this % knot2 = compute_knot_vector ( Xth_dir2 , degree ( 2 ), continuity2 ) this % degree ( 1 ) = degree ( 1 ) this % degree ( 2 ) = degree ( 2 ) call this % cmp_nc () this % Xc = Xc if ( present ( Wc )) this % Wc = Wc end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> Set Bezier or Rational Bezier surface using control points and weights. pure subroutine set3 ( this , nc , Xc , Wc ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ), contiguous :: nc (:) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) if ( allocated ( this % Xc )) deallocate ( this % Xc ) this % Xc = Xc this % nc = nc if ( allocated ( this % knot1 )) deallocate ( this % knot1 ) allocate ( this % knot1 ( 2 * this % nc ( 1 ))) this % knot1 ( 1 : this % nc ( 1 )) = 0.0_rk this % knot1 ( this % nc ( 1 ) + 1 : 2 * this % nc ( 1 )) = 1.0_rk if ( allocated ( this % knot2 )) deallocate ( this % knot2 ) allocate ( this % knot2 ( 2 * this % nc ( 2 ))) this % knot2 ( 1 : this % nc ( 2 )) = 0.0_rk this % knot2 ( this % nc ( 2 ) + 1 : 2 * this % nc ( 2 )) = 1.0_rk call this % cmp_degree () if ( present ( Wc )) then if ( size ( Wc ) /= this % nc ( 1 ) * this % nc ( 2 )) then error stop 'Number of weights does not match the number of control points.' else if ( allocated ( this % Wc )) deallocate ( this % Wc ) this % Wc = Wc end if end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine create ( this , res1 , res2 , Xt1 , Xt2 , Xt ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ), optional :: res1 , res2 real ( rk ), intent ( in ), contiguous , optional :: Xt1 (:), Xt2 (:) real ( rk ), contiguous , intent ( in ), optional :: Xt (:,:) integer :: i interface pure function compute_Xg_nurbs_2d ( f_Xt , f_knot1 , f_knot2 , f_degree , f_nc , f_ng , f_Xc , f_Wc ) result ( f_Xg ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:) integer , intent ( in ) :: f_degree ( 2 ) integer , intent ( in ) :: f_nc ( 2 ) integer , intent ( in ) :: f_ng ( 2 ) real ( rk ), intent ( in ), contiguous :: f_Xc (:,:) real ( rk ), intent ( in ), contiguous :: f_Wc (:) real ( rk ), allocatable :: f_Xg (:,:) end function end interface interface pure function compute_Xg_bspline_2d ( f_Xt , f_knot1 , f_knot2 , f_degree , f_nc , f_ng , f_Xc ) result ( f_Xg ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:) real ( rk ), intent ( in ), contiguous :: f_knot2 (:) integer , intent ( in ) :: f_degree ( 2 ) integer , intent ( in ) :: f_nc ( 2 ) integer , intent ( in ) :: f_ng ( 2 ) real ( rk ), intent ( in ), contiguous :: f_Xc (:,:) real ( rk ), allocatable :: f_Xg (:,:) end function end interface ! check if (. not . allocated ( this % Xc )) then error stop 'Control points are not set.' end if if (. not . allocated ( this % knot1 ) . or . . not . allocated ( this % knot2 )) then error stop 'Knot vector(s) is/are not set.' end if ! Set parameter values if ( present ( Xt1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) this % Xt1 = Xt1 elseif ( present ( res1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) allocate ( this % Xt1 ( res1 )) this % Xt1 = [( real ( i - 1 , rk ) / real ( res1 - 1 , rk ), i = 1 , res1 )] ! else ! this%Xt1 = this%Xt1 end if ! Set parameter values if ( present ( Xt2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) this % Xt2 = Xt2 elseif ( present ( res2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) allocate ( this % Xt2 ( res2 )) this % Xt2 = [( real ( i - 1 , rk ) / real ( res2 - 1 , rk ), i = 1 , res2 )] ! else ! this%Xt2 = this%Xt2 end if if ( present ( Xt )) then this % Xt = Xt else ! Set number of geometry points this % ng ( 1 ) = size ( this % Xt1 , 1 ) this % ng ( 2 ) = size ( this % Xt2 , 1 ) call ndgrid ( this % Xt1 , this % Xt2 , this % Xt ) end if if ( allocated ( this % Xg )) deallocate ( this % Xg ) if ( this % is_rational ()) then ! NURBS this % Xg = compute_Xg_nurbs_2d (& this % Xt , this % knot1 , this % knot2 , this % degree , this % nc , this % ng , this % Xc , this % Wc ) else ! B-Spline this % Xg = compute_Xg_bspline_2d (& this % Xt , this % knot1 , this % knot2 , this % degree , this % nc , this % ng , this % Xc ) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xc_all ( this ) result ( Xc ) class ( nurbs_surface ), intent ( in ) :: this real ( rk ), allocatable :: Xc (:,:) if ( allocated ( this % Xc )) then Xc = this % Xc else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xci ( this , n ) result ( Xc ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: n real ( rk ), allocatable :: Xc (:) if ( allocated ( this % Xc )) then if ( n < lbound ( this % Xc , 1 ) . or . n > ubound ( this % Xc , 1 )) then error stop 'Invalid index for control points.' end if Xc = this % Xc ( n ,:) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xcid ( this , n , dir ) result ( Xc ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: n integer , intent ( in ) :: dir real ( rk ) :: Xc if ( allocated ( this % Xc )) then if ( n < lbound ( this % Xc , 1 ) . or . n > ubound ( this % Xc , 1 )) then error stop 'Invalid index for control points.' end if if ( dir < lbound ( this % Xc , 2 ) . or . dir > ubound ( this % Xc , 2 )) then error stop 'Invalid direction for control points.' end if Xc = this % Xc ( n , dir ) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xg_all ( this ) result ( Xg ) class ( nurbs_surface ), intent ( in ) :: this real ( rk ), allocatable :: Xg (:,:) if ( allocated ( this % Xg )) then Xg = this % Xg else error stop 'Geometry points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xgi ( this , n ) result ( Xg ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: n real ( rk ), allocatable :: Xg (:) if ( allocated ( this % Xg )) then if ( n < lbound ( this % Xg , 1 ) . or . n > ubound ( this % Xg , 1 )) then error stop 'Invalid index for geometry points.' end if Xg = this % Xg ( n ,:) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xgid ( this , n , dir ) result ( Xg ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: n integer , intent ( in ) :: dir real ( rk ) :: Xg if ( allocated ( this % Xg )) then if ( n < lbound ( this % Xg , 1 ) . or . n > ubound ( this % Xg , 1 )) then error stop 'Invalid index for geometry points.' end if if ( dir < lbound ( this % Xg , 2 ) . or . dir > ubound ( this % Xg , 2 )) then error stop 'Invalid direction for geometry points.' end if Xg = this % Xg ( n , dir ) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Wc_all ( this ) result ( Wc ) class ( nurbs_surface ), intent ( in ) :: this real ( rk ), allocatable :: Wc (:) if ( allocated ( this % Wc )) then Wc = this % Wc else error stop 'The NURBS surface is not rational or weights are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Wci ( this , n ) result ( Wc ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: n real ( rk ) :: Wc if ( allocated ( this % Wc )) then if ( n < lbound ( this % Wc , 1 ) . or . n > ubound ( this % Wc , 1 )) then error stop 'Invalid index for weights.' end if Wc = this % Wc ( n ) else error stop 'The NURBS surface is not rational or weights are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xt ( this , dir ) result ( Xt ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: dir real ( rk ), allocatable :: Xt (:) if ( dir == 1 ) then if ( allocated ( this % Xt1 )) then Xt = this % Xt1 else error stop 'Parameter values are not set.' end if elseif ( dir == 2 ) then if ( allocated ( this % Xt2 )) then Xt = this % Xt2 else error stop 'Parameter values are not set.' end if else error stop 'Invalid direction for parameter values.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_ng ( this ) result ( ng ) class ( nurbs_surface ), intent ( in ) :: this integer :: ng ( 2 ) ng = this % ng end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine cmp_degree ( this , dir ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ), optional :: dir integer , allocatable :: m1 (:), m2 (:) if ( present ( dir )) then if ( dir == 1 ) then m1 = this % get_multiplicity ( 1 ) this % degree ( 1 ) = m1 ( 1 ) - 1 else if ( dir == 2 ) then m2 = this % get_multiplicity ( 2 ) this % degree ( 2 ) = m2 ( 1 ) - 1 else error stop 'Invalid direction for degree.' end if else m1 = this % get_multiplicity ( 1 ) this % degree ( 1 ) = m1 ( 1 ) - 1 m2 = this % get_multiplicity ( 2 ) this % degree ( 2 ) = m2 ( 1 ) - 1 end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_degree_all ( this ) result ( degree ) class ( nurbs_surface ), intent ( in ) :: this integer :: degree ( 2 ) degree = this % degree end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_degree_dir ( this , dir ) result ( degree ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: dir integer :: degree if ( dir == 1 ) then degree = this % degree ( 1 ) else if ( dir == 2 ) then degree = this % degree ( 2 ) else error stop 'Invalid direction for degree.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_knot_all ( this , dir ) result ( knot ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: dir real ( rk ), allocatable :: knot (:) if ( dir == 1 ) then if ( allocated ( this % knot1 )) then knot = this % knot1 else error stop 'Knot vector is not set.' end if elseif ( dir == 2 ) then if ( allocated ( this % knot2 )) then knot = this % knot2 else error stop 'Knot vector is not set.' end if else error stop 'Invalid direction for knot vector.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_knoti ( this , dir , i ) result ( knot ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: dir integer , intent ( in ) :: i real ( rk ) :: knot if ( dir == 1 ) then if ( allocated ( this % knot1 )) then if ( i < 1 . or . i > size ( this % knot1 )) then error stop 'Invalid index for knot vector.' else knot = this % knot1 ( i ) end if else error stop 'Knot vector is not set.' end if elseif ( dir == 2 ) then if ( allocated ( this % knot2 )) then if ( i < 1 . or . i > size ( this % knot2 )) then error stop 'Invalid index for knot vector.' else knot = this % knot2 ( i ) end if else error stop 'Knot vector is not set.' end if else error stop 'Invalid direction for knot vector.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine finalize ( this ) class ( nurbs_surface ), intent ( inout ) :: this if ( allocated ( this % Xc )) deallocate ( this % Xc ) if ( allocated ( this % Xg )) deallocate ( this % Xg ) if ( allocated ( this % Wc )) deallocate ( this % Wc ) if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) if ( allocated ( this % Xt )) deallocate ( this % Xt ) if ( allocated ( this % knot1 )) deallocate ( this % knot1 ) if ( allocated ( this % knot2 )) deallocate ( this % knot2 ) if ( allocated ( this % elemConn_Xc_vis )) deallocate ( this % elemConn_Xc_vis ) if ( allocated ( this % elemConn_Xg_vis )) deallocate ( this % elemConn_Xg_vis ) if ( allocated ( this % elemConn )) deallocate ( this % elemConn ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elem_Xc_vis ( this , p ) result ( elemConn ) class ( nurbs_surface ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) integer , intent ( in ), contiguous , optional :: p (:) if ( present ( p )) then elemConn = elemConn_C0 ( this % nc ( 1 ), this % nc ( 2 ), p ( 1 ), p ( 2 )) else elemConn = elemConn_C0 ( this % nc ( 1 ), this % nc ( 2 ), 1 , 1 ) end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elem_Xg_vis ( this , p ) result ( elemConn ) class ( nurbs_surface ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) integer , intent ( in ), contiguous , optional :: p (:) if ( present ( p )) then elemConn = elemConn_C0 ( this % ng ( 1 ), this % ng ( 2 ), p ( 1 ), p ( 2 )) else elemConn = elemConn_C0 ( this % ng ( 1 ), this % ng ( 2 ), 1 , 1 ) end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure subroutine export_Xc ( this , filename ) class ( nurbs_surface ), intent ( in ) :: this character ( len =* ), intent ( in ) :: filename integer :: i , nc , nunit integer , allocatable :: elemConn (:,:) ! check if (. not . allocated ( this % Xc )) then error stop 'Control points are not set.' end if if (. not . allocated ( this % elemConn_Xc_vis )) then elemConn = this % cmp_elem_Xc_vis () else elemConn = this % elemConn_Xc_vis end if nc = size ( this % Xc , 1 ) open ( newunit = nunit , file = filename , action = 'write' ) write ( nunit , '(a)' ) '# vtk DataFile Version 2.0' write ( nunit , '(a)' ) 'Generated by ForCAD' write ( nunit , '(a)' ) 'ASCII' write ( nunit , '(a)' ) 'DATASET UNSTRUCTURED_GRID' write ( nunit , '(a,\" \",g0,\" \",a)' ) 'POINTS' , nc , 'double' if ( size ( this % Xc , 2 ) == 2 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xc ( i , 1 ), this % Xc ( i , 2 ), 0.0_rk , i = 1 , nc ) elseif ( size ( this % Xc , 2 ) == 3 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xc ( i , 1 ), this % Xc ( i , 2 ), this % Xc ( i , 3 ) , i = 1 , nc ) else error stop 'Invalid dimension for control points.' end if write ( nunit , '(a,\" \",g0,\" \",g0)' ) 'CELLS' , size ( elemConn , 1 ), size ( elemConn , 1 ) * ( size ( elemConn , 2 ) + 1 ) write ( nunit , '(g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0)' )& ( 4 , elemConn ( i , 1 ) - 1 , elemConn ( i , 2 ) - 1 , elemConn ( i , 4 ) - 1 , elemConn ( i , 3 ) - 1 , i = 1 , size ( elemConn , 1 )) write ( nunit , '(a,\" \",g0)' ) 'CELL_TYPES' , size ( elemConn , 1 ) write ( nunit , '(g0)' ) ( 9 , i = 1 , size ( elemConn , 1 )) close ( nunit ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure subroutine export_Xg ( this , filename ) class ( nurbs_surface ), intent ( in ) :: this character ( len =* ), intent ( in ) :: filename integer :: i , ng , nunit integer , allocatable :: elemConn (:,:) ! check if (. not . allocated ( this % Xg )) then error stop 'Geometry points are not set.' end if if (. not . allocated ( this % elemConn_Xg_vis )) then elemConn = this % cmp_elem_Xg_vis () else elemConn = this % elemConn_Xg_vis end if ng = size ( this % Xg , 1 ) open ( newunit = nunit , file = filename , action = 'write' ) write ( nunit , '(a)' ) '# vtk DataFile Version 2.0' write ( nunit , '(a)' ) 'Generated by ForCAD' write ( nunit , '(a)' ) 'ASCII' write ( nunit , '(a)' ) 'DATASET UNSTRUCTURED_GRID' write ( nunit , '(a,\" \",g0,\" \",a)' ) 'POINTS' , ng , 'double' if ( size ( this % Xg , 2 ) == 2 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xg ( i , 1 ), this % Xg ( i , 2 ), 0.0_rk , i = 1 , ng ) elseif ( size ( this % Xg , 2 ) == 3 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xg ( i , 1 ), this % Xg ( i , 2 ), this % Xg ( i , 3 ) , i = 1 , ng ) else error stop 'Invalid dimension for geometry points.' end if write ( nunit , '(a,\" \",g0,\" \",g0)' ) 'CELLS' , size ( elemConn , 1 ), size ( elemConn , 1 ) * ( size ( elemConn , 2 ) + 1 ) write ( nunit , '(g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0)' )& ( 4 , elemConn ( i , 1 ) - 1 , elemConn ( i , 2 ) - 1 , elemConn ( i , 4 ) - 1 , elemConn ( i , 3 ) - 1 , i = 1 , size ( elemConn , 1 )) write ( nunit , '(a,\" \",g0)' ) 'CELL_TYPES' , size ( elemConn , 1 ) write ( nunit , '(g0)' ) ( 9 , i = 1 , size ( elemConn , 1 )) close ( nunit ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine modify_Xc ( this , X , num , dir ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ) :: X integer , intent ( in ) :: num integer , intent ( in ) :: dir if ( allocated ( this % Xc )) then this % Xc ( num , dir ) = X if ( allocated ( this % Wc )) then call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), Xc = this % get_Xc (), Wc = this % get_Wc ()) else call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), Xc = this % get_Xc ()) end if else error stop 'Control points are not set.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine modify_Wc ( this , W , num ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ) :: W integer , intent ( in ) :: num if ( allocated ( this % Wc )) then this % Wc ( num ) = W if ( allocated ( this % knot1 ) . and . allocated ( this % knot2 )) then call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), Xc = this % get_Xc (), Wc = this % get_Wc ()) else call this % set ( nc = this % nc , Xc = this % get_Xc (), Wc = this % get_Wc ()) end if else error stop 'The NURBS surface is not rational.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_multiplicity ( this , dir ) result ( m ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: dir integer , allocatable :: m (:) if ( dir == 1 ) then ! check if (. not . allocated ( this % knot1 )) then error stop 'Knot vector is not set.' else m = compute_multiplicity ( this % knot1 ) end if elseif ( dir == 2 ) then ! check if (. not . allocated ( this % knot2 )) then error stop 'Knot vector is not set.' else m = compute_multiplicity ( this % knot2 ) end if else error stop 'Invalid direction.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_continuity ( this , dir ) result ( c ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: dir integer , allocatable :: c (:) if ( dir == 1 ) then ! check if (. not . allocated ( this % knot1 )) then error stop 'Knot vector is not set.' else c = this % degree ( 1 ) - compute_multiplicity ( this % knot1 ) end if elseif ( dir == 2 ) then ! check if (. not . allocated ( this % knot2 )) then error stop 'Knot vector is not set.' else c = this % degree ( 2 ) - compute_multiplicity ( this % knot2 ) end if else error stop 'Invalid direction.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine cmp_nc ( this , dir ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ), optional :: dir if ( present ( dir )) then if ( dir == 1 ) then ! check if (. not . allocated ( this % knot1 )) then error stop 'Knot vector is not set.' else this % nc ( 1 ) = sum ( compute_multiplicity ( this % knot1 )) - this % degree ( 1 ) - 1 end if elseif ( dir == 2 ) then ! check if (. not . allocated ( this % knot2 )) then error stop 'Knot vector is not set.' else this % nc ( 2 ) = sum ( compute_multiplicity ( this % knot2 )) - this % degree ( 2 ) - 1 end if else error stop 'Invalid direction.' end if else ! check if (. not . allocated ( this % knot1 )) then error stop 'Knot vector is not set.' else this % nc ( 1 ) = sum ( compute_multiplicity ( this % knot1 )) - this % degree ( 1 ) - 1 end if ! check if (. not . allocated ( this % knot2 )) then error stop 'Knot vector is not set.' else this % nc ( 2 ) = sum ( compute_multiplicity ( this % knot2 )) - this % degree ( 2 ) - 1 end if end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_nc ( this , dir ) result ( nc ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: dir integer :: nc if ( dir == 1 ) then ! check if (. not . allocated ( this % knot1 )) then error stop 'Knot vector is not set.' else nc = sum ( compute_multiplicity ( this % knot1 )) - this % degree ( 1 ) - 1 end if elseif ( dir == 2 ) then ! check if (. not . allocated ( this % knot2 )) then error stop 'Knot vector is not set.' else nc = sum ( compute_multiplicity ( this % knot2 )) - this % degree ( 2 ) - 1 end if else error stop 'Invalid direction.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine derivative ( this , res1 , res2 , Xt1 , Xt2 , dTgc ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ), optional :: res1 , res2 real ( rk ), intent ( in ), contiguous , optional :: Xt1 (:), Xt2 (:) real ( rk ), allocatable , intent ( out ) :: dTgc (:,:) integer :: i real ( rk ), allocatable :: Xt (:,:) interface pure function compute_dTgc_nurbs_2d ( f_Xt , f_knot1 , f_knot2 , f_degree , f_nc , f_ng , f_Wc ) result ( f_dTgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:) integer , intent ( in ) :: f_degree ( 2 ) integer , intent ( in ) :: f_nc ( 2 ) integer , intent ( in ) :: f_ng ( 2 ) real ( rk ), intent ( in ), contiguous :: f_Wc (:) real ( rk ), allocatable :: f_dTgc (:,:) end function end interface interface pure function compute_dTgc_bspline_2d ( f_Xt , f_knot1 , f_knot2 , f_degree , nc , f_ng ) result ( f_dTgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:) integer , intent ( in ) :: f_degree ( 2 ) integer , intent ( in ) :: nc ( 2 ) integer , intent ( in ) :: f_ng ( 2 ) real ( rk ), allocatable :: f_dTgc (:,:) end function end interface ! Set parameter values if ( present ( Xt1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) this % Xt1 = Xt1 elseif ( present ( res1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) allocate ( this % Xt1 ( res1 )) this % Xt1 = [( real ( i - 1 , rk ) / real ( res1 - 1 , rk ), i = 1 , res1 )] ! else ! this%Xt1 = this%Xt1 end if ! Set parameter values if ( present ( Xt2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) this % Xt2 = Xt2 elseif ( present ( res2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) allocate ( this % Xt2 ( res2 )) this % Xt2 = [( real ( i - 1 , rk ) / real ( res2 - 1 , rk ), i = 1 , res2 )] ! else ! this%Xt2 = this%Xt2 end if ! Set number of geometry points this % ng ( 1 ) = size ( this % Xt1 , 1 ) this % ng ( 2 ) = size ( this % Xt2 , 1 ) call ndgrid ( this % Xt1 , this % Xt2 , Xt ) if ( this % is_rational ()) then ! NURBS dTgc = compute_dTgc_nurbs_2d ( Xt , this % knot1 , this % knot2 , this % degree , this % nc , this % ng , this % Wc ) else ! B-Spline dTgc = compute_dTgc_bspline_2d ( Xt , this % knot1 , this % knot2 , this % degree , this % nc , this % ng ) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine basis ( this , res1 , res2 , Xt1 , Xt2 , Tgc ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ), optional :: res1 , res2 real ( rk ), intent ( in ), contiguous , optional :: Xt1 (:), Xt2 (:) real ( rk ), allocatable , intent ( out ) :: Tgc (:,:) integer :: i real ( rk ), allocatable :: Xt (:,:) interface pure function compute_Tgc_nurbs_2d ( f_Xt , f_knot1 , f_knot2 , f_degree , f_nc , f_ng , f_Wc ) result ( f_Tgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:) integer , intent ( in ) :: f_degree ( 2 ) integer , intent ( in ) :: f_nc ( 2 ) integer , intent ( in ) :: f_ng ( 2 ) real ( rk ), intent ( in ), contiguous :: f_Wc (:) real ( rk ), allocatable :: f_Tgc (:,:) end function end interface interface pure function compute_Tgc_bspline_2d ( f_Xt , f_knot1 , f_knot2 , f_degree , f_nc , f_ng ) result ( f_Tgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:) integer , intent ( in ) :: f_degree ( 2 ) integer , intent ( in ) :: f_nc ( 2 ) integer , intent ( in ) :: f_ng ( 2 ) real ( rk ), allocatable :: f_Tgc (:,:) end function end interface ! Set parameter values if ( present ( Xt1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) this % Xt1 = Xt1 elseif ( present ( res1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) allocate ( this % Xt1 ( res1 )) this % Xt1 = [( real ( i - 1 , rk ) / real ( res1 - 1 , rk ), i = 1 , res1 )] ! else ! this%Xt1 = this%Xt1 end if ! Set parameter values if ( present ( Xt2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) this % Xt2 = Xt2 elseif ( present ( res2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) allocate ( this % Xt2 ( res2 )) this % Xt2 = [( real ( i - 1 , rk ) / real ( res2 - 1 , rk ), i = 1 , res2 )] ! else ! this%Xt2 = this%Xt2 end if ! Set number of geometry points this % ng ( 1 ) = size ( this % Xt1 , 1 ) this % ng ( 2 ) = size ( this % Xt2 , 1 ) call ndgrid ( this % Xt1 , this % Xt2 , Xt ) if ( this % is_rational ()) then ! NURBS Tgc = compute_Tgc_nurbs_2d ( Xt , this % knot1 , this % knot2 , this % degree , this % nc , this % ng , this % Wc ) else ! B-Spline Tgc = compute_Tgc_bspline_2d ( Xt , this % knot1 , this % knot2 , this % degree , this % nc , this % ng ) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine insert_knots ( this , dir , Xth , r ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ) :: dir real ( rk ), intent ( in ), contiguous :: Xth (:) integer , intent ( in ), contiguous :: r (:) integer :: k , i , s , dim , j , n_new real ( rk ), allocatable :: Xc (:,:), Xcw (:,:), Xcw_new (:,:), Xc_new (:,:), Wc_new (:), knot_new (:) real ( rk ), allocatable :: Xc3 (:,:,:) if ( dir == 1 ) then ! direction 1 if ( this % is_rational ()) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc ( 1 ) - 1 , this % degree ( 1 ), Xth ( i ), this % knot1 ) if ( this % knot1 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot1 , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xcw = reshape ( Xcw ,[ this % nc ( 1 ), this % nc ( 2 ) * ( dim + 1 )]) call insert_knot_A_5_1 (& this % degree ( 1 ),& this % knot1 ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xcw_new ) Xcw_new = reshape ( Xcw_new ,[ this % nc ( 2 ) * ( n_new + 1 ), dim + 1 ]) allocate ( Xc_new ( 1 : this % nc ( 2 ) * ( n_new + 1 ), 1 : dim )) allocate ( Wc_new ( 1 : this % nc ( 2 ) * ( n_new + 1 ))) do j = 1 , this % nc ( 2 ) * ( n_new + 1 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc ( 1 ) - 1 , this % degree ( 1 ), Xth ( i ), this % knot1 ) if ( this % knot1 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot1 , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) Xc = reshape ( this % Xc ,[ this % nc ( 1 ), this % nc ( 2 ) * dim ]) call insert_knot_A_5_1 (& this % degree ( 1 ),& this % knot1 ,& Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xc_new ) Xc_new = reshape ( Xc_new ,[( this % nc ( 2 )) * ( n_new + 1 ), dim ]) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), Xc = Xc_new ) end do end if elseif ( dir == 2 ) then ! direction 2 if ( this % is_rational ()) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc ( 2 ) - 1 , this % degree ( 2 ), Xth ( i ), this % knot2 ) if ( this % knot2 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot2 , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xc3 = reshape ( Xcw , [ this % nc ( 1 ), this % nc ( 2 ), dim + 1 ]) Xc3 = reshape ( Xc3 , [ this % nc ( 2 ), this % nc ( 1 ), dim + 1 ], order = [ 2 , 1 , 3 ]) Xcw = reshape ( Xc3 ,[ this % nc ( 2 ), this % nc ( 1 ) * ( dim + 1 )]) call insert_knot_A_5_1 (& this % degree ( 2 ),& this % knot2 ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xcw_new ) Xc3 = reshape ( Xcw_new , [ n_new + 1 , this % nc ( 1 ), dim + 1 ]) Xc3 = reshape ( Xc3 , [ this % nc ( 1 ), n_new + 1 , dim + 1 ], order = [ 2 , 1 , 3 ]) Xcw_new = reshape ( Xc3 ,[( this % nc ( 1 )) * ( n_new + 1 ), dim + 1 ]) allocate ( Xc_new ( 1 :( n_new + 1 ) * this % nc ( 1 ), 1 : dim )) allocate ( Wc_new ( 1 :( n_new + 1 ) * this % nc ( 1 ))) do j = 1 , ( n_new + 1 ) * this % nc ( 1 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc ( 2 ) - 1 , this % degree ( 2 ), Xth ( i ), this % knot2 ) if ( this % knot2 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot2 , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) Xc3 = reshape ( this % Xc , [ this % nc ( 1 ), this % nc ( 2 ), dim ]) Xc3 = reshape ( Xc3 , [ this % nc ( 2 ), this % nc ( 1 ), dim ], order = [ 2 , 1 , 3 ]) Xc = reshape ( Xc3 ,[ this % nc ( 2 ), this % nc ( 1 ) * dim ]) call insert_knot_A_5_1 (& this % degree ( 2 ),& this % knot2 ,& Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xc_new ) Xc3 = reshape ( Xc_new , [ n_new + 1 , this % nc ( 1 ), dim ]) Xc3 = reshape ( Xc3 , [ this % nc ( 1 ), n_new + 1 , dim ], order = [ 2 , 1 , 3 ]) Xc_new = reshape ( Xc3 ,[( this % nc ( 1 )) * ( n_new + 1 ), dim ]) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , Xc = Xc_new ) end do end if else error stop 'Invalid direction.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine elevate_degree ( this , dir , t ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ) :: dir integer , intent ( in ) :: t real ( rk ), allocatable :: Xc (:,:), Xcw (:,:), Xcw_new (:,:), knot_new (:), Xc_new (:,:), Wc_new (:) integer :: dim , j , nc_new real ( rk ), allocatable :: Xc3 (:,:,:) if ( dir == 1 ) then ! direction 1 if ( this % is_rational ()) then ! NURBS dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xcw = reshape ( Xcw ,[ this % nc ( 1 ), this % nc ( 2 ) * ( dim + 1 )], order = [ 1 , 2 ]) call elevate_degree_A_5_9 ( t , this % knot1 , this % degree ( 1 ), Xcw , nc_new , knot_new , Xcw_new ) Xcw_new = reshape ( Xcw_new ,[ this % nc ( 2 ) * nc_new , dim + 1 ], order = [ 1 , 2 ]) allocate ( Xc_new ( 1 : this % nc ( 2 ) * nc_new , 1 : dim )) allocate ( Wc_new ( 1 : this % nc ( 2 ) * nc_new )) do j = 1 , this % nc ( 2 ) * nc_new Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) else ! B-Spline dim = size ( this % Xc , 2 ) Xc = reshape ( this % Xc ,[ this % nc ( 1 ), this % nc ( 2 ) * ( dim )], order = [ 1 , 2 ]) call elevate_degree_A_5_9 ( t , this % knot1 , this % degree ( 1 ), Xc , nc_new , knot_new , Xc_new ) Xc_new = reshape ( Xc_new ,[ this % nc ( 2 ) * nc_new , dim ], order = [ 1 , 2 ]) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), Xc = Xc_new ) deallocate ( Xc , Xc_new ) end if elseif ( dir == 2 ) then ! direction 2 if ( this % is_rational ()) then ! NURBS dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xc3 = reshape ( Xcw , [ this % nc ( 1 ), this % nc ( 2 ), dim + 1 ]) Xc3 = reshape ( Xc3 , [ this % nc ( 2 ), this % nc ( 1 ), dim + 1 ], order = [ 2 , 1 , 3 ]) Xcw = reshape ( Xc3 ,[ this % nc ( 2 ), this % nc ( 1 ) * ( dim + 1 )]) call elevate_degree_A_5_9 ( t , this % knot2 , this % degree ( 2 ), Xcw , nc_new , knot_new , Xcw_new ) Xc3 = reshape ( Xcw_new , [ nc_new , this % nc ( 1 ), dim + 1 ]) Xc3 = reshape ( Xc3 , [ this % nc ( 1 ), nc_new , dim + 1 ], order = [ 2 , 1 , 3 ]) Xcw_new = reshape ( Xc3 ,[( this % nc ( 1 )) * nc_new , dim + 1 ]) allocate ( Xc_new ( 1 : nc_new * this % nc ( 1 ), 1 : dim )) allocate ( Wc_new ( 1 : nc_new * this % nc ( 1 ))) do j = 1 , nc_new * this % nc ( 1 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) else ! B-Spline dim = size ( this % Xc , 2 ) Xc3 = reshape ( this % Xc , [ this % nc ( 1 ), this % nc ( 2 ), dim ]) Xc3 = reshape ( Xc3 , [ this % nc ( 2 ), this % nc ( 1 ), dim ], order = [ 2 , 1 , 3 ]) Xc = reshape ( Xc3 ,[ this % nc ( 2 ), this % nc ( 1 ) * dim ]) call elevate_degree_A_5_9 ( t , this % knot2 , this % degree ( 2 ), Xc , nc_new , knot_new , Xc_new ) Xc3 = reshape ( Xc_new , [ nc_new , this % nc ( 1 ), dim ]) Xc3 = reshape ( Xc3 , [ this % nc ( 1 ), nc_new , dim ], order = [ 2 , 1 , 3 ]) Xc_new = reshape ( Xc3 ,[( this % nc ( 1 )) * nc_new , dim ]) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , Xc = Xc_new ) end if else error stop 'Invalid direction.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function is_rational ( this ) result ( r ) class ( nurbs_surface ), intent ( in ) :: this logical :: r r = . false . if ( allocated ( this % Wc )) then if ( any ( this % Wc /= this % Wc ( 1 ))) then r = . true . end if end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_elem_Xc_vis ( this , elemConn ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ), contiguous :: elemConn (:,:) if ( allocated ( this % elemConn_Xc_vis )) deallocate ( this % elemConn_Xc_vis ) this % elemConn_Xc_vis = elemConn end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_elem_Xg_vis ( this , elemConn ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ), contiguous :: elemConn (:,:) if ( allocated ( this % elemConn_Xg_vis )) deallocate ( this % elemConn_Xg_vis ) this % elemConn_Xg_vis = elemConn end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_elem ( this , elemConn ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ), contiguous :: elemConn (:,:) if ( allocated ( this % elemConn )) deallocate ( this % elemConn ) this % elemConn = elemConn end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_elem_Xc_vis ( this ) result ( elemConn ) class ( nurbs_surface ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) elemConn = this % elemConn_Xc_vis end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_elem_Xg_vis ( this ) result ( elemConn ) class ( nurbs_surface ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) elemConn = this % elemConn_Xg_vis end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_elem ( this ) result ( elemConn ) class ( nurbs_surface ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) elemConn = this % elemConn end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine remove_knots ( this , dir , Xth , r ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ) :: dir real ( rk ), intent ( in ), contiguous :: Xth (:) integer , intent ( in ), contiguous :: r (:) integer :: k , i , s , dim , j , nc_new , t real ( rk ), allocatable :: Xc (:,:), Xcw (:,:), Xcw_new (:,:), Xc_new (:,:), Wc_new (:), knot_new (:) real ( rk ), allocatable :: Xc3 (:,:,:) if ( dir == 1 ) then ! direction 1 if ( this % is_rational ()) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc ( 1 ) - 1 , this % degree ( 1 ), Xth ( i ), this % knot1 ) if ( this % knot1 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot1 , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xcw = reshape ( Xcw ,[ this % nc ( 1 ), this % nc ( 2 ) * ( dim + 1 )], order = [ 1 , 2 ]) call remove_knots_A_5_8 (& this % degree ( 1 ),& this % knot1 ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xcw_new ) if ( allocated ( Xcw )) deallocate ( Xcw ) if ( t == 0 ) then ! no change else nc_new = size ( Xcw_new , 1 ) Xcw_new = reshape ( Xcw_new ,[ this % nc ( 2 ) * ( nc_new ), dim + 1 ], order = [ 1 , 2 ]) allocate ( Xc_new ( 1 : this % nc ( 2 ) * ( nc_new ), 1 : dim )) allocate ( Wc_new ( 1 : this % nc ( 2 ) * ( nc_new ))) do j = 1 , this % nc ( 2 ) * ( nc_new ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw_new , Xc_new , Wc_new ) end if end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc ( 1 ) - 1 , this % degree ( 1 ), Xth ( i ), this % knot1 ) if ( this % knot1 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot1 , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) Xc = reshape ( this % Xc ,[ this % nc ( 1 ), this % nc ( 2 ) * dim ], order = [ 1 , 2 ]) call remove_knots_A_5_8 (& this % degree ( 1 ),& this % knot1 ,& Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xc_new ) if ( allocated ( Xc )) deallocate ( Xc ) if ( t == 0 ) then ! no change else nc_new = size ( Xc_new , 1 ) Xc_new = reshape ( Xc_new ,[( this % nc ( 2 )) * ( nc_new ), dim ], order = [ 1 , 2 ]) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), Xc = Xc_new ) end if end do end if elseif ( dir == 2 ) then ! direction 2 if ( this % is_rational ()) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc ( 2 ) - 1 , this % degree ( 2 ), Xth ( i ), this % knot2 ) if ( this % knot2 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot2 , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xc3 = reshape ( Xcw , [ this % nc ( 1 ), this % nc ( 2 ), dim + 1 ]) Xc3 = reshape ( Xc3 , [ this % nc ( 2 ), this % nc ( 1 ), dim + 1 ], order = [ 2 , 1 , 3 ]) Xcw = reshape ( Xc3 , [ this % nc ( 2 ), this % nc ( 1 ) * ( dim + 1 )]) call remove_knots_A_5_8 (& this % degree ( 2 ),& this % knot2 ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xcw_new ) if ( allocated ( Xcw )) deallocate ( Xcw ) if ( t == 0 ) then ! no change else nc_new = size ( Xcw_new , 1 ) Xc3 = reshape ( Xcw_new , [ nc_new , this % nc ( 1 ), dim + 1 ]) Xc3 = reshape ( Xc3 , [ this % nc ( 1 ), nc_new , dim + 1 ], order = [ 2 , 1 , 3 ]) Xcw_new = reshape ( Xc3 ,[( this % nc ( 1 )) * ( nc_new ), dim + 1 ]) allocate ( Xc_new ( 1 :( nc_new ) * this % nc ( 1 ), 1 : dim )) allocate ( Wc_new ( 1 :( nc_new ) * this % nc ( 1 ))) do j = 1 , ( nc_new ) * this % nc ( 1 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw_new , Xc_new , Wc_new ) end if end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc ( 2 ) - 1 , this % degree ( 2 ), Xth ( i ), this % knot2 ) if ( this % knot2 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot2 , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) Xc3 = reshape ( this % Xc , [ this % nc ( 1 ), this % nc ( 2 ), dim ]) Xc3 = reshape ( Xc3 , [ this % nc ( 2 ), this % nc ( 1 ), dim ], order = [ 2 , 1 , 3 ]) Xc = reshape ( Xc3 ,[ this % nc ( 2 ), this % nc ( 1 ) * dim ]) call remove_knots_A_5_8 (& this % degree ( 2 ),& this % knot2 ,& Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xc_new ) if ( allocated ( Xc )) deallocate ( Xc ) if ( t == 0 ) then ! no change else nc_new = size ( Xc_new , 1 ) Xc3 = reshape ( Xc_new , [ nc_new , this % nc ( 1 ), dim ]) Xc3 = reshape ( Xc3 , [ this % nc ( 1 ), nc_new , dim ], order = [ 2 , 1 , 3 ]) Xc_new = reshape ( Xc3 ,[( this % nc ( 1 )) * ( nc_new ), dim ]) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , Xc = Xc_new ) end if end do end if else error stop 'Invalid direction.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_tetragon ( this , L , nc , Wc ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ) :: L ( 2 ) integer , intent ( in ) :: nc ( 2 ) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) call this % set ( nc = nc , Xc = tetragon_Xc ( L , nc ), Wc = Wc ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elem ( this ) result ( elemConn ) class ( nurbs_surface ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) call elemConn_Cn ( this % nc ( 1 ), this % nc ( 2 ),& this % degree ( 1 ), this % degree ( 2 ),& unique ( this % knot1 ), unique ( this % knot2 ),& this % get_multiplicity ( 1 ), this % get_multiplicity ( 2 ),& elemConn ) end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine rotate_Xc ( this , alpha , beta , theta ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ) :: alpha , beta , theta integer :: i do i = 1 , this % nc ( 1 ) * this % nc ( 2 ) this % Xc ( i , :) = matmul ( rotation ( alpha , beta , theta ), this % Xc ( i , :)) end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine rotate_Xg ( this , alpha , beta , theta ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ) :: alpha , beta , theta integer :: i do i = 1 , this % ng ( 1 ) * this % ng ( 2 ) this % Xg ( i , :) = matmul ( rotation ( alpha , beta , theta ), this % Xg ( i , :)) end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine translate_Xc ( this , vec ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ) :: vec (:) integer :: i do i = 1 , this % nc ( 1 ) * this % nc ( 2 ) this % Xc ( i , :) = this % Xc ( i , :) + vec end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine translate_Xg ( this , vec ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ) :: vec (:) integer :: i do i = 1 , this % ng ( 1 ) * this % ng ( 2 ) this % Xg ( i , :) = this % Xg ( i , :) + vec end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure subroutine show ( this , vtkfile_Xc , vtkfile_Xg ) class ( nurbs_surface ), intent ( inout ) :: this character ( len =* ), intent ( in ) :: vtkfile_Xc , vtkfile_Xg character ( len = 3000 ) :: pyvista_script pyvista_script = & \"import pyvista as pv\" // achar ( 10 ) // & \"pv.global_theme.color = 'white'\" // achar ( 10 ) // & \"Xc = pv.read('\" // trim ( vtkfile_Xc ) // \"')\" // achar ( 10 ) // & \"Xg = pv.read('\" // trim ( vtkfile_Xg ) // \"')\" // achar ( 10 ) // & \"p = pv.Plotter(lighting='light kit')\" // achar ( 10 ) // & \"actor_Xcp = p.add_mesh(\" // achar ( 10 ) // & \" Xc,\" // achar ( 10 ) // & \" style='points',\" // achar ( 10 ) // & \" point_size=10,\" // achar ( 10 ) // & \" color='red',\" // achar ( 10 ) // & \" render_points_as_spheres=True,\" // achar ( 10 ) // & \" opacity=0.5,\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"actor_Xcw = p.add_mesh(\" // achar ( 10 ) // & \" Xc,\" // achar ( 10 ) // & \" show_edges=True,\" // achar ( 10 ) // & \" color='yellow',\" // achar ( 10 ) // & \" line_width=3,\" // achar ( 10 ) // & \" style='wireframe',\" // achar ( 10 ) // & \" opacity=0.2\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"actor_Xg = p.add_mesh(\" // achar ( 10 ) // & \" Xg,\" // achar ( 10 ) // & \" show_edges=False,\" // achar ( 10 ) // & \" color='cyan',\" // achar ( 10 ) // & \" line_width=7,\" // achar ( 10 ) // & \" metallic=0.6,\" // achar ( 10 ) // & \" pbr=True,\" // achar ( 10 ) // & \" split_sharp_edges=True,\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_axes(interactive=False)\" // achar ( 10 ) // & \"def point_picker_callback(point):\" // achar ( 10 ) // & \" mesh = Xc\" // achar ( 10 ) // & \" point_id = mesh.find_closest_point(point)\" // achar ( 10 ) // & \" point_coords = mesh.points[point_id]\" // achar ( 10 ) // & \" label = f'ID: {point_id + 1}\\n({point_coords[0]:.3f}, {point_coords[1]:.3f}, {point_coords[2]:.3f})'\" // achar ( 10 ) // & \" p.add_point_labels(\" // achar ( 10 ) // & \" [point_coords],\" // achar ( 10 ) // & \" [label],\" // achar ( 10 ) // & \" font_size=14,\" // achar ( 10 ) // & \" text_color='black',\" // achar ( 10 ) // & \" show_points=False,\" // achar ( 10 ) // & \" fill_shape=False,\" // achar ( 10 ) // & \" shape=None,\" // achar ( 10 ) // & \" )\" // achar ( 10 ) // & \"picker = p.enable_point_picking(callback=point_picker_callback, show_message=False)\" // achar ( 10 ) // & \"window_size = p.window_size\" // achar ( 10 ) // & \"y_pos = window_size[1]\" // achar ( 10 ) // & \"def Xcp_toggle_vis(flag):\" // achar ( 10 ) // & \" actor_Xcp.SetVisibility(flag)\" // achar ( 10 ) // & \"def Xcw_toggle_vis(flag):\" // achar ( 10 ) // & \" actor_Xcw.SetVisibility(flag)\" // achar ( 10 ) // & \"def Xg_toggle_vis(flag):\" // achar ( 10 ) // & \" actor_Xg.SetVisibility(flag)\" // achar ( 10 ) // & \"p.add_checkbox_button_widget(\" // achar ( 10 ) // & \" Xcp_toggle_vis,\" // achar ( 10 ) // & \" value=True,\" // achar ( 10 ) // & \" color_on='red',\" // achar ( 10 ) // & \" size=25,\" // achar ( 10 ) // & \" position=(0, y_pos - 1 * 25),\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_checkbox_button_widget(\" // achar ( 10 ) // & \" Xcw_toggle_vis,\" // achar ( 10 ) // & \" value=True,\" // achar ( 10 ) // & \" color_on='yellow',\" // achar ( 10 ) // & \" size=25,\" // achar ( 10 ) // & \" position=(0, y_pos - 2 * 25),\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_checkbox_button_widget(\" // achar ( 10 ) // & \" Xg_toggle_vis,\" // achar ( 10 ) // & \" value=True,\" // achar ( 10 ) // & \" color_on='cyan',\" // achar ( 10 ) // & \" size=25,\" // achar ( 10 ) // & \" position=(0, y_pos - 3 * 25),\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'Xc (Points)',\" // achar ( 10 ) // & \" position=(25 + 3, y_pos - 1 * 25),\" // achar ( 10 ) // & \" font_size=8,\" // achar ( 10 ) // & \" color='black',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'Xc (Control geometry)',\" // achar ( 10 ) // & \" position=(25 + 3, y_pos - 2 * 25),\" // achar ( 10 ) // & \" font_size=8,\" // achar ( 10 ) // & \" color='black',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'Xg (Geometry)',\" // achar ( 10 ) // & \" position=(25 + 3, y_pos - 3 * 25),\" // achar ( 10 ) // & \" font_size=8,\" // achar ( 10 ) // & \" color='black',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text('ForCAD', position=(0.0, 10.0), font_size=14, color='black', font='times')\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'https://github.com/gha3mi/forcad',\" // achar ( 10 ) // & \" position=(0.0, 0.0),\" // achar ( 10 ) // & \" font_size=7,\" // achar ( 10 ) // & \" color='blue',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.show(title='ForCAD', interactive=True)\" call execute_command_line ( 'python -c \"' // trim ( adjustl ( pyvista_script )) // '\"' ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_ring ( this , center , radius1 , radius2 ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: center (:) real ( rk ), intent ( in ) :: radius1 , radius2 real ( rk ), allocatable :: Xc (:,:), Wc (:), knot1 (:), knot2 (:) integer :: i ! Define control points for ring allocate ( Xc ( 14 , 3 )) Xc ( 1 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 3 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 4 ,:) = [ - 2.0_rk , 0.0_rk , 0.0_rk ] Xc ( 5 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 6 ,:) = [ 1.0_rk , - sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 7 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 1 : 7 , 1 : 2 ) = Xc ( 1 : 7 , 1 : 2 ) * radius1 Xc ( 8 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 9 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 10 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 11 ,:) = [ - 2.0_rk , 0.0_rk , 0.0_rk ] Xc ( 12 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 13 ,:) = [ 1.0_rk , - sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 14 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 8 : 14 , 1 : 2 ) = Xc ( 8 : 14 , 1 : 2 ) * radius2 ! Translate the control points do i = 1 , size ( Xc , 1 ) Xc ( i ,:) = center + Xc ( i ,:) end do ! Define weights for the control points Wc = [ 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ,& 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ] ! Define knot vector knot1 = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk / 3.0_rk , 1.0_rk / 3.0_rk , 2.0_rk / 3.0_rk , 2.0_rk / 3.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] knot2 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] ! Set knot vector, control points, and weights call this % set ( knot1 , knot2 , Xc , Wc ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_C ( this , center , radius1 , radius2 ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: center (:) real ( rk ), intent ( in ) :: radius1 , radius2 real ( rk ), allocatable :: Xc (:,:), Wc (:), knot1 (:), knot2 (:) integer :: i ! Define control points for C-shape allocate ( Xc ( 10 , 3 )) Xc ( 1 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 3 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 4 ,:) = [ - 2.0_rk , 0.0_rk , 0.0_rk ] Xc ( 5 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 1 : 5 , 1 : 2 ) = Xc ( 1 : 5 , 1 : 2 ) * radius1 Xc ( 6 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 7 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 8 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 9 ,:) = [ - 2.0_rk , 0.0_rk , 0.0_rk ] Xc ( 10 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 6 : 10 , 1 : 2 ) = Xc ( 6 : 10 , 1 : 2 ) * radius2 ! Translate the control points do i = 1 , size ( Xc , 1 ) Xc ( i ,:) = center + Xc ( i ,:) end do ! Define weights for the control points Wc = [ 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ,& 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ] ! Define knot vector knot1 = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk / 2.0_rk , 1.0_rk / 2.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] knot2 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] ! Set knot vector, control points, and weights call this % set ( knot1 , knot2 , Xc , Wc ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_half_ring ( this , center , radius1 , radius2 ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: center (:) real ( rk ), intent ( in ) :: radius1 , radius2 real ( rk ), allocatable :: Xc (:,:), Wc (:), knot1 (:), knot2 (:) integer :: i ! Define control points for half ring allocate ( Xc ( 10 , 3 )) Xc ( 1 ,:) = [ 0.5_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 0.5_rk , 0.5_rk , 0.0_rk ] Xc ( 3 ,:) = [ 0.0_rk , 0.5_rk , 0.0_rk ] Xc ( 4 ,:) = [ - 0.5_rk , 0.5_rk , 0.0_rk ] Xc ( 5 ,:) = [ - 0.5_rk , 0.0_rk , 0.0_rk ] Xc ( 1 : 5 , 1 : 2 ) = Xc ( 1 : 5 , 1 : 2 ) * radius1 Xc ( 6 ,:) = [ 0.5_rk , 0.0_rk , 0.0_rk ] Xc ( 7 ,:) = [ 0.5_rk , 0.5_rk , 0.0_rk ] Xc ( 8 ,:) = [ 0.0_rk , 0.5_rk , 0.0_rk ] Xc ( 9 ,:) = [ - 0.5_rk , 0.5_rk , 0.0_rk ] Xc ( 10 ,:) = [ - 0.5_rk , 0.0_rk , 0.0_rk ] Xc ( 6 : 10 , 1 : 2 ) = Xc ( 6 : 10 , 1 : 2 ) * radius2 ! Translate the control points do i = 1 , size ( Xc , 1 ) Xc ( i ,:) = center + Xc ( i ,:) end do ! Define weights for the control points Wc = [ 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk ,& 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk ] ! Define knot vector knot1 = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk / 2.0_rk , & 1.0_rk / 2.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] knot2 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] ! Set knot vector, control points, and weights call this % set ( knot1 , knot2 , Xc , Wc ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine nearest_point ( this , point_Xg , nearest_Xg , nearest_Xt , id ) class ( nurbs_surface ), intent ( in ) :: this real ( rk ), intent ( in ) :: point_Xg (:) real ( rk ), intent ( out ), allocatable , optional :: nearest_Xg (:) real ( rk ), intent ( out ), allocatable , optional :: nearest_Xt (:) integer , intent ( out ), optional :: id integer :: id_ real ( rk ), allocatable :: distances (:) interface pure function nearest_point_help_2d ( f_ng , f_Xg , f_point_Xg ) result ( f_distances ) import :: rk integer , intent ( in ) :: f_ng ( 2 ) real ( rk ), intent ( in ), contiguous :: f_Xg (:,:) real ( rk ), intent ( in ), contiguous :: f_point_Xg (:) real ( rk ), allocatable :: f_distances (:) end function end interface allocate ( distances ( this % ng ( 1 ) * this % ng ( 2 ))) distances = nearest_point_help_2d ( this % ng , this % Xg , point_Xg ) id_ = minloc ( distances , dim = 1 ) if ( present ( id )) id = id_ if ( present ( nearest_Xg )) nearest_Xg = this % Xg ( id_ ,:) if ( present ( nearest_Xt )) nearest_Xt = this % Xt ( id_ ,:) end subroutine !=============================================================================== end module forcad_nurbs_surface !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Xg_nurbs_2d ( Xt , knot1 , knot2 , degree , nc , ng , Xc , Wc ) result ( Xg ) use forcad_utils , only : rk , basis_bspline , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:) integer , intent ( in ) :: degree ( 2 ) integer , intent ( in ) :: nc ( 2 ) integer , intent ( in ) :: ng ( 2 ) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous :: Wc (:) real ( rk ), allocatable :: Xg (:,:) real ( rk ), allocatable :: Tgc (:) integer :: i allocate ( Xg ( ng ( 1 ) * ng ( 2 ), size ( Xc , 2 ))) allocate ( Tgc ( nc ( 1 ) * nc ( 2 ))) !$OMP PARALLEL DO PRIVATE(Tgc) do i = 1 , ng ( 1 ) * ng ( 2 ) Tgc = kron (& basis_bspline ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 ))) Tgc = Tgc * ( Wc / ( dot_product ( Tgc , Wc ))) Xg ( i ,:) = matmul ( Tgc , Xc ) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Xg_bspline_2d ( Xt , knot1 , knot2 , degree , nc , ng , Xc ) result ( Xg ) use forcad_utils , only : rk , basis_bspline , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:) integer , intent ( in ) :: degree ( 2 ) integer , intent ( in ) :: nc ( 2 ) integer , intent ( in ) :: ng ( 2 ) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), allocatable :: Xg (:,:) integer :: i allocate ( Xg ( ng ( 1 ) * ng ( 2 ), size ( Xc , 2 ))) !$OMP PARALLEL DO do i = 1 , ng ( 1 ) * ng ( 2 ) Xg ( i ,:) = matmul ( kron (& basis_bspline ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 ))),& Xc ) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_dTgc_nurbs_2d ( Xt , knot1 , knot2 , degree , nc , ng , Wc ) result ( dTgc ) use forcad_utils , only : rk , basis_bspline_der , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:) integer , intent ( in ) :: degree ( 2 ) integer , intent ( in ) :: nc ( 2 ) integer , intent ( in ) :: ng ( 2 ) real ( rk ), intent ( in ), contiguous :: Wc (:) real ( rk ), allocatable :: dTgc (:,:) real ( rk ), allocatable :: dTgci (:) integer :: i allocate ( dTgc ( ng ( 1 ) * ng ( 2 ), nc ( 1 ) * nc ( 2 ))) !$OMP PARALLEL DO PRIVATE(dTgci) do i = 1 , size ( Xt , 1 ) dTgci = kron (& basis_bspline_der ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline_der ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 ))) dTgci = dTgci * ( Wc / ( dot_product ( dTgci , Wc ))) dTgc ( i ,:) = dTgci end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_dTgc_bspline_2d ( Xt , knot1 , knot2 , degree , nc , ng ) result ( dTgc ) use forcad_utils , only : rk , basis_bspline_der , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:) integer , intent ( in ) :: degree ( 2 ) integer , intent ( in ) :: nc ( 2 ) integer , intent ( in ) :: ng ( 2 ) real ( rk ), allocatable :: dTgc (:,:) integer :: i allocate ( dTgc ( ng ( 1 ) * ng ( 2 ), nc ( 1 ) * nc ( 2 ))) !$OMP PARALLEL DO do i = 1 , size ( Xt , 1 ) dTgc ( i ,:) = kron (& basis_bspline_der ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline_der ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 ))) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Tgc_nurbs_2d ( Xt , knot1 , knot2 , degree , nc , ng , Wc ) result ( Tgc ) use forcad_utils , only : rk , basis_bspline , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:) integer , intent ( in ) :: degree ( 2 ) integer , intent ( in ) :: nc ( 2 ) integer , intent ( in ) :: ng ( 2 ) real ( rk ), intent ( in ), contiguous :: Wc (:) real ( rk ), allocatable :: Tgc (:,:) real ( rk ), allocatable :: Tgci (:) integer :: i allocate ( Tgc ( ng ( 1 ) * ng ( 2 ), nc ( 1 ) * nc ( 2 ))) !$OMP PARALLEL DO PRIVATE(Tgci) do i = 1 , size ( Xt , 1 ) Tgci = kron (& basis_bspline ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 ))) Tgci = Tgci * ( Wc / ( dot_product ( Tgci , Wc ))) Tgc ( i ,:) = Tgci end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Tgc_bspline_2d ( Xt , knot1 , knot2 , degree , nc , ng ) result ( Tgc ) use forcad_utils , only : rk , basis_bspline , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:) integer , intent ( in ) :: degree ( 2 ) integer , intent ( in ) :: nc ( 2 ) integer , intent ( in ) :: ng ( 2 ) real ( rk ), allocatable :: Tgc (:,:) integer :: i allocate ( Tgc ( ng ( 1 ) * ng ( 2 ), nc ( 1 ) * nc ( 2 ))) !$OMP PARALLEL DO do i = 1 , size ( Xt , 1 ) Tgc ( i ,:) = kron (& basis_bspline ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 ))) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function nearest_point_help_2d ( ng , Xg , point_Xg ) result ( distances ) use forcad_utils , only : rk implicit none integer , intent ( in ) :: ng ( 2 ) real ( rk ), intent ( in ), contiguous :: Xg (:,:) real ( rk ), intent ( in ), contiguous :: point_Xg (:) real ( rk ), allocatable :: distances (:) integer :: i allocate ( distances ( ng ( 1 ) * ng ( 2 ))) !$OMP PARALLEL DO do i = 1 , ng ( 1 ) * ng ( 2 ) distances ( i ) = norm2 ( Xg ( i ,:) - point_Xg ) end do !$OMP END PARALLEL DO end function !===============================================================================","tags":"","loc":"sourcefile/forcad_nurbs_surface.f90.html"},{"title":"put_to_nurbs.f90 – ForCAD","text":"This file depends on sourcefile~~put_to_nurbs.f90~~EfferentGraph sourcefile~put_to_nurbs.f90 put_to_nurbs.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~put_to_nurbs.f90->sourcefile~forcad.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~put_to_nurbs.f90->sourcefile~forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program example_put_to_nurbs use forcad use forcad_utils , only : hexahedron_Xc implicit none type ( nurbs_volume ) :: control_shape real ( rk ), allocatable :: X (:,:) integer , allocatable :: elem (:,:) integer :: i , nunit !> You can create your shape or use a predefined one !> Read coordinates from file allocate ( X ( 23200 , 3 )) open ( newunit = nunit , file = 'example/put_to_nurbs_X.txt' ) do i = 1 , 23200 read ( nunit , * ) X ( i , 1 ), X ( i , 2 ), X ( i , 3 ) end do close ( nunit ) !> Read element connectivities from file allocate ( elem ( 20577 , 8 )) open ( newunit = nunit , file = 'example/put_to_nurbs_elem.txt' ) do i = 1 , 20577 read ( nunit , * ) elem ( i , 1 ), elem ( i , 2 ), elem ( i , 4 ), elem ( i , 3 ), elem ( i , 5 ), elem ( i , 6 ), elem ( i , 8 ), elem ( i , 7 ) end do close ( nunit ) !> Set a control shape that will be used to put the shape into !> The contol shape is a hexahedron with 100x40x10 with 10x5x3 number of control points !> By modifying the control shape you can modify the shape call control_shape % set ( nc = [ 10 , 5 , 3 ], Xc = hexahedron_Xc ( L = [ 10 0.0_rk , 4 0.0_rk , 1 0.0_rk ], nc = [ 10 , 5 , 3 ])) !> Map the shape into the shape call control_shape % put_to_nurbs ( X , elem ) !> Deallocate local variables deallocate ( X , elem ) !> Export the shape and the control shape to vtk files call control_shape % export_Xc ( 'vtk/control_shape.vtk' ) call control_shape % export_Xg ( 'vtk/shape.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call control_shape % show ( 'vtk/control_shape.vtk' , 'vtk/shape.vtk' ) !> Finalize the control shape call control_shape % finalize () end program","tags":"","loc":"sourcefile/put_to_nurbs.f90.html"},{"title":"demo_volume.f90 – ForCAD","text":"This file depends on sourcefile~~demo_volume.f90~~EfferentGraph sourcefile~demo_volume.f90 demo_volume.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~demo_volume.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> This program demonstrates the usage of a NURBS volume object to create, and finalize a NURBS volume. !> It sets up control points and weights, generates the volume, and exports the control points !> and the volume to VTK files at various stages. program example_nurbs_volume use forcad , only : rk , nurbs_volume implicit none type ( nurbs_volume ) :: nurbs !! Declare a NURBS volume object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights !----------------------------------------------------------------------------- ! Setting up the NURBS volume !----------------------------------------------------------------------------- !> Define control points for the NURBS volume Xc = generate_Xc ( 1.0_rk ) !> Define weights for the control points allocate ( Wc ( size ( Xc , 1 )), source = 1.0_rk ) !> Set control points and weights for the NURBS volume object call nurbs % set ([ 2 , 2 , 2 ], Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export initial control points to a VTK file call nurbs % export_Xc ( 'vtk/demo_volume_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS volume !----------------------------------------------------------------------------- !> Generate the NURBS volume with a resolution of 15X15X15 call nurbs % create ( 15 , 15 , 15 ) !> Export the generated volume to a VTK file call nurbs % export_Xg ( 'vtk/demo_volume_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/demo_volume_Xc.vtk' , 'vtk/demo_volume_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS volume object call nurbs % finalize () contains !----------------------------------------------------------------------------- function generate_Xc ( L ) result ( control_points ) implicit none real ( rk ), intent ( in ) :: L real ( rk ), allocatable :: control_points (:,:) real ( rk ) :: L2 L2 = L / 2.0_rk allocate ( control_points ( 8 , 3 )) control_points ( 1 ,:) = [ L2 , - L2 , L2 ] control_points ( 2 ,:) = [ L2 , - L2 , - L2 ] control_points ( 3 ,:) = [ - L2 , - L2 , L2 ] control_points ( 4 ,:) = [ - L2 , - L2 , - L2 ] control_points ( 5 ,:) = [ L2 , L2 , L2 ] control_points ( 6 ,:) = [ L2 , L2 , - L2 ] control_points ( 7 ,:) = [ - L2 , L2 , L2 ] control_points ( 8 ,:) = [ - L2 , L2 , - L2 ] end function !----------------------------------------------------------------------------- end program example_nurbs_volume","tags":"","loc":"sourcefile/demo_volume.f90.html"},{"title":"shape_half_circle.f90 – ForCAD","text":"This file depends on sourcefile~~shape_half_circle.f90~~EfferentGraph sourcefile~shape_half_circle.f90 shape_half_circle.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_half_circle.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_half_circle use forcad , only : rk , nurbs_curve implicit none type ( nurbs_curve ) :: shape !> Set up a half circle shape centered at the 0,0,0 with a radius of 1 call shape % set_half_circle ([ 0.0_rk , 0.0_rk , 0.0_rk ], 1.0_rk ) !> Export the control points to a VTK file for visualization. call shape % export_Xc ( 'vtk/shape_half_circle_Xc.vtk' ) !> Create the shape using the specified number of elements in each direction. call shape % create ( 60 ) !> Export the geometry to a VTK file for visualization. call shape % export_Xg ( 'vtk/shape_half_circle_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_half_circle_Xc.vtk' , 'vtk/shape_half_circle_Xg.vtk' ) !> Finalize and clean up the shape object. call shape % finalize () end program","tags":"","loc":"sourcefile/shape_half_circle.f90.html"},{"title":"shape_C_3d.f90 – ForCAD","text":"This file depends on sourcefile~~shape_c_3d.f90~~EfferentGraph sourcefile~shape_c_3d.f90 shape_C_3d.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_c_3d.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_C_3d use forcad , only : rk , nurbs_volume implicit none type ( nurbs_volume ) :: shape !----------------------------------------------------------------------------- ! Setting up NURBS C-shape !----------------------------------------------------------------------------- !> Set a C-shape with radius 2.0 and center at [0.0, 0.0, 0.0] call shape % set_C ( center = [ 0.0_rk , 0.0_rk , 0.0_rk ], radius1 = 1.0_rk , radius2 = 2.0_rk , length = 2.0_rk ) !> Export control points to a VTK file call shape % export_Xc ( 'vtk/shape_C_3d_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating C-shape !----------------------------------------------------------------------------- !> Generate the NURBS C-shape with a resolution of 100 call shape % create ( 100 , 60 , 10 ) !> Export the generated cirlce to a VTK file call shape % export_Xg ( 'vtk/shape_C_3d_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_C_3d_Xc.vtk' , 'vtk/shape_C_3d_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS curve object call shape % finalize () end program","tags":"","loc":"sourcefile/shape_c_3d.f90.html"}]} \ No newline at end of file +var tipuesearch = {"pages":[{"title":" ForCAD ","text":"ForCAD ForCAD : A parallel Fortran library for geometric modeling using NURBS (Non-Uniform Rational B-Splines). ForCAD supports B-Spline , NURBS , Bezier , and Rational Bezier curves, surfaces, and volumes. Main Features Parallelized using OpenMP and do concurrent . Create NURBS objects by specifying control points, weights and knots. Refine NURBS objects by inserting or removing knots and elevating degree. Compute basis functions and derivatives of NURBS objects. Obtain IGA elements connectivity. Obtain visualized elements connectivity and coordinates for geometry and control geometry. Mesh insertion into a NURBS object. Export NURBS objects to VTK files for visualization. Includes predefined NURBS shapes: Circle, Half Circle, Tetragon, Hexahedron, 2D Ring, Half 2D Ring, 3D Ring, Half 3D Ring, C-shapes. Rotate and translate NURBS objects. Visualization using provided python PyVista scripts. Examples Installation Requirements A Fortran compiler, such as GNU Fortran ( gfortran ), Intel Fortran Compiler ( ifx/ifort ) or NVIDIA HPC SDK Fortran compiler ( nvfortran ). The Fortran Package Manager fpm . Optional: PyVista (Recommended) or ParaView for visualization. Clone the repository Clone the ForCAD repository from GitHub: git clone https://github.com/gha3mi/forcad.git cd forcad Install PyVista (Optional) To install PyVista, run the following command: pip install pyvista Running Examples with fpm fpm run --example After executing the examples, .vtk files will be generated in the vtk directory. To visualize these files, a show() method is provided which utilizes PyVista. Alternatively, other visualization tools like ParaView can also be used. Using ForCAD as a fpm Dependency If you want to use ForCAD as a dependency in your own fpm project,\nyou can easily include it by adding the following line to your fpm.toml file: [dependencies] forcad = { git = \"https://github.com/gha3mi/forcad.git\" } API documentation The most up-to-date API documentation for the master branch is available here .\nTo generate the API documentation for ForCAD using ford run the following\ncommand: ford ford.yml Roadmap For a detailed roadmap outlining upcoming features and enhancements, please refer to ROADMAP.md . Contributing To contribute to ForCAD, please review the CONTRIBUTING.md . Citation If you use ForCAD in your research, please cite it as follows: @software { seyed_ali_ghasemi_2024_10904447 , author = {Ghasemi, S. A.} , title = {gha3mi/ForCAD} , year = 2024 , publisher = {Zenodo} , doi = {10.5281/zenodo.10904447} , url = {https://doi.org/10.5281/zenodo.10904447} } References Piegl, L., & Tiller, W. (1995). The NURBS Book. In Monographs in Visual Communications. Springer Berlin Heidelberg. https://doi.org/10.1007/978-3-642-97385-7 An Introduction to NURBS. (2001). Elsevier. https://doi.org/10.1016/b978-1-55860-669-2.x5000-3 Sullivan et al., (2019). PyVista: 3D plotting and mesh analysis through a streamlined interface for the Visualization Toolkit (VTK). Journal of Open Source Software, 4(37), 1450, https://doi.org/10.21105/joss.01450 Ahrens, James, Geveci, Berk, Law, Charles, ParaView: An End-User Tool for Large Data Visualization, Visualization Handbook, Elsevier, 2005, ISBN-13: 9780123875822 Developer Info Seyed Ali Ghasemi","tags":"home","loc":"index.html"},{"title":"nurbs_volume – ForCAD ","text":"type, public :: nurbs_volume Components Type Visibility Attributes Name Initial real(kind=rk), private, allocatable :: Wc (:) Weights for the control points (1D array: [nc(1) nc(2) nc(3)]) real(kind=rk), private, allocatable :: Xc (:,:) Control points (2D array: [nc(1) nc(2) nc(3), dim]) real(kind=rk), private, allocatable :: Xg (:,:) Geometry points (2D array: [ng(1) ng(2) ng(3), dim]) real(kind=rk), private, allocatable :: Xt (:,:) Evaluation parameter values (2D array: [ng(1) ng(2) ng(3), dim] real(kind=rk), private, allocatable :: Xt1 (:) Evaluation parameter values in the first direction (1D array: [ng(1)]) real(kind=rk), private, allocatable :: Xt2 (:) Evaluation parameter values in the second direction (1D array: [ng(2)]) real(kind=rk), private, allocatable :: Xt3 (:) Evaluation parameter values in the third direction (1D array: [ng(3)]) integer, private :: degree (3) Degree (order) of the volume integer, private, allocatable :: elemConn (:,:) IGA element connectivity integer, private, allocatable :: elemConn_Xc_vis (:,:) Connectivity for visualization of control points integer, private, allocatable :: elemConn_Xg_vis (:,:) Connectivity for visualization of geometry points real(kind=rk), private, allocatable :: knot1 (:) Knot vector in the first direction (1D array) real(kind=rk), private, allocatable :: knot2 (:) Knot vector in the second direction (1D array) real(kind=rk), private, allocatable :: knot3 (:) Knot vector in the third direction (1D array) integer, private :: nc (3) Number of control points in each direction integer, private :: ng (3) Number of geometry points in each direction Type-Bound Procedures procedure, public :: basis Compute the basis functions of the NURBS volume private pure subroutine basis (this, res1, res2, res3, Xt1, Xt2, Xt3, Tgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 integer, intent(in), optional :: res3 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt3 (:) real(kind=rk), intent(out), allocatable :: Tgc (:,:) procedure, public :: cmp_degree Compute degree of the NURBS volume private pure subroutine cmp_degree (this, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: dir procedure, public :: cmp_elem Generate IGA element connectivity private pure function cmp_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:) procedure, public :: cmp_elem_Xc_vis Generate connectivity for control points private pure function cmp_elem_Xc_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) procedure, public :: cmp_elem_Xg_vis Generate connectivity for geometry points private pure function cmp_elem_Xg_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) procedure, public :: cmp_nc Compute number of required control points private pure subroutine cmp_nc (this, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: dir procedure, public :: create Generate geometry points private pure subroutine create (this, res1, res2, res3, Xt1, Xt2, Xt3, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 integer, intent(in), optional :: res3 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt3 (:) real(kind=rk), intent(in), optional, contiguous :: Xt (:,:) procedure, public :: derivative Compute the derivative of the NURBS volume private pure subroutine derivative (this, res1, res2, res3, Xt1, Xt2, Xt3, dTgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 integer, intent(in), optional :: res3 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt3 (:) real(kind=rk), intent(out), allocatable :: dTgc (:,:) procedure, public :: elevate_degree Elevate the degree of the NURBS volume private pure subroutine elevate_degree (this, dir, t) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in) :: dir integer, intent(in) :: t procedure, public :: export_Xc Export control points to VTK file private impure subroutine export_Xc (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this character(len=*), intent(in) :: filename procedure, public :: export_Xg Export geometry points to VTK file private impure subroutine export_Xg (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this character(len=*), intent(in) :: filename procedure, public :: finalize Finalize the NURBS volume object private pure subroutine finalize (this) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this generic, public :: get_Wc => get_Wc_all , get_Wci Get weights private pure function get_Wc_all (this) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) private pure function get_Wci (this, n) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) generic, public :: get_Xc => get_Xc_all , get_Xci , get_Xcid Get control points private pure function get_Xc_all (this) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xci (this, n) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xcid (this, n, dir) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) generic, public :: get_Xg => get_Xg_all , get_Xgi , get_Xgid Get geometry points private pure function get_Xg_all (this) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xgi (this, n) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xgid (this, n, dir) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) procedure, public :: get_Xt Get parameter values private pure function get_Xt (this, dir) result(Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) procedure, public :: get_continuity Compute and return the continuity of the NURBS volume private pure function get_continuity (this, dir) result(c) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) generic, public :: get_degree => get_degree_all , get_degree_dir Get degree of the NURBS volume private pure function get_degree_all (this) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, (3) private pure function get_degree_dir (this, dir) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer procedure, public :: get_elem Get IGA element connectivity private pure function get_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:) procedure, public :: get_elem_Xc_vis Get connectivity for control points private pure function get_elem_Xc_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:) procedure, public :: get_elem_Xg_vis Get connectivity for geometry points private pure function get_elem_Xg_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:) generic, public :: get_knot => get_knoti , get_knot_all Get knot vector private pure function get_knoti (this, dir, i) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir integer, intent(in) :: i Return Value real(kind=rk) private pure function get_knot_all (this, dir) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) procedure, public :: get_multiplicity Compute and return the multiplicity of the knots private pure function get_multiplicity (this, dir) result(m) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) procedure, public :: get_ng Get number of geometry points private pure function get_ng (this) result(ng) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, (3) procedure, public :: insert_knots Insert knots into the knot vector private pure subroutine insert_knots (this, dir, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) procedure, public :: is_rational Check if the NURBS volume is rational private pure function is_rational (this) result(r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value logical procedure, public :: modify_Wc Modify weights private pure subroutine modify_Wc (this, W, num) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: W integer, intent(in) :: num procedure, public :: modify_Xc Modify control points private pure subroutine modify_Xc (this, X, num, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: X integer, intent(in) :: num integer, intent(in) :: dir procedure, public :: nearest_point Find the nearest point on the NURBS volume private pure subroutine nearest_point (this, point_Xg, nearest_Xg, nearest_Xt, id) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this real(kind=rk), intent(in) :: point_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xt (:) integer, intent(out), optional :: id procedure, public :: put_to_nurbs Put a shape to a NURBS volume private pure subroutine put_to_nurbs (this, X, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: X (:,:) integer, intent(in), contiguous :: elemConn (:,:) procedure, public :: remove_knots Remove knots from the knot vector private pure subroutine remove_knots (this, dir, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) procedure, public :: rotate_Xc Rotate control points private pure subroutine rotate_Xc (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta procedure, public :: rotate_Xg Rotate geometry points private pure subroutine rotate_Xg (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta generic, public :: set => set1 , set2 , set3 Set NURBS volume private pure subroutine set1 (this, knot1, knot2, knot3, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set control points and weights for the NURBS volume object. Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: knot3 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set2 (this, Xth_dir1, Xth_dir2, Xth_dir3, degree, continuity1, continuity2, continuity3, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set control points and weights for the NURBS volume object. Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir1 (:) real(kind=rk), intent(in), contiguous :: Xth_dir2 (:) real(kind=rk), intent(in), contiguous :: Xth_dir3 (:) integer, intent(in), contiguous :: degree (:) integer, intent(in), contiguous :: continuity1 (:) integer, intent(in), contiguous :: continuity2 (:) integer, intent(in), contiguous :: continuity3 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set3 (this, nc, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set Bezier or Rational Bezier volume using control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set1 Set knot vectors, control points and weights for the NURBS volume object private pure subroutine set1 (this, knot1, knot2, knot3, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set control points and weights for the NURBS volume object. Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: knot3 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set2 Set NURBS volume using nodes of parameter space, degree, continuity, control points and weights private pure subroutine set2 (this, Xth_dir1, Xth_dir2, Xth_dir3, degree, continuity1, continuity2, continuity3, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set control points and weights for the NURBS volume object. Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir1 (:) real(kind=rk), intent(in), contiguous :: Xth_dir2 (:) real(kind=rk), intent(in), contiguous :: Xth_dir3 (:) integer, intent(in), contiguous :: degree (:) integer, intent(in), contiguous :: continuity1 (:) integer, intent(in), contiguous :: continuity2 (:) integer, intent(in), contiguous :: continuity3 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set3 Set Bezier or Rational Bezier volume using control points and weights private pure subroutine set3 (this, nc, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set Bezier or Rational Bezier volume using control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set_C Set a C-shape private pure subroutine set_C (this, center, radius1, radius2, length) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 real(kind=rk), intent(in) :: length procedure, public :: set_elem Set IGA element connectivity private pure subroutine set_elem (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) procedure, public :: set_elem_Xc_vis Set connectivity for control points private pure subroutine set_elem_Xc_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) procedure, public :: set_elem_Xg_vis Set connectivity for geometry points private pure subroutine set_elem_Xg_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) procedure, public :: set_half_ring Set a half ring private pure subroutine set_half_ring (this, center, radius1, radius2, length) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 real(kind=rk), intent(in) :: length procedure, public :: set_hexahedron Set a hexahedron private pure subroutine set_hexahedron (this, L, nc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: L (:) integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set_ring Set a ring private pure subroutine set_ring (this, center, radius1, radius2, length) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 real(kind=rk), intent(in) :: length procedure, public :: show Show the NURBS object using PyVista private impure subroutine show (this, vtkfile_Xc, vtkfile_Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this character(len=*), intent(in) :: vtkfile_Xc character(len=*), intent(in) :: vtkfile_Xg procedure, public :: translate_Xc Translate control points private pure subroutine translate_Xc (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) procedure, public :: translate_Xg Translate geometry points private pure subroutine translate_Xg (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) procedure, private :: get_Wc_all Get all weights private pure function get_Wc_all (this) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) procedure, private :: get_Wci Get i-th weight private pure function get_Wci (this, n) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) procedure, private :: get_Xc_all Get all control points private pure function get_Xc_all (this) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) procedure, private :: get_Xci Get i-th control point private pure function get_Xci (this, n) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) procedure, private :: get_Xcid Get i-th control point in a specific direction private pure function get_Xcid (this, n, dir) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) procedure, private :: get_Xg_all Get all geometry points private pure function get_Xg_all (this) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) procedure, private :: get_Xgi Get i-th geometry point private pure function get_Xgi (this, n) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) procedure, private :: get_Xgid Get i-th geometry point in a specific direction private pure function get_Xgid (this, n, dir) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) procedure, private :: get_degree_all Get degree of the NURBS volume in all directions private pure function get_degree_all (this) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, (3) procedure, private :: get_degree_dir Get degree of the NURBS volume in a specific direction private pure function get_degree_dir (this, dir) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer procedure, private :: get_knot_all Get all knot vectors private pure function get_knot_all (this, dir) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) procedure, private :: get_knoti Get i-th knot value private pure function get_knoti (this, dir, i) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir integer, intent(in) :: i Return Value real(kind=rk)","tags":"","loc":"type/nurbs_volume.html"},{"title":"nurbs_surface – ForCAD ","text":"type, public :: nurbs_surface Components Type Visibility Attributes Name Initial real(kind=rk), private, allocatable :: Wc (:) Weights for control points (1D array: [nc(1)*nc(2)]) real(kind=rk), private, allocatable :: Xc (:,:) Control points (2D array: [nc(1)*nc(2), dim]) real(kind=rk), private, allocatable :: Xg (:,:) Geometry points (2D array: [ng(1)*ng(2), dim]) real(kind=rk), private, allocatable :: Xt (:,:) Evaluation parameter values (2D array: [ng(1)*ng(2), 2]) real(kind=rk), private, allocatable :: Xt1 (:) Evaluation parameter values in the first direction (1D array: [ng(1)]) real(kind=rk), private, allocatable :: Xt2 (:) Evaluation parameter values in the second direction (1D array: [ng(2)]) integer, private :: degree (2) Degree (order) of the surface integer, private, allocatable :: elemConn (:,:) IGA element connectivity integer, private, allocatable :: elemConn_Xc_vis (:,:) Connectivity for visualization of control points integer, private, allocatable :: elemConn_Xg_vis (:,:) Connectivity for visualization of geometry points real(kind=rk), private, allocatable :: knot1 (:) Knot vector in the first direction (1D array) real(kind=rk), private, allocatable :: knot2 (:) Knot vector in the second direction (1D array) integer, private :: nc (2) Number of control points in each direction integer, private :: ng (2) Number of geometry points in each direction Type-Bound Procedures procedure, public :: basis Compute the basis functions of the NURBS surface private pure subroutine basis (this, res1, res2, Xt1, Xt2, Tgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(out), allocatable :: Tgc (:,:) procedure, public :: cmp_degree Compute degree of the NURBS surface private pure subroutine cmp_degree (this, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: dir procedure, public :: cmp_elem Generate IGA element connectivity private pure function cmp_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:) procedure, public :: cmp_elem_Xc_vis Generate connectivity for control points private pure function cmp_elem_Xc_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) procedure, public :: cmp_elem_Xg_vis Generate connectivity for geometry points private pure function cmp_elem_Xg_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) procedure, public :: cmp_nc Compute number of required control points private pure subroutine cmp_nc (this, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: dir procedure, public :: create Generate geometry points private pure subroutine create (this, res1, res2, Xt1, Xt2, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt (:,:) procedure, public :: derivative Compute the derivative of the NURBS surface private pure subroutine derivative (this, res1, res2, Xt1, Xt2, dTgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(out), allocatable :: dTgc (:,:) procedure, public :: elevate_degree Elevate degree private pure subroutine elevate_degree (this, dir, t) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in) :: dir integer, intent(in) :: t procedure, public :: export_Xc Export control points to VTK file private impure subroutine export_Xc (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this character(len=*), intent(in) :: filename procedure, public :: export_Xg Export geometry points to VTK file private impure subroutine export_Xg (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this character(len=*), intent(in) :: filename procedure, public :: finalize Finalize the NURBS surface object private pure subroutine finalize (this) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this generic, public :: get_Wc => get_Wc_all , get_Wci Get weights private pure function get_Wc_all (this) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) private pure function get_Wci (this, n) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) generic, public :: get_Xc => get_Xc_all , get_Xci , get_Xcid Get control points private pure function get_Xc_all (this) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xci (this, n) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xcid (this, n, dir) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) generic, public :: get_Xg => get_Xg_all , get_Xgi , get_Xgid Get geometry points private pure function get_Xg_all (this) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xgi (this, n) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xgid (this, n, dir) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) procedure, public :: get_Xt Get parameter values private pure function get_Xt (this, dir) result(Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) procedure, public :: get_continuity Compute and return the continuity of the NURBS surface private pure function get_continuity (this, dir) result(c) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) generic, public :: get_degree => get_degree_all , get_degree_dir Get degree of the NURBS surface private pure function get_degree_all (this) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, (2) private pure function get_degree_dir (this, dir) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer procedure, public :: get_elem Get IGA element connectivity private pure function get_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:) procedure, public :: get_elem_Xc_vis Get connectivity for control points private pure function get_elem_Xc_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:) procedure, public :: get_elem_Xg_vis Get connectivity for geometry points private pure function get_elem_Xg_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:) generic, public :: get_knot => get_knoti , get_knot_all Get knot vector private pure function get_knoti (this, dir, i) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir integer, intent(in) :: i Return Value real(kind=rk) private pure function get_knot_all (this, dir) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) procedure, public :: get_multiplicity Compute and return the multiplicity of the knot vector private pure function get_multiplicity (this, dir) result(m) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) procedure, public :: get_nc Get number of control points private pure function get_nc (this, dir) result(nc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer procedure, public :: get_ng Get number of geometry points private pure function get_ng (this) result(ng) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, (2) procedure, public :: insert_knots Insert knots into the knot vector private pure subroutine insert_knots (this, dir, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) procedure, public :: is_rational Check if the NURBS surface is rational private pure function is_rational (this) result(r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value logical procedure, public :: modify_Wc Modify weights private pure subroutine modify_Wc (this, W, num) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: W integer, intent(in) :: num procedure, public :: modify_Xc Modify control points private pure subroutine modify_Xc (this, X, num, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: X integer, intent(in) :: num integer, intent(in) :: dir procedure, public :: nearest_point Find the nearest point on the NURBS surface private pure subroutine nearest_point (this, point_Xg, nearest_Xg, nearest_Xt, id) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this real(kind=rk), intent(in) :: point_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xt (:) integer, intent(out), optional :: id procedure, public :: remove_knots Remove knots from the knot vector private pure subroutine remove_knots (this, dir, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) procedure, public :: rotate_Xc Rotate control points private pure subroutine rotate_Xc (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta procedure, public :: rotate_Xg Rotate geometry points private pure subroutine rotate_Xg (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta generic, public :: set => set1 , set2 , set3 Set NURBS surface private pure subroutine set1 (this, knot1, knot2, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set knot vectors, control points and weights for the NURBS surface object. Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set2 (this, Xth_dir1, Xth_dir2, degree, continuity1, continuity2, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir1 (:) real(kind=rk), intent(in), contiguous :: Xth_dir2 (:) integer, intent(in), contiguous :: degree (:) integer, intent(in), contiguous :: continuity1 (:) integer, intent(in), contiguous :: continuity2 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set3 (this, nc, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set Bezier or Rational Bezier surface using control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set1 Set knot vectors, control points and weights for the NURBS surface object private pure subroutine set1 (this, knot1, knot2, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set knot vectors, control points and weights for the NURBS surface object. Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set2 Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights private pure subroutine set2 (this, Xth_dir1, Xth_dir2, degree, continuity1, continuity2, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir1 (:) real(kind=rk), intent(in), contiguous :: Xth_dir2 (:) integer, intent(in), contiguous :: degree (:) integer, intent(in), contiguous :: continuity1 (:) integer, intent(in), contiguous :: continuity2 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set3 Set Bezier or Rational Bezier surface using control points and weights private pure subroutine set3 (this, nc, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set Bezier or Rational Bezier surface using control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set_C Set a C-shape private pure subroutine set_C (this, center, radius1, radius2) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 procedure, public :: set_elem Set IGA element connectivity private pure subroutine set_elem (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) procedure, public :: set_elem_Xc_vis Set connectivity for control points private pure subroutine set_elem_Xc_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) procedure, public :: set_elem_Xg_vis Set connectivity for geometry points private pure subroutine set_elem_Xg_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) procedure, public :: set_half_ring Set a half ring private pure subroutine set_half_ring (this, center, radius1, radius2) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 procedure, public :: set_ring Set a ring private pure subroutine set_ring (this, center, radius1, radius2) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 procedure, public :: set_tetragon Set a tetragon private pure subroutine set_tetragon (this, L, nc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: L (2) integer, intent(in) :: nc (2) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: show Show the NURBS object using PyVista private impure subroutine show (this, vtkfile_Xc, vtkfile_Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this character(len=*), intent(in) :: vtkfile_Xc character(len=*), intent(in) :: vtkfile_Xg procedure, public :: translate_Xc Translate control points private pure subroutine translate_Xc (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) procedure, public :: translate_Xg Translate geometry points private pure subroutine translate_Xg (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) procedure, private :: get_Wc_all Get all weights private pure function get_Wc_all (this) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) procedure, private :: get_Wci Get i-th weight private pure function get_Wci (this, n) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) procedure, private :: get_Xc_all Get all control points private pure function get_Xc_all (this) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) procedure, private :: get_Xci Get i-th control point private pure function get_Xci (this, n) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) procedure, private :: get_Xcid Get i-th control point in a specific direction private pure function get_Xcid (this, n, dir) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) procedure, private :: get_Xg_all Get all geometry points private pure function get_Xg_all (this) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) procedure, private :: get_Xgi Get i-th geometry point private pure function get_Xgi (this, n) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) procedure, private :: get_Xgid Get i-th geometry point in a specific direction private pure function get_Xgid (this, n, dir) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) procedure, private :: get_degree_all Get degree of the NURBS surface in both directions private pure function get_degree_all (this) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, (2) procedure, private :: get_degree_dir Get degree of the NURBS surface in a specific direction private pure function get_degree_dir (this, dir) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer procedure, private :: get_knot_all Get all knot vectors private pure function get_knot_all (this, dir) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) procedure, private :: get_knoti Get i-th knot value private pure function get_knoti (this, dir, i) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir integer, intent(in) :: i Return Value real(kind=rk)","tags":"","loc":"type/nurbs_surface.html"},{"title":"nurbs_curve – ForCAD ","text":"type, public :: nurbs_curve Components Type Visibility Attributes Name Initial real(kind=rk), private, allocatable :: Wc (:) Weights for control points (1D array: [nc]) real(kind=rk), private, allocatable :: Xc (:,:) Control points (2D array: [nc, dim]) real(kind=rk), private, allocatable :: Xg (:,:) Geometry points (2D array: [ng, dim]) real(kind=rk), private, allocatable :: Xt (:) Evaluation points (1D array: [ng]) integer, private :: degree Degree (order) of the curve integer, private, allocatable :: elemConn (:,:) IGA element connectivity integer, private, allocatable :: elemConn_Xc_vis (:,:) Connectivity for visualization of control points integer, private, allocatable :: elemConn_Xg_vis (:,:) Connectivity for visualization of geometry points real(kind=rk), private, allocatable :: knot (:) Knot vector (1D array) integer, private :: nc Number of control points integer, private :: ng Number of geometry points Type-Bound Procedures procedure, public :: basis Compute the basis functions of the NURBS curve private pure subroutine basis (this, res, Xt, Tgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), optional :: res real(kind=rk), intent(in), optional, contiguous :: Xt (:) real(kind=rk), intent(out), allocatable :: Tgc (:,:) procedure, public :: cmp_degree Compute degree of the NURBS curve private pure subroutine cmp_degree (this) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this procedure, public :: cmp_elem Generate IGA element connectivity private pure function cmp_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:) procedure, public :: cmp_elem_Xc_vis Generate connectivity for control points private pure function cmp_elem_Xc_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in), optional :: p Return Value integer, allocatable, (:,:) procedure, public :: cmp_elem_Xg_vis Generate connectivity for geometry points private pure function cmp_elem_Xg_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in), optional :: p Return Value integer, allocatable, (:,:) procedure, public :: cmp_nc Compute number of required control points private pure subroutine cmp_nc (this) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this procedure, public :: create Generate geometry points private pure subroutine create (this, res, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), optional :: res real(kind=rk), intent(in), optional, contiguous :: Xt (:) procedure, public :: derivative Compute the derivative of the NURBS curve private pure subroutine derivative (this, res, Xt, dTgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), optional :: res real(kind=rk), intent(in), optional, contiguous :: Xt (:) real(kind=rk), intent(out), allocatable :: dTgc (:,:) procedure, public :: elevate_degree Elevate the degree of the curve private pure subroutine elevate_degree (this, t) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in) :: t procedure, public :: export_Xc Export control points to VTK file private impure subroutine export_Xc (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this character(len=*), intent(in) :: filename procedure, public :: export_Xg Export geometry points to VTK file private impure subroutine export_Xg (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this character(len=*), intent(in) :: filename procedure, public :: finalize Finalize the NURBS curve object private pure subroutine finalize (this) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this generic, public :: get_Wc => get_Wc_all , get_Wci Get weights private pure function get_Wc_all (this) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) private pure function get_Wci (this, n) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) generic, public :: get_Xc => get_Xc_all , get_Xci , get_Xcid Get control points private pure function get_Xc_all (this) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xci (this, n) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xcid (this, n, dir) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) generic, public :: get_Xg => get_Xg_all , get_Xgi , get_Xgid Get geometry points private pure function get_Xg_all (this) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xgi (this, n) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xgid (this, n, dir) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) procedure, public :: get_Xt Get parameter values private pure function get_Xt (this) result(Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) procedure, public :: get_continuity Compute and return the continuity of the curve private pure function get_continuity (this) result(c) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:) procedure, public :: get_degree Get degree of the NURBS curve private pure function get_degree (this) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer procedure, public :: get_elem Get IGA element connectivity private pure function get_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:) procedure, public :: get_elem_Xc_vis Get connectivity for control points private pure function get_elem_Xc_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:) procedure, public :: get_elem_Xg_vis Get connectivity for geometry points private pure function get_elem_Xg_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:) generic, public :: get_knot => get_knoti , get_knot_all Get knot vector private pure function get_knoti (this, i) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: i Return Value real(kind=rk) private pure function get_knot_all (this) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) procedure, public :: get_multiplicity Compute and return the multiplicity of the knots private pure function get_multiplicity (this) result(m) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:) procedure, public :: get_nc Get number of control points private pure function get_nc (this) result(nc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer procedure, public :: get_ng Get number of geometry points private pure function get_ng (this) result(ng) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer procedure, public :: insert_knots Insert knots into the knot vector private pure subroutine insert_knots (this, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) procedure, public :: is_rational Check if the NURBS curve is rational private pure function is_rational (this) result(r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value logical procedure, public :: modify_Wc Modify weights private pure subroutine modify_Wc (this, W, num) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: W integer, intent(in) :: num procedure, public :: modify_Xc Modify control points private pure subroutine modify_Xc (this, X, num, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: X integer, intent(in) :: num integer, intent(in) :: dir procedure, public :: nearest_point Find the nearest point on the NURBS curve private pure subroutine nearest_point (this, point_Xg, nearest_Xg, nearest_Xt, id) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this real(kind=rk), intent(in) :: point_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xg (:) real(kind=rk), intent(out), optional :: nearest_Xt integer, intent(out), optional :: id procedure, public :: remove_knots Remove knots from the knot vector private pure subroutine remove_knots (this, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) procedure, public :: rotate_Xc Rotate control points private pure subroutine rotate_Xc (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta procedure, public :: rotate_Xg Rotate geometry points private pure subroutine rotate_Xg (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta generic, public :: set => set1 , set2 , set3 Set NURBS curve private pure subroutine set1 (this, knot, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set knot vector, control points and weights for the NURBS curve object. Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set2 (this, Xth_dir, degree, continuity, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set NURBS curve using nodes of parameter space (Xth), degree, continuity, control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir (:) integer, intent(in) :: degree integer, intent(in), contiguous :: continuity (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set3 (this, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set Bezier or Rational Bezier curve using control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set1 Set knot vector, control points and weights for the NURBS curve object private pure subroutine set1 (this, knot, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set knot vector, control points and weights for the NURBS curve object. Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set2 Set NURBS curve using nodes of parameter space, degree, continuity, control points and weights private pure subroutine set2 (this, Xth_dir, degree, continuity, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set NURBS curve using nodes of parameter space (Xth), degree, continuity, control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir (:) integer, intent(in) :: degree integer, intent(in), contiguous :: continuity (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set3 Set Bezier or Rational Bezier curve using control points and weights private pure subroutine set3 (this, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set Bezier or Rational Bezier curve using control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) procedure, public :: set_C Set a C-shape private pure subroutine set_C (this, center, radius) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius procedure, public :: set_circle Set a circle private pure subroutine set_circle (this, center, radius) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius procedure, public :: set_elem Set IGA element connectivity private pure subroutine set_elem (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) procedure, public :: set_elem_Xc_vis Set connectivity for control points private pure subroutine set_elem_Xc_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) procedure, public :: set_elem_Xg_vis Set connectivity for geometry points private pure subroutine set_elem_Xg_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) procedure, public :: set_half_circle Set a half circle private pure subroutine set_half_circle (this, center, radius) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius procedure, public :: show Show the NURBS object using PyVista private impure subroutine show (this, vtkfile_Xc, vtkfile_Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this character(len=*), intent(in) :: vtkfile_Xc character(len=*), intent(in) :: vtkfile_Xg procedure, public :: translate_Xc Translate control points private pure subroutine translate_Xc (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) procedure, public :: translate_Xg Translate geometry points private pure subroutine translate_Xg (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) procedure, private :: get_Wc_all Get all weights private pure function get_Wc_all (this) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) procedure, private :: get_Wci Get i-th weight private pure function get_Wci (this, n) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) procedure, private :: get_Xc_all Get all control points private pure function get_Xc_all (this) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) procedure, private :: get_Xci Get i-th control point private pure function get_Xci (this, n) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) procedure, private :: get_Xcid Get i-th control point in a specific direction private pure function get_Xcid (this, n, dir) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) procedure, private :: get_Xg_all Get all geometry points private pure function get_Xg_all (this) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) procedure, private :: get_Xgi Get i-th geometry point private pure function get_Xgi (this, n) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) procedure, private :: get_Xgid Get i-th geometry point in a specific direction private pure function get_Xgid (this, n, dir) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) procedure, private :: get_knot_all Get all knot vectors private pure function get_knot_all (this) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) procedure, private :: get_knoti Get i-th knot value private pure function get_knoti (this, i) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: i Return Value real(kind=rk)","tags":"","loc":"type/nurbs_curve.html"},{"title":"compute_Xg_nurbs_3d – ForCAD","text":"impure function compute_Xg_nurbs_3d(Xt, knot1, knot2, knot3, degree, nc, ng, Xc, Wc) result(Xg) Uses forcad_utils proc~~compute_xg_nurbs_3d~~UsesGraph proc~compute_xg_nurbs_3d compute_Xg_nurbs_3d module~forcad_utils forcad_utils proc~compute_xg_nurbs_3d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: knot3 (:) integer, intent(in) :: degree (3) integer, intent(in) :: nc (3) integer, intent(in) :: ng (3) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), contiguous :: Wc (:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_xg_nurbs_3d~~CallsGraph proc~compute_xg_nurbs_3d compute_Xg_nurbs_3d proc~basis_bspline basis_bspline proc~compute_xg_nurbs_3d->proc~basis_bspline proc~kron kron proc~compute_xg_nurbs_3d->proc~kron Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_xg_nurbs_3d.html"},{"title":"compute_Xg_bspline_3d – ForCAD","text":"impure function compute_Xg_bspline_3d(Xt, knot1, knot2, knot3, degree, nc, ng, Xc) result(Xg) Uses forcad_utils proc~~compute_xg_bspline_3d~~UsesGraph proc~compute_xg_bspline_3d compute_Xg_bspline_3d module~forcad_utils forcad_utils proc~compute_xg_bspline_3d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: knot3 (:) integer, intent(in) :: degree (3) integer, intent(in) :: nc (3) integer, intent(in) :: ng (3) real(kind=rk), intent(in), contiguous :: Xc (:,:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_xg_bspline_3d~~CallsGraph proc~compute_xg_bspline_3d compute_Xg_bspline_3d proc~basis_bspline basis_bspline proc~compute_xg_bspline_3d->proc~basis_bspline proc~kron kron proc~compute_xg_bspline_3d->proc~kron Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_xg_bspline_3d.html"},{"title":"compute_dTgc_nurbs_3d – ForCAD","text":"impure function compute_dTgc_nurbs_3d(Xt, knot1, knot2, knot3, degree, nc, ng, Wc) result(dTgc) Uses forcad_utils proc~~compute_dtgc_nurbs_3d~~UsesGraph proc~compute_dtgc_nurbs_3d compute_dTgc_nurbs_3d module~forcad_utils forcad_utils proc~compute_dtgc_nurbs_3d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: knot3 (:) integer, intent(in) :: degree (3) integer, intent(in) :: nc (3) integer, intent(in) :: ng (3) real(kind=rk), intent(in), contiguous :: Wc (:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_dtgc_nurbs_3d~~CallsGraph proc~compute_dtgc_nurbs_3d compute_dTgc_nurbs_3d proc~basis_bspline_der basis_bspline_der proc~compute_dtgc_nurbs_3d->proc~basis_bspline_der proc~kron kron proc~compute_dtgc_nurbs_3d->proc~kron proc~isinf isinf proc~basis_bspline_der->proc~isinf Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_dtgc_nurbs_3d.html"},{"title":"compute_dTgc_bspline_3d – ForCAD","text":"impure function compute_dTgc_bspline_3d(Xt, knot1, knot2, knot3, degree, nc, ng) result(dTgc) Uses forcad_utils proc~~compute_dtgc_bspline_3d~~UsesGraph proc~compute_dtgc_bspline_3d compute_dTgc_bspline_3d module~forcad_utils forcad_utils proc~compute_dtgc_bspline_3d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: knot3 (:) integer, intent(in) :: degree (3) integer, intent(in) :: nc (3) integer, intent(in) :: ng (3) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_dtgc_bspline_3d~~CallsGraph proc~compute_dtgc_bspline_3d compute_dTgc_bspline_3d proc~basis_bspline_der basis_bspline_der proc~compute_dtgc_bspline_3d->proc~basis_bspline_der proc~kron kron proc~compute_dtgc_bspline_3d->proc~kron proc~isinf isinf proc~basis_bspline_der->proc~isinf Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_dtgc_bspline_3d.html"},{"title":"compute_Tgc_nurbs_3d – ForCAD","text":"impure function compute_Tgc_nurbs_3d(Xt, knot1, knot2, knot3, degree, nc, ng, Wc) result(Tgc) Uses forcad_utils proc~~compute_tgc_nurbs_3d~~UsesGraph proc~compute_tgc_nurbs_3d compute_Tgc_nurbs_3d module~forcad_utils forcad_utils proc~compute_tgc_nurbs_3d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: knot3 (:) integer, intent(in) :: degree (3) integer, intent(in) :: nc (3) integer, intent(in) :: ng (3) real(kind=rk), intent(in), contiguous :: Wc (:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_tgc_nurbs_3d~~CallsGraph proc~compute_tgc_nurbs_3d compute_Tgc_nurbs_3d proc~basis_bspline basis_bspline proc~compute_tgc_nurbs_3d->proc~basis_bspline proc~kron kron proc~compute_tgc_nurbs_3d->proc~kron Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_tgc_nurbs_3d.html"},{"title":"compute_Tgc_bspline_3d – ForCAD","text":"impure function compute_Tgc_bspline_3d(Xt, knot1, knot2, knot3, degree, nc, ng) result(Tgc) Uses forcad_utils proc~~compute_tgc_bspline_3d~~UsesGraph proc~compute_tgc_bspline_3d compute_Tgc_bspline_3d module~forcad_utils forcad_utils proc~compute_tgc_bspline_3d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: knot3 (:) integer, intent(in) :: degree (3) integer, intent(in) :: nc (3) integer, intent(in) :: ng (3) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_tgc_bspline_3d~~CallsGraph proc~compute_tgc_bspline_3d compute_Tgc_bspline_3d proc~basis_bspline basis_bspline proc~compute_tgc_bspline_3d->proc~basis_bspline proc~kron kron proc~compute_tgc_bspline_3d->proc~kron Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_tgc_bspline_3d.html"},{"title":"nearest_point_help_3d – ForCAD","text":"impure function nearest_point_help_3d(ng, Xg, point_Xg) result(distances) Uses forcad_utils proc~~nearest_point_help_3d~~UsesGraph proc~nearest_point_help_3d nearest_point_help_3d module~forcad_utils forcad_utils proc~nearest_point_help_3d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name integer, intent(in) :: ng (3) real(kind=rk), intent(in), contiguous :: Xg (:,:) real(kind=rk), intent(in), contiguous :: point_Xg (:) Return Value real(kind=rk), allocatable, (:)","tags":"","loc":"proc/nearest_point_help_3d.html"},{"title":"compute_Xg_nurbs_2d – ForCAD","text":"impure function compute_Xg_nurbs_2d(Xt, knot1, knot2, degree, nc, ng, Xc, Wc) result(Xg) Uses forcad_utils proc~~compute_xg_nurbs_2d~~UsesGraph proc~compute_xg_nurbs_2d compute_Xg_nurbs_2d module~forcad_utils forcad_utils proc~compute_xg_nurbs_2d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) integer, intent(in) :: degree (2) integer, intent(in) :: nc (2) integer, intent(in) :: ng (2) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), contiguous :: Wc (:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_xg_nurbs_2d~~CallsGraph proc~compute_xg_nurbs_2d compute_Xg_nurbs_2d proc~basis_bspline basis_bspline proc~compute_xg_nurbs_2d->proc~basis_bspline proc~kron kron proc~compute_xg_nurbs_2d->proc~kron Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_xg_nurbs_2d.html"},{"title":"compute_Xg_bspline_2d – ForCAD","text":"impure function compute_Xg_bspline_2d(Xt, knot1, knot2, degree, nc, ng, Xc) result(Xg) Uses forcad_utils proc~~compute_xg_bspline_2d~~UsesGraph proc~compute_xg_bspline_2d compute_Xg_bspline_2d module~forcad_utils forcad_utils proc~compute_xg_bspline_2d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) integer, intent(in) :: degree (2) integer, intent(in) :: nc (2) integer, intent(in) :: ng (2) real(kind=rk), intent(in), contiguous :: Xc (:,:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_xg_bspline_2d~~CallsGraph proc~compute_xg_bspline_2d compute_Xg_bspline_2d proc~basis_bspline basis_bspline proc~compute_xg_bspline_2d->proc~basis_bspline proc~kron kron proc~compute_xg_bspline_2d->proc~kron Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_xg_bspline_2d.html"},{"title":"compute_dTgc_nurbs_2d – ForCAD","text":"impure function compute_dTgc_nurbs_2d(Xt, knot1, knot2, degree, nc, ng, Wc) result(dTgc) Uses forcad_utils proc~~compute_dtgc_nurbs_2d~~UsesGraph proc~compute_dtgc_nurbs_2d compute_dTgc_nurbs_2d module~forcad_utils forcad_utils proc~compute_dtgc_nurbs_2d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) integer, intent(in) :: degree (2) integer, intent(in) :: nc (2) integer, intent(in) :: ng (2) real(kind=rk), intent(in), contiguous :: Wc (:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_dtgc_nurbs_2d~~CallsGraph proc~compute_dtgc_nurbs_2d compute_dTgc_nurbs_2d proc~basis_bspline_der basis_bspline_der proc~compute_dtgc_nurbs_2d->proc~basis_bspline_der proc~kron kron proc~compute_dtgc_nurbs_2d->proc~kron proc~isinf isinf proc~basis_bspline_der->proc~isinf Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_dtgc_nurbs_2d.html"},{"title":"compute_dTgc_bspline_2d – ForCAD","text":"impure function compute_dTgc_bspline_2d(Xt, knot1, knot2, degree, nc, ng) result(dTgc) Uses forcad_utils proc~~compute_dtgc_bspline_2d~~UsesGraph proc~compute_dtgc_bspline_2d compute_dTgc_bspline_2d module~forcad_utils forcad_utils proc~compute_dtgc_bspline_2d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) integer, intent(in) :: degree (2) integer, intent(in) :: nc (2) integer, intent(in) :: ng (2) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_dtgc_bspline_2d~~CallsGraph proc~compute_dtgc_bspline_2d compute_dTgc_bspline_2d proc~basis_bspline_der basis_bspline_der proc~compute_dtgc_bspline_2d->proc~basis_bspline_der proc~kron kron proc~compute_dtgc_bspline_2d->proc~kron proc~isinf isinf proc~basis_bspline_der->proc~isinf Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_dtgc_bspline_2d.html"},{"title":"compute_Tgc_nurbs_2d – ForCAD","text":"impure function compute_Tgc_nurbs_2d(Xt, knot1, knot2, degree, nc, ng, Wc) result(Tgc) Uses forcad_utils proc~~compute_tgc_nurbs_2d~~UsesGraph proc~compute_tgc_nurbs_2d compute_Tgc_nurbs_2d module~forcad_utils forcad_utils proc~compute_tgc_nurbs_2d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) integer, intent(in) :: degree (2) integer, intent(in) :: nc (2) integer, intent(in) :: ng (2) real(kind=rk), intent(in), contiguous :: Wc (:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_tgc_nurbs_2d~~CallsGraph proc~compute_tgc_nurbs_2d compute_Tgc_nurbs_2d proc~basis_bspline basis_bspline proc~compute_tgc_nurbs_2d->proc~basis_bspline proc~kron kron proc~compute_tgc_nurbs_2d->proc~kron Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_tgc_nurbs_2d.html"},{"title":"compute_Tgc_bspline_2d – ForCAD","text":"impure function compute_Tgc_bspline_2d(Xt, knot1, knot2, degree, nc, ng) result(Tgc) Uses forcad_utils proc~~compute_tgc_bspline_2d~~UsesGraph proc~compute_tgc_bspline_2d compute_Tgc_bspline_2d module~forcad_utils forcad_utils proc~compute_tgc_bspline_2d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:,:) real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) integer, intent(in) :: degree (2) integer, intent(in) :: nc (2) integer, intent(in) :: ng (2) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_tgc_bspline_2d~~CallsGraph proc~compute_tgc_bspline_2d compute_Tgc_bspline_2d proc~basis_bspline basis_bspline proc~compute_tgc_bspline_2d->proc~basis_bspline proc~kron kron proc~compute_tgc_bspline_2d->proc~kron Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_tgc_bspline_2d.html"},{"title":"nearest_point_help_2d – ForCAD","text":"impure function nearest_point_help_2d(ng, Xg, point_Xg) result(distances) Uses forcad_utils proc~~nearest_point_help_2d~~UsesGraph proc~nearest_point_help_2d nearest_point_help_2d module~forcad_utils forcad_utils proc~nearest_point_help_2d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name integer, intent(in) :: ng (2) real(kind=rk), intent(in), contiguous :: Xg (:,:) real(kind=rk), intent(in), contiguous :: point_Xg (:) Return Value real(kind=rk), allocatable, (:)","tags":"","loc":"proc/nearest_point_help_2d.html"},{"title":"compute_Xg_nurbs_1d – ForCAD","text":"impure function compute_Xg_nurbs_1d(Xt, knot, degree, nc, ng, Xc, Wc) result(Xg) Uses forcad_utils proc~~compute_xg_nurbs_1d~~UsesGraph proc~compute_xg_nurbs_1d compute_Xg_nurbs_1d module~forcad_utils forcad_utils proc~compute_xg_nurbs_1d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:) real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: degree integer, intent(in) :: nc integer, intent(in) :: ng real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), contiguous :: Wc (:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_xg_nurbs_1d~~CallsGraph proc~compute_xg_nurbs_1d compute_Xg_nurbs_1d proc~basis_bspline basis_bspline proc~compute_xg_nurbs_1d->proc~basis_bspline Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_xg_nurbs_1d.html"},{"title":"compute_Xg_bspline_1d – ForCAD","text":"impure function compute_Xg_bspline_1d(Xt, knot, degree, nc, ng, Xc) result(Xg) Uses forcad_utils proc~~compute_xg_bspline_1d~~UsesGraph proc~compute_xg_bspline_1d compute_Xg_bspline_1d module~forcad_utils forcad_utils proc~compute_xg_bspline_1d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:) real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: degree integer, intent(in) :: nc integer, intent(in) :: ng real(kind=rk), intent(in), contiguous :: Xc (:,:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_xg_bspline_1d~~CallsGraph proc~compute_xg_bspline_1d compute_Xg_bspline_1d proc~basis_bspline basis_bspline proc~compute_xg_bspline_1d->proc~basis_bspline Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_xg_bspline_1d.html"},{"title":"compute_dTgc_nurbs_1d – ForCAD","text":"impure function compute_dTgc_nurbs_1d(Xt, knot, degree, nc, ng, Wc) result(dTgc) Uses forcad_utils proc~~compute_dtgc_nurbs_1d~~UsesGraph proc~compute_dtgc_nurbs_1d compute_dTgc_nurbs_1d module~forcad_utils forcad_utils proc~compute_dtgc_nurbs_1d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:) real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: degree integer, intent(in) :: nc integer, intent(in) :: ng real(kind=rk), intent(in), contiguous :: Wc (:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_dtgc_nurbs_1d~~CallsGraph proc~compute_dtgc_nurbs_1d compute_dTgc_nurbs_1d proc~basis_bspline_der basis_bspline_der proc~compute_dtgc_nurbs_1d->proc~basis_bspline_der proc~isinf isinf proc~basis_bspline_der->proc~isinf Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_dtgc_nurbs_1d.html"},{"title":"compute_dTgc_bspline_1d – ForCAD","text":"impure function compute_dTgc_bspline_1d(Xt, knot, degree, nc, ng) result(dTgc) Uses forcad_utils proc~~compute_dtgc_bspline_1d~~UsesGraph proc~compute_dtgc_bspline_1d compute_dTgc_bspline_1d module~forcad_utils forcad_utils proc~compute_dtgc_bspline_1d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:) real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: degree integer, intent(in) :: nc integer, intent(in) :: ng Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_dtgc_bspline_1d~~CallsGraph proc~compute_dtgc_bspline_1d compute_dTgc_bspline_1d proc~basis_bspline_der basis_bspline_der proc~compute_dtgc_bspline_1d->proc~basis_bspline_der proc~isinf isinf proc~basis_bspline_der->proc~isinf Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_dtgc_bspline_1d.html"},{"title":"compute_Tgc_nurbs_1d – ForCAD","text":"impure function compute_Tgc_nurbs_1d(Xt, knot, degree, nc, ng, Wc) result(Tgc) Uses forcad_utils proc~~compute_tgc_nurbs_1d~~UsesGraph proc~compute_tgc_nurbs_1d compute_Tgc_nurbs_1d module~forcad_utils forcad_utils proc~compute_tgc_nurbs_1d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:) real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: degree integer, intent(in) :: nc integer, intent(in) :: ng real(kind=rk), intent(in), contiguous :: Wc (:) Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_tgc_nurbs_1d~~CallsGraph proc~compute_tgc_nurbs_1d compute_Tgc_nurbs_1d proc~basis_bspline basis_bspline proc~compute_tgc_nurbs_1d->proc~basis_bspline Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_tgc_nurbs_1d.html"},{"title":"compute_Tgc_bspline_1d – ForCAD","text":"impure function compute_Tgc_bspline_1d(Xt, knot, degree, nc, ng) result(Tgc) Uses forcad_utils proc~~compute_tgc_bspline_1d~~UsesGraph proc~compute_tgc_bspline_1d compute_Tgc_bspline_1d module~forcad_utils forcad_utils proc~compute_tgc_bspline_1d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xt (:) real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: degree integer, intent(in) :: nc integer, intent(in) :: ng Return Value real(kind=rk), allocatable, (:,:) Calls proc~~compute_tgc_bspline_1d~~CallsGraph proc~compute_tgc_bspline_1d compute_Tgc_bspline_1d proc~basis_bspline basis_bspline proc~compute_tgc_bspline_1d->proc~basis_bspline Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_tgc_bspline_1d.html"},{"title":"nearest_point_help_1d – ForCAD","text":"impure function nearest_point_help_1d(ng, Xg, point_Xg) result(distances) Uses forcad_utils proc~~nearest_point_help_1d~~UsesGraph proc~nearest_point_help_1d nearest_point_help_1d module~forcad_utils forcad_utils proc~nearest_point_help_1d->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Arguments Type Intent Optional Attributes Name integer, intent(in) :: ng real(kind=rk), intent(in), contiguous :: Xg (:,:) real(kind=rk), intent(in), contiguous :: point_Xg (:) Return Value real(kind=rk), allocatable, (:)","tags":"","loc":"proc/nearest_point_help_1d.html"},{"title":"generate_Xc – ForCAD","text":"function generate_Xc(num_rows, num_cols, peak_height) result(control_points) Arguments Type Intent Optional Attributes Name integer, intent(in) :: num_rows integer, intent(in) :: num_cols real(kind=rk), intent(in) :: peak_height Return Value real(kind=rk), allocatable, (:,:) Called by proc~~generate_xc~~CalledByGraph proc~generate_xc generate_Xc program~example3_surface example3_surface program~example3_surface->proc~generate_xc Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/generate_xc.html"},{"title":"cmp_elem – ForCAD","text":"private pure function cmp_elem(this) result(elemConn) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:) Calls proc~~cmp_elem~~CallsGraph proc~cmp_elem nurbs_volume%cmp_elem interface~elemconn_cn elemConn_Cn proc~cmp_elem->interface~elemconn_cn interface~unique unique proc~cmp_elem->interface~unique proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_elem->proc~get_multiplicity proc~cmp_elemconn_cn_l cmp_elemConn_Cn_L interface~elemconn_cn->proc~cmp_elemconn_cn_l proc~cmp_elemconn_cn_s cmp_elemConn_Cn_S interface~elemconn_cn->proc~cmp_elemconn_cn_s proc~cmp_elemconn_cn_v cmp_elemConn_Cn_V interface~elemconn_cn->proc~cmp_elemconn_cn_v proc~unique_integer unique_integer interface~unique->proc~unique_integer proc~unique_real unique_real interface~unique->proc~unique_real interface~compute_multiplicity compute_multiplicity proc~get_multiplicity->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elem.html"},{"title":"cmp_elem_Xc_vis – ForCAD","text":"private pure function cmp_elem_Xc_vis(this, p) result(elemConn) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) Calls proc~~cmp_elem_xc_vis~~CallsGraph proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_elem_xc_vis~~CalledByGraph proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~export_xc nurbs_volume%export_Xc proc~export_xc->proc~cmp_elem_xc_vis program~example3_volume example3_volume program~example3_volume->proc~export_xc program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~export_xc program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~export_xc program~shape_c_3d shape_C_3d program~shape_c_3d->proc~export_xc program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~export_xc program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~export_xc program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~export_xc Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elem_xc_vis.html"},{"title":"cmp_elem_Xg_vis – ForCAD","text":"private pure function cmp_elem_Xg_vis(this, p) result(elemConn) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) Calls proc~~cmp_elem_xg_vis~~CallsGraph proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_elem_xg_vis~~CalledByGraph proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~export_xg nurbs_volume%export_Xg proc~export_xg->proc~cmp_elem_xg_vis program~example3_volume example3_volume program~example3_volume->proc~export_xg program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~export_xg program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~export_xg program~shape_c_3d shape_C_3d program~shape_c_3d->proc~export_xg program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~export_xg program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~export_xg program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~export_xg Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elem_xg_vis.html"},{"title":"get_Wc_all – ForCAD","text":"private pure function get_Wc_all(this) result(Wc) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) Called by proc~~get_wc_all~~CalledByGraph proc~get_wc_all nurbs_volume%get_Wc_all none~get_wc nurbs_volume%get_Wc none~get_wc->proc~get_wc_all proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~get_wc proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~get_wc Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_wc_all.html"},{"title":"get_Wci – ForCAD","text":"private pure function get_Wci(this, n) result(Wc) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) Called by proc~~get_wci~~CalledByGraph proc~get_wci nurbs_volume%get_Wci none~get_wc nurbs_volume%get_Wc none~get_wc->proc~get_wci proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~get_wc proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~get_wc Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_wci.html"},{"title":"get_Xc_all – ForCAD","text":"private pure function get_Xc_all(this) result(Xc) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) Called by proc~~get_xc_all~~CalledByGraph proc~get_xc_all nurbs_volume%get_Xc_all none~get_xc nurbs_volume%get_Xc none~get_xc->proc~get_xc_all proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~get_xc proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~get_xc Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xc_all.html"},{"title":"get_Xci – ForCAD","text":"private pure function get_Xci(this, n) result(Xc) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) Called by proc~~get_xci~~CalledByGraph proc~get_xci nurbs_volume%get_Xci none~get_xc nurbs_volume%get_Xc none~get_xc->proc~get_xci proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~get_xc proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~get_xc Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xci.html"},{"title":"get_Xcid – ForCAD","text":"private pure function get_Xcid(this, n, dir) result(Xc) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) Called by proc~~get_xcid~~CalledByGraph proc~get_xcid nurbs_volume%get_Xcid none~get_xc nurbs_volume%get_Xc none~get_xc->proc~get_xcid proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~get_xc proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~get_xc Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xcid.html"},{"title":"get_Xg_all – ForCAD","text":"private pure function get_Xg_all(this) result(Xg) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:)","tags":"","loc":"proc/get_xg_all.html"},{"title":"get_Xgi – ForCAD","text":"private pure function get_Xgi(this, n) result(Xg) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:)","tags":"","loc":"proc/get_xgi.html"},{"title":"get_Xgid – ForCAD","text":"private pure function get_Xgid(this, n, dir) result(Xg) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk)","tags":"","loc":"proc/get_xgid.html"},{"title":"get_Xt – ForCAD","text":"private pure function get_Xt(this, dir) result(Xt) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:)","tags":"","loc":"proc/get_xt.html"},{"title":"get_continuity – ForCAD","text":"private pure function get_continuity(this, dir) result(c) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) Calls proc~~get_continuity~~CallsGraph proc~get_continuity nurbs_volume%get_continuity interface~compute_multiplicity compute_multiplicity proc~get_continuity->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_continuity.html"},{"title":"get_degree_all – ForCAD","text":"private pure function get_degree_all(this) result(degree) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, (3) Called by proc~~get_degree_all~~CalledByGraph proc~get_degree_all nurbs_volume%get_degree_all none~get_degree nurbs_volume%get_degree none~get_degree->proc~get_degree_all program~example3_volume example3_volume program~example3_volume->none~get_degree Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_degree_all.html"},{"title":"get_degree_dir – ForCAD","text":"private pure function get_degree_dir(this, dir) result(degree) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer Called by proc~~get_degree_dir~~CalledByGraph proc~get_degree_dir nurbs_volume%get_degree_dir none~get_degree nurbs_volume%get_degree none~get_degree->proc~get_degree_dir program~example3_volume example3_volume program~example3_volume->none~get_degree Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_degree_dir.html"},{"title":"get_elem – ForCAD","text":"private pure function get_elem(this) result(elemConn) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:)","tags":"","loc":"proc/get_elem.html"},{"title":"get_elem_Xc_vis – ForCAD","text":"private pure function get_elem_Xc_vis(this) result(elemConn) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:)","tags":"","loc":"proc/get_elem_xc_vis.html"},{"title":"get_elem_Xg_vis – ForCAD","text":"private pure function get_elem_Xg_vis(this) result(elemConn) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:)","tags":"","loc":"proc/get_elem_xg_vis.html"},{"title":"get_knot_all – ForCAD","text":"private pure function get_knot_all(this, dir) result(knot) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) Called by proc~~get_knot_all~~CalledByGraph proc~get_knot_all nurbs_volume%get_knot_all none~get_knot nurbs_volume%get_knot none~get_knot->proc~get_knot_all proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->none~get_knot proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->none~get_knot proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~get_knot proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~get_knot proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->none~get_knot program~example3_volume example3_volume program~example3_volume->none~get_knot program~example3_volume->proc~elevate_degree program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_knot_all.html"},{"title":"get_knoti – ForCAD","text":"private pure function get_knoti(this, dir, i) result(knot) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir integer, intent(in) :: i Return Value real(kind=rk) Called by proc~~get_knoti~~CalledByGraph proc~get_knoti nurbs_volume%get_knoti none~get_knot nurbs_volume%get_knot none~get_knot->proc~get_knoti proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->none~get_knot proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->none~get_knot proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~get_knot proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~get_knot proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->none~get_knot program~example3_volume example3_volume program~example3_volume->none~get_knot program~example3_volume->proc~elevate_degree program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_knoti.html"},{"title":"get_multiplicity – ForCAD","text":"private pure function get_multiplicity(this, dir) result(m) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) Calls proc~~get_multiplicity~~CallsGraph proc~get_multiplicity nurbs_volume%get_multiplicity interface~compute_multiplicity compute_multiplicity proc~get_multiplicity->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~get_multiplicity~~CalledByGraph proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree nurbs_volume%cmp_degree proc~cmp_degree->proc~get_multiplicity proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->proc~get_multiplicity proc~set1 nurbs_volume%set1 proc~set1->proc~cmp_degree proc~set3 nurbs_volume%set3 proc~set3->proc~cmp_degree none~set nurbs_volume%set none~set->proc~set1 none~set->proc~set3 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->none~set proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->none~set proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->none~set proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set program~example3_volume example3_volume program~example3_volume->none~set program~example3_volume->proc~elevate_degree program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_multiplicity.html"},{"title":"get_nc – ForCAD","text":"private pure function get_nc(this, dir) result(nc) Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer Calls proc~~get_nc~~CallsGraph proc~get_nc get_nc interface~compute_multiplicity compute_multiplicity proc~get_nc->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_nc.html"},{"title":"get_ng – ForCAD","text":"private pure function get_ng(this) result(ng) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, (3)","tags":"","loc":"proc/get_ng.html"},{"title":"is_rational – ForCAD","text":"private pure function is_rational(this) result(r) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value logical Called by proc~~is_rational~~CalledByGraph proc~is_rational nurbs_volume%is_rational proc~derivative nurbs_volume%derivative proc~derivative->proc~is_rational Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/is_rational.html"},{"title":"basis – ForCAD","text":"private pure subroutine basis(this, res1, res2, res3, Xt1, Xt2, Xt3, Tgc) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 integer, intent(in), optional :: res3 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt3 (:) real(kind=rk), intent(out), allocatable :: Tgc (:,:) Calls proc~~basis~~CallsGraph proc~basis nurbs_volume%basis interface~ndgrid ndgrid proc~basis->interface~ndgrid proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/basis.html"},{"title":"cmp_degree – ForCAD","text":"private pure subroutine cmp_degree(this, dir) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: dir Calls proc~~cmp_degree~~CallsGraph proc~cmp_degree nurbs_volume%cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~get_multiplicity->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_degree~~CalledByGraph proc~cmp_degree nurbs_volume%cmp_degree proc~set1 nurbs_volume%set1 proc~set1->proc~cmp_degree proc~set3 nurbs_volume%set3 proc~set3->proc~cmp_degree none~set nurbs_volume%set none~set->proc~set1 none~set->proc~set3 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->none~set proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->none~set proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->none~set proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set program~example3_volume example3_volume program~example3_volume->none~set program~example3_volume->proc~elevate_degree program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_degree.html"},{"title":"cmp_nc – ForCAD","text":"private pure subroutine cmp_nc(this, dir) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: dir Calls proc~~cmp_nc~~CallsGraph proc~cmp_nc nurbs_volume%cmp_nc interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_nc~~CalledByGraph proc~cmp_nc nurbs_volume%cmp_nc proc~set1 nurbs_volume%set1 proc~set1->proc~cmp_nc proc~set2 nurbs_volume%set2 proc~set2->proc~cmp_nc none~set nurbs_volume%set none~set->proc~set1 none~set->proc~set2 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->none~set proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->none~set proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->none~set proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set program~example3_volume example3_volume program~example3_volume->none~set program~example3_volume->proc~elevate_degree program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_nc.html"},{"title":"create – ForCAD","text":"private pure subroutine create(this, res1, res2, res3, Xt1, Xt2, Xt3, Xt) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 integer, intent(in), optional :: res3 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt3 (:) real(kind=rk), intent(in), optional, contiguous :: Xt (:,:) Calls proc~~create~~CallsGraph proc~create nurbs_volume%create interface~ndgrid ndgrid proc~create->interface~ndgrid proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~create~~CalledByGraph proc~create nurbs_volume%create program~example3_volume example3_volume program~example3_volume->proc~create program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~create program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~create program~shape_c_3d shape_C_3d program~shape_c_3d->proc~create program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~create program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~create program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~create Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/create.html"},{"title":"derivative – ForCAD","text":"private pure subroutine derivative(this, res1, res2, res3, Xt1, Xt2, Xt3, dTgc) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 integer, intent(in), optional :: res3 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt3 (:) real(kind=rk), intent(out), allocatable :: dTgc (:,:) Calls proc~~derivative~~CallsGraph proc~derivative nurbs_volume%derivative interface~ndgrid ndgrid proc~derivative->interface~ndgrid proc~is_rational nurbs_volume%is_rational proc~derivative->proc~is_rational proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/derivative.html"},{"title":"elevate_degree – ForCAD","text":"private pure subroutine elevate_degree(this, dir, t) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in) :: dir integer, intent(in) :: t Calls proc~~elevate_degree~~CallsGraph proc~elevate_degree nurbs_volume%elevate_degree none~get_knot nurbs_volume%get_knot proc~elevate_degree->none~get_knot none~set nurbs_volume%set proc~elevate_degree->none~set proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree->proc~elevate_degree_a_5_9 proc~get_knot_all nurbs_volume%get_knot_all none~get_knot->proc~get_knot_all proc~get_knoti nurbs_volume%get_knoti none~get_knot->proc~get_knoti proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 interface~compute_multiplicity compute_multiplicity proc~elevate_degree_a_5_9->interface~compute_multiplicity proc~bincoeff bincoeff proc~elevate_degree_a_5_9->proc~bincoeff proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~factln factln proc~bincoeff->proc~factln proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~elevate_degree~~CalledByGraph proc~elevate_degree nurbs_volume%elevate_degree program~example3_volume example3_volume program~example3_volume->proc~elevate_degree Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/elevate_degree.html"},{"title":"export_Xc – ForCAD","text":"private impure subroutine export_Xc(this, filename) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this character(len=*), intent(in) :: filename Calls proc~~export_xc~~CallsGraph proc~export_xc nurbs_volume%export_Xc proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~export_xc->proc~cmp_elem_xc_vis interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~export_xc~~CalledByGraph proc~export_xc nurbs_volume%export_Xc program~example3_volume example3_volume program~example3_volume->proc~export_xc program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~export_xc program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~export_xc program~shape_c_3d shape_C_3d program~shape_c_3d->proc~export_xc program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~export_xc program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~export_xc program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~export_xc Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/export_xc.html"},{"title":"export_Xg – ForCAD","text":"private impure subroutine export_Xg(this, filename) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this character(len=*), intent(in) :: filename Calls proc~~export_xg~~CallsGraph proc~export_xg nurbs_volume%export_Xg proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~export_xg->proc~cmp_elem_xg_vis interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~export_xg~~CalledByGraph proc~export_xg nurbs_volume%export_Xg program~example3_volume example3_volume program~example3_volume->proc~export_xg program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~export_xg program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~export_xg program~shape_c_3d shape_C_3d program~shape_c_3d->proc~export_xg program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~export_xg program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~export_xg program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~export_xg Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/export_xg.html"},{"title":"finalize – ForCAD","text":"private pure subroutine finalize(this) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this Called by proc~~finalize~~CalledByGraph proc~finalize nurbs_volume%finalize program~example3_volume example3_volume program~example3_volume->proc~finalize program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~finalize program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~finalize program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~finalize program~shape_c_3d shape_C_3d program~shape_c_3d->proc~finalize program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~finalize program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~finalize program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~finalize Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/finalize.html"},{"title":"insert_knots – ForCAD","text":"private pure subroutine insert_knots(this, dir, Xth, r) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) Calls proc~~insert_knots~~CallsGraph proc~insert_knots nurbs_volume%insert_knots interface~compute_multiplicity compute_multiplicity proc~insert_knots->interface~compute_multiplicity none~get_knot nurbs_volume%get_knot proc~insert_knots->none~get_knot none~set nurbs_volume%set proc~insert_knots->none~set proc~findspan findspan proc~insert_knots->proc~findspan proc~insert_knot_a_5_1 insert_knot_A_5_1 proc~insert_knots->proc~insert_knot_a_5_1 proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_knot_all nurbs_volume%get_knot_all none~get_knot->proc~get_knot_all proc~get_knoti nurbs_volume%get_knoti none~get_knot->proc~get_knoti proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~insert_knots~~CalledByGraph proc~insert_knots nurbs_volume%insert_knots program~example3_volume example3_volume program~example3_volume->proc~insert_knots Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/insert_knots.html"},{"title":"modify_Wc – ForCAD","text":"private pure subroutine modify_Wc(this, W, num) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: W integer, intent(in) :: num Calls proc~~modify_wc~~CallsGraph proc~modify_wc nurbs_volume%modify_Wc none~get_knot nurbs_volume%get_knot proc~modify_wc->none~get_knot none~get_wc nurbs_volume%get_Wc proc~modify_wc->none~get_wc none~get_xc nurbs_volume%get_Xc proc~modify_wc->none~get_xc none~set nurbs_volume%set proc~modify_wc->none~set proc~get_knot_all nurbs_volume%get_knot_all none~get_knot->proc~get_knot_all proc~get_knoti nurbs_volume%get_knoti none~get_knot->proc~get_knoti proc~get_wc_all nurbs_volume%get_Wc_all none~get_wc->proc~get_wc_all proc~get_wci nurbs_volume%get_Wci none~get_wc->proc~get_wci proc~get_xc_all nurbs_volume%get_Xc_all none~get_xc->proc~get_xc_all proc~get_xci nurbs_volume%get_Xci none~get_xc->proc~get_xci proc~get_xcid nurbs_volume%get_Xcid none~get_xc->proc~get_xcid proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/modify_wc.html"},{"title":"modify_Xc – ForCAD","text":"private pure subroutine modify_Xc(this, X, num, dir) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: X integer, intent(in) :: num integer, intent(in) :: dir Calls proc~~modify_xc~~CallsGraph proc~modify_xc nurbs_volume%modify_Xc none~get_knot nurbs_volume%get_knot proc~modify_xc->none~get_knot none~get_wc nurbs_volume%get_Wc proc~modify_xc->none~get_wc none~get_xc nurbs_volume%get_Xc proc~modify_xc->none~get_xc none~set nurbs_volume%set proc~modify_xc->none~set proc~get_knot_all nurbs_volume%get_knot_all none~get_knot->proc~get_knot_all proc~get_knoti nurbs_volume%get_knoti none~get_knot->proc~get_knoti proc~get_wc_all nurbs_volume%get_Wc_all none~get_wc->proc~get_wc_all proc~get_wci nurbs_volume%get_Wci none~get_wc->proc~get_wci proc~get_xc_all nurbs_volume%get_Xc_all none~get_xc->proc~get_xc_all proc~get_xci nurbs_volume%get_Xci none~get_xc->proc~get_xci proc~get_xcid nurbs_volume%get_Xcid none~get_xc->proc~get_xcid proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/modify_xc.html"},{"title":"nearest_point – ForCAD","text":"private pure subroutine nearest_point(this, point_Xg, nearest_Xg, nearest_Xt, id) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this real(kind=rk), intent(in) :: point_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xt (:) integer, intent(out), optional :: id Called by proc~~nearest_point~~CalledByGraph proc~nearest_point nurbs_volume%nearest_point program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~nearest_point Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/nearest_point.html"},{"title":"put_to_nurbs – ForCAD","text":"private pure subroutine put_to_nurbs(this, X, elemConn) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: X (:,:) integer, intent(in), contiguous :: elemConn (:,:) Calls proc~~put_to_nurbs~~CallsGraph proc~put_to_nurbs nurbs_volume%put_to_nurbs proc~basis_bspline basis_bspline proc~put_to_nurbs->proc~basis_bspline proc~kron kron proc~put_to_nurbs->proc~kron proc~set_elem_xg_vis nurbs_volume%set_elem_Xg_vis proc~put_to_nurbs->proc~set_elem_xg_vis Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~put_to_nurbs~~CalledByGraph proc~put_to_nurbs nurbs_volume%put_to_nurbs program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~put_to_nurbs Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/put_to_nurbs.html"},{"title":"remove_knots – ForCAD","text":"private pure subroutine remove_knots(this, dir, Xth, r) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) Calls proc~~remove_knots~~CallsGraph proc~remove_knots nurbs_volume%remove_knots interface~compute_multiplicity compute_multiplicity proc~remove_knots->interface~compute_multiplicity none~get_knot nurbs_volume%get_knot proc~remove_knots->none~get_knot none~set nurbs_volume%set proc~remove_knots->none~set proc~findspan findspan proc~remove_knots->proc~findspan proc~remove_knots_a_5_8 remove_knots_A_5_8 proc~remove_knots->proc~remove_knots_a_5_8 proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_knot_all nurbs_volume%get_knot_all none~get_knot->proc~get_knot_all proc~get_knoti nurbs_volume%get_knoti none~get_knot->proc~get_knoti proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~remove_knots~~CalledByGraph proc~remove_knots nurbs_volume%remove_knots program~example3_volume example3_volume program~example3_volume->proc~remove_knots Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/remove_knots.html"},{"title":"rotate_Xc – ForCAD","text":"private pure subroutine rotate_Xc(this, alpha, beta, theta) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta Calls proc~~rotate_xc~~CallsGraph proc~rotate_xc nurbs_volume%rotate_Xc proc~rotation rotation proc~rotate_xc->proc~rotation cosd cosd proc~rotation->cosd sind sind proc~rotation->sind Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~rotate_xc~~CalledByGraph proc~rotate_xc nurbs_volume%rotate_Xc program~example3_volume example3_volume program~example3_volume->proc~rotate_xc Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/rotate_xc.html"},{"title":"rotate_Xg – ForCAD","text":"private pure subroutine rotate_Xg(this, alpha, beta, theta) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta Calls proc~~rotate_xg~~CallsGraph proc~rotate_xg nurbs_volume%rotate_Xg proc~rotation rotation proc~rotate_xg->proc~rotation cosd cosd proc~rotation->cosd sind sind proc~rotation->sind Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~rotate_xg~~CalledByGraph proc~rotate_xg nurbs_volume%rotate_Xg program~example3_volume example3_volume program~example3_volume->proc~rotate_xg Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/rotate_xg.html"},{"title":"set1 – ForCAD","text":"private pure subroutine set1(this, knot1, knot2, knot3, Xc, Wc) Set control points and weights for the NURBS volume object. Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: knot3 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set1~~CallsGraph proc~set1 nurbs_volume%set1 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set1~~CalledByGraph proc~set1 nurbs_volume%set1 none~set nurbs_volume%set none~set->proc~set1 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->none~set proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->none~set proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->none~set proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set program~example3_volume example3_volume program~example3_volume->none~set program~example3_volume->proc~elevate_degree program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set1.html"},{"title":"set2 – ForCAD","text":"private pure subroutine set2(this, Xth_dir1, Xth_dir2, Xth_dir3, degree, continuity1, continuity2, continuity3, Xc, Wc) Set control points and weights for the NURBS volume object. Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir1 (:) real(kind=rk), intent(in), contiguous :: Xth_dir2 (:) real(kind=rk), intent(in), contiguous :: Xth_dir3 (:) integer, intent(in), contiguous :: degree (:) integer, intent(in), contiguous :: continuity1 (:) integer, intent(in), contiguous :: continuity2 (:) integer, intent(in), contiguous :: continuity3 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set2~~CallsGraph proc~set2 nurbs_volume%set2 proc~cmp_nc nurbs_volume%cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set2~~CalledByGraph proc~set2 nurbs_volume%set2 none~set nurbs_volume%set none~set->proc~set2 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->none~set proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->none~set proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->none~set proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set program~example3_volume example3_volume program~example3_volume->none~set program~example3_volume->proc~elevate_degree program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set2.html"},{"title":"set3 – ForCAD","text":"private pure subroutine set3(this, nc, Xc, Wc) Set Bezier or Rational Bezier volume using control points and weights. Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set3~~CallsGraph proc~set3 nurbs_volume%set3 proc~cmp_degree nurbs_volume%cmp_degree proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~get_multiplicity->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set3~~CalledByGraph proc~set3 nurbs_volume%set3 none~set nurbs_volume%set none~set->proc~set3 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->none~set proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->none~set proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->none~set proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set program~example3_volume example3_volume program~example3_volume->none~set program~example3_volume->proc~elevate_degree program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set3.html"},{"title":"set_C – ForCAD","text":"private pure subroutine set_C(this, center, radius1, radius2, length) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 real(kind=rk), intent(in) :: length Calls proc~~set_c~~CallsGraph proc~set_c nurbs_volume%set_C none~set nurbs_volume%set proc~set_c->none~set proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_c~~CalledByGraph proc~set_c nurbs_volume%set_C program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_c.html"},{"title":"set_elem – ForCAD","text":"private pure subroutine set_elem(this, elemConn) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:)","tags":"","loc":"proc/set_elem.html"},{"title":"set_elem_Xc_vis – ForCAD","text":"private pure subroutine set_elem_Xc_vis(this, elemConn) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:)","tags":"","loc":"proc/set_elem_xc_vis.html"},{"title":"set_elem_Xg_vis – ForCAD","text":"private pure subroutine set_elem_Xg_vis(this, elemConn) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) Called by proc~~set_elem_xg_vis~~CalledByGraph proc~set_elem_xg_vis nurbs_volume%set_elem_Xg_vis proc~put_to_nurbs nurbs_volume%put_to_nurbs proc~put_to_nurbs->proc~set_elem_xg_vis program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~put_to_nurbs Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_elem_xg_vis.html"},{"title":"set_half_ring – ForCAD","text":"private pure subroutine set_half_ring(this, center, radius1, radius2, length) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 real(kind=rk), intent(in) :: length Calls proc~~set_half_ring~~CallsGraph proc~set_half_ring nurbs_volume%set_half_ring none~set nurbs_volume%set proc~set_half_ring->none~set proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_half_ring~~CalledByGraph proc~set_half_ring nurbs_volume%set_half_ring program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_half_ring.html"},{"title":"set_hexahedron – ForCAD","text":"private pure subroutine set_hexahedron(this, L, nc, Wc) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: L (:) integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set_hexahedron~~CallsGraph proc~set_hexahedron nurbs_volume%set_hexahedron none~set nurbs_volume%set proc~set_hexahedron->none~set proc~hexahedron_xc hexahedron_Xc proc~set_hexahedron->proc~hexahedron_xc proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_hexahedron~~CalledByGraph proc~set_hexahedron nurbs_volume%set_hexahedron program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_hexahedron.html"},{"title":"set_ring – ForCAD","text":"private pure subroutine set_ring(this, center, radius1, radius2, length) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 real(kind=rk), intent(in) :: length Calls proc~~set_ring~~CallsGraph proc~set_ring nurbs_volume%set_ring none~set nurbs_volume%set proc~set_ring->none~set proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_ring~~CalledByGraph proc~set_ring nurbs_volume%set_ring program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_ring.html"},{"title":"show – ForCAD","text":"private impure subroutine show(this, vtkfile_Xc, vtkfile_Xg) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this character(len=*), intent(in) :: vtkfile_Xc character(len=*), intent(in) :: vtkfile_Xg Called by proc~~show~~CalledByGraph proc~show nurbs_volume%show program~example3_volume example3_volume program~example3_volume->proc~show program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~show program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~show program~shape_c_3d shape_C_3d program~shape_c_3d->proc~show program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~show program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~show program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~show Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/show.html"},{"title":"translate_Xc – ForCAD","text":"private pure subroutine translate_Xc(this, vec) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) Called by proc~~translate_xc~~CalledByGraph proc~translate_xc nurbs_volume%translate_Xc program~example3_volume example3_volume program~example3_volume->proc~translate_xc Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/translate_xc.html"},{"title":"translate_Xg – ForCAD","text":"private pure subroutine translate_Xg(this, vec) Type Bound nurbs_volume Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) Called by proc~~translate_xg~~CalledByGraph proc~translate_xg nurbs_volume%translate_Xg program~example3_volume example3_volume program~example3_volume->proc~translate_xg Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/translate_xg.html"},{"title":"generate_Xc – ForCAD","text":"function generate_Xc(num_coils, radius, height, num_points_per_coil) result(control_points) Arguments Type Intent Optional Attributes Name integer, intent(in) :: num_coils real(kind=rk), intent(in) :: radius real(kind=rk), intent(in) :: height integer, intent(in) :: num_points_per_coil Return Value real(kind=rk), allocatable, (:,:) Called by proc~~generate_xc~2~~CalledByGraph proc~generate_xc~2 generate_Xc program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~generate_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/generate_xc~2.html"},{"title":"generate_Xc – ForCAD","text":"function generate_Xc(L) result(control_points) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: L Return Value real(kind=rk), allocatable, (:,:) Called by proc~~generate_xc~3~~CalledByGraph proc~generate_xc~3 generate_Xc program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~generate_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/generate_xc~3.html"},{"title":"basis_bernstein – ForCAD","text":"public pure function basis_bernstein(Xt, nc) result(B) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: Xt integer, intent(in) :: nc Return Value real(kind=rk), allocatable, (:)","tags":"","loc":"proc/basis_bernstein.html"},{"title":"basis_bspline – ForCAD","text":"public pure function basis_bspline(Xt, knot, nc, degree) result(B) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: Xt real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: nc integer, intent(in) :: degree Return Value real(kind=rk), allocatable, (:) Called by proc~~basis_bspline~~CalledByGraph proc~basis_bspline basis_bspline proc~compute_tgc_bspline_1d compute_Tgc_bspline_1d proc~compute_tgc_bspline_1d->proc~basis_bspline proc~compute_tgc_bspline_2d compute_Tgc_bspline_2d proc~compute_tgc_bspline_2d->proc~basis_bspline proc~compute_tgc_bspline_3d compute_Tgc_bspline_3d proc~compute_tgc_bspline_3d->proc~basis_bspline proc~compute_tgc_nurbs_1d compute_Tgc_nurbs_1d proc~compute_tgc_nurbs_1d->proc~basis_bspline proc~compute_tgc_nurbs_2d compute_Tgc_nurbs_2d proc~compute_tgc_nurbs_2d->proc~basis_bspline proc~compute_tgc_nurbs_3d compute_Tgc_nurbs_3d proc~compute_tgc_nurbs_3d->proc~basis_bspline proc~compute_xg_bspline_1d compute_Xg_bspline_1d proc~compute_xg_bspline_1d->proc~basis_bspline proc~compute_xg_bspline_2d compute_Xg_bspline_2d proc~compute_xg_bspline_2d->proc~basis_bspline proc~compute_xg_bspline_3d compute_Xg_bspline_3d proc~compute_xg_bspline_3d->proc~basis_bspline proc~compute_xg_nurbs_1d compute_Xg_nurbs_1d proc~compute_xg_nurbs_1d->proc~basis_bspline proc~compute_xg_nurbs_2d compute_Xg_nurbs_2d proc~compute_xg_nurbs_2d->proc~basis_bspline proc~compute_xg_nurbs_3d compute_Xg_nurbs_3d proc~compute_xg_nurbs_3d->proc~basis_bspline proc~put_to_nurbs nurbs_volume%put_to_nurbs proc~put_to_nurbs->proc~basis_bspline program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~put_to_nurbs Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/basis_bspline.html"},{"title":"basis_bspline_der – ForCAD","text":"public pure function basis_bspline_der(Xt, knot, nc, degree) result(dB) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: Xt real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: nc integer, intent(in) :: degree Return Value real(kind=rk), allocatable, (:) Calls proc~~basis_bspline_der~~CallsGraph proc~basis_bspline_der basis_bspline_der proc~isinf isinf proc~basis_bspline_der->proc~isinf Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~basis_bspline_der~~CalledByGraph proc~basis_bspline_der basis_bspline_der proc~compute_dtgc_bspline_1d compute_dTgc_bspline_1d proc~compute_dtgc_bspline_1d->proc~basis_bspline_der proc~compute_dtgc_bspline_2d compute_dTgc_bspline_2d proc~compute_dtgc_bspline_2d->proc~basis_bspline_der proc~compute_dtgc_bspline_3d compute_dTgc_bspline_3d proc~compute_dtgc_bspline_3d->proc~basis_bspline_der proc~compute_dtgc_nurbs_1d compute_dTgc_nurbs_1d proc~compute_dtgc_nurbs_1d->proc~basis_bspline_der proc~compute_dtgc_nurbs_2d compute_dTgc_nurbs_2d proc~compute_dtgc_nurbs_2d->proc~basis_bspline_der proc~compute_dtgc_nurbs_3d compute_dTgc_nurbs_3d proc~compute_dtgc_nurbs_3d->proc~basis_bspline_der Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/basis_bspline_der.html"},{"title":"compute_knot_vector – ForCAD","text":"public pure function compute_knot_vector(Xth_dir, degree, continuity) result(knot) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xth_dir (:) integer, intent(in) :: degree integer, intent(in), contiguous :: continuity (:) Return Value real(kind=rk), allocatable, (:) Calls proc~~compute_knot_vector~~CallsGraph proc~compute_knot_vector compute_knot_vector proc~repelem repelem proc~compute_knot_vector->proc~repelem Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~compute_knot_vector~~CalledByGraph proc~compute_knot_vector compute_knot_vector proc~set2 nurbs_volume%set2 proc~set2->proc~compute_knot_vector proc~set2~2 nurbs_surface%set2 proc~set2~2->proc~compute_knot_vector proc~set2~3 nurbs_curve%set2 proc~set2~3->proc~compute_knot_vector none~set nurbs_volume%set none~set->proc~set2 none~set~2 nurbs_surface%set none~set~2->proc~set2~2 none~set~3 nurbs_curve%set none~set~3->proc~set2~3 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->none~set proc~elevate_degree~2 nurbs_surface%elevate_degree proc~elevate_degree~2->none~set~2 proc~elevate_degree~3 nurbs_curve%elevate_degree proc~elevate_degree~3->none~set~3 proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->none~set proc~insert_knots~2 nurbs_surface%insert_knots proc~insert_knots~2->none~set~2 proc~insert_knots~3 nurbs_curve%insert_knots proc~insert_knots~3->none~set~3 proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_wc~2 nurbs_surface%modify_Wc proc~modify_wc~2->none~set~2 proc~modify_wc~3 nurbs_curve%modify_Wc proc~modify_wc~3->none~set~3 proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~modify_xc~2 nurbs_surface%modify_Xc proc~modify_xc~2->none~set~2 proc~modify_xc~3 nurbs_curve%modify_Xc proc~modify_xc~3->none~set~3 proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->none~set proc~remove_knots~2 nurbs_surface%remove_knots proc~remove_knots~2->none~set~2 proc~remove_knots~3 nurbs_curve%remove_knots proc~remove_knots~3->none~set~3 proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_circle nurbs_curve%set_circle proc~set_circle->none~set~3 proc~set_c~2 nurbs_surface%set_C proc~set_c~2->none~set~2 proc~set_c~3 nurbs_curve%set_C proc~set_c~3->none~set~3 proc~set_half_circle nurbs_curve%set_half_circle proc~set_half_circle->none~set~3 proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~2 proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~2 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~2 program~example1_curve example1_curve program~example1_curve->none~set~3 program~example1_curve->proc~elevate_degree~3 program~example1_curve->proc~insert_knots~3 program~example1_curve->proc~remove_knots~3 program~example3_surface example3_surface program~example3_surface->none~set~2 program~example3_surface->proc~elevate_degree~2 program~example3_surface->proc~insert_knots~2 program~example3_surface->proc~remove_knots~2 program~example3_volume example3_volume program~example3_volume->none~set program~example3_volume->proc~elevate_degree program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->none~set~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~2 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~2 program~example_ppm3->proc~set_tetragon program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~3 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~2 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_circle shape_circle program~shape_circle->proc~set_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_knot_vector.html"},{"title":"findspan – ForCAD","text":"public pure function findspan(n, degree, Xth, knot) result(s) Arguments Type Intent Optional Attributes Name integer, intent(in) :: n integer, intent(in) :: degree real(kind=rk), intent(in) :: Xth real(kind=rk), intent(in), contiguous :: knot (:) Return Value integer Called by proc~~findspan~~CalledByGraph proc~findspan findspan proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->proc~findspan proc~insert_knots~2 nurbs_surface%insert_knots proc~insert_knots~2->proc~findspan proc~insert_knots~3 nurbs_curve%insert_knots proc~insert_knots~3->proc~findspan proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->proc~findspan proc~remove_knots~2 nurbs_surface%remove_knots proc~remove_knots~2->proc~findspan proc~remove_knots~3 nurbs_curve%remove_knots proc~remove_knots~3->proc~findspan program~example1_curve example1_curve program~example1_curve->proc~insert_knots~3 program~example1_curve->proc~remove_knots~3 program~example3_surface example3_surface program~example3_surface->proc~insert_knots~2 program~example3_surface->proc~remove_knots~2 program~example3_volume example3_volume program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/findspan.html"},{"title":"hexahedron_Xc – ForCAD","text":"public pure function hexahedron_Xc(L, nc) result(Xc) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: L (3) integer, intent(in) :: nc (3) Return Value real(kind=rk), allocatable, (:,:) Called by proc~~hexahedron_xc~~CalledByGraph proc~hexahedron_xc hexahedron_Xc proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->proc~hexahedron_xc program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~hexahedron_xc program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/hexahedron_xc.html"},{"title":"kron – ForCAD","text":"public pure function kron(u, v) result(w) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: u (:) real(kind=rk), intent(in), contiguous :: v (:) Return Value real(kind=rk), (size(u)*size(v)) Called by proc~~kron~~CalledByGraph proc~kron kron proc~compute_dtgc_bspline_2d compute_dTgc_bspline_2d proc~compute_dtgc_bspline_2d->proc~kron proc~compute_dtgc_bspline_3d compute_dTgc_bspline_3d proc~compute_dtgc_bspline_3d->proc~kron proc~compute_dtgc_nurbs_2d compute_dTgc_nurbs_2d proc~compute_dtgc_nurbs_2d->proc~kron proc~compute_dtgc_nurbs_3d compute_dTgc_nurbs_3d proc~compute_dtgc_nurbs_3d->proc~kron proc~compute_tgc_bspline_2d compute_Tgc_bspline_2d proc~compute_tgc_bspline_2d->proc~kron proc~compute_tgc_bspline_3d compute_Tgc_bspline_3d proc~compute_tgc_bspline_3d->proc~kron proc~compute_tgc_nurbs_2d compute_Tgc_nurbs_2d proc~compute_tgc_nurbs_2d->proc~kron proc~compute_tgc_nurbs_3d compute_Tgc_nurbs_3d proc~compute_tgc_nurbs_3d->proc~kron proc~compute_xg_bspline_2d compute_Xg_bspline_2d proc~compute_xg_bspline_2d->proc~kron proc~compute_xg_bspline_3d compute_Xg_bspline_3d proc~compute_xg_bspline_3d->proc~kron proc~compute_xg_nurbs_2d compute_Xg_nurbs_2d proc~compute_xg_nurbs_2d->proc~kron proc~compute_xg_nurbs_3d compute_Xg_nurbs_3d proc~compute_xg_nurbs_3d->proc~kron proc~put_to_nurbs nurbs_volume%put_to_nurbs proc~put_to_nurbs->proc~kron program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~put_to_nurbs Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/kron.html"},{"title":"rotation – ForCAD","text":"public pure function rotation(alpha, beta, theta) result(R) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta Return Value real(kind=rk), dimension(3,3) Calls proc~~rotation~~CallsGraph proc~rotation rotation cosd cosd proc~rotation->cosd sind sind proc~rotation->sind Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~rotation~~CalledByGraph proc~rotation rotation proc~rotate_xc nurbs_volume%rotate_Xc proc~rotate_xc->proc~rotation proc~rotate_xc~2 nurbs_surface%rotate_Xc proc~rotate_xc~2->proc~rotation proc~rotate_xc~3 nurbs_curve%rotate_Xc proc~rotate_xc~3->proc~rotation proc~rotate_xg nurbs_volume%rotate_Xg proc~rotate_xg->proc~rotation proc~rotate_xg~2 nurbs_surface%rotate_Xg proc~rotate_xg~2->proc~rotation proc~rotate_xg~3 nurbs_curve%rotate_Xg proc~rotate_xg~3->proc~rotation program~example1_curve example1_curve program~example1_curve->proc~rotate_xc~3 program~example1_curve->proc~rotate_xg~3 program~example3_surface example3_surface program~example3_surface->proc~rotate_xc~2 program~example3_surface->proc~rotate_xg~2 program~example3_volume example3_volume program~example3_volume->proc~rotate_xc program~example3_volume->proc~rotate_xg program~example_ppm2 example_ppm2 program~example_ppm2->proc~rotate_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/rotation.html"},{"title":"tetragon_Xc – ForCAD","text":"public pure function tetragon_Xc(L, nc) result(Xc) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: L (2) integer, intent(in) :: nc (2) Return Value real(kind=rk), allocatable, (:,:) Called by proc~~tetragon_xc~~CalledByGraph proc~tetragon_xc tetragon_Xc proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->proc~tetragon_xc program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/tetragon_xc.html"},{"title":"bincoeff – ForCAD","text":"private pure function bincoeff(n, k) result(b) Arguments Type Intent Optional Attributes Name integer, intent(in) :: n integer, intent(in) :: k Return Value real(kind=rk) Calls proc~~bincoeff~~CallsGraph proc~bincoeff bincoeff proc~factln factln proc~bincoeff->proc~factln Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~bincoeff~~CalledByGraph proc~bincoeff bincoeff proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree_a_5_9->proc~bincoeff proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->proc~elevate_degree_a_5_9 proc~elevate_degree~2 nurbs_surface%elevate_degree proc~elevate_degree~2->proc~elevate_degree_a_5_9 proc~elevate_degree~3 nurbs_curve%elevate_degree proc~elevate_degree~3->proc~elevate_degree_a_5_9 program~example1_curve example1_curve program~example1_curve->proc~elevate_degree~3 program~example3_surface example3_surface program~example3_surface->proc~elevate_degree~2 program~example3_volume example3_volume program~example3_volume->proc~elevate_degree Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/bincoeff.html"},{"title":"cmp_elemConn_C0_L – ForCAD","text":"private pure function cmp_elemConn_C0_L(nnode, p) result(elemConn) Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode integer, intent(in) :: p Return Value integer, allocatable, (:,:) Called by proc~~cmp_elemconn_c0_l~~CalledByGraph proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0 elemConn_C0 interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xc_vis~2 nurbs_surface%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elem_xc_vis~3 nurbs_curve%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis~2 nurbs_surface%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~cmp_elem_xg_vis~3 nurbs_curve%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~export_xc nurbs_volume%export_Xc proc~export_xc->proc~cmp_elem_xc_vis proc~export_xc~2 nurbs_surface%export_Xc proc~export_xc~2->proc~cmp_elem_xc_vis~2 proc~export_xc~3 nurbs_curve%export_Xc proc~export_xc~3->proc~cmp_elem_xc_vis~3 proc~export_xg nurbs_volume%export_Xg proc~export_xg->proc~cmp_elem_xg_vis proc~export_xg~2 nurbs_surface%export_Xg proc~export_xg~2->proc~cmp_elem_xg_vis~2 proc~export_xg~3 nurbs_curve%export_Xg proc~export_xg~3->proc~cmp_elem_xg_vis~3 program~example1_curve example1_curve program~example1_curve->proc~export_xc~3 program~example1_curve->proc~export_xg~3 program~example3_surface example3_surface program~example3_surface->proc~export_xc~2 program~example3_surface->proc~export_xg~2 program~example3_volume example3_volume program~example3_volume->proc~export_xc program~example3_volume->proc~export_xg program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~export_xc~3 program~example_nurbs_curve->proc~export_xg~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~export_xc~2 program~example_nurbs_surface->proc~export_xg~2 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~export_xc program~example_nurbs_volume->proc~export_xg program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~export_xc program~example_put_to_nurbs->proc~export_xg program~shape_c_1d shape_C_1d program~shape_c_1d->proc~export_xc~3 program~shape_c_1d->proc~export_xg~3 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~export_xc~2 program~shape_c_2d->proc~export_xg~2 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~export_xc program~shape_c_3d->proc~export_xg program~shape_circle shape_circle program~shape_circle->proc~export_xc~3 program~shape_circle->proc~export_xg~3 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~export_xc~3 program~shape_half_circle->proc~export_xg~3 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~export_xc~2 program~shape_half_ring_2d->proc~export_xg~2 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~export_xc program~shape_half_ring_3d->proc~export_xg program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~export_xc program~shape_hexahedron->proc~export_xg program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~export_xc~2 program~shape_ring_2d->proc~export_xg~2 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~export_xc program~shape_ring_3d->proc~export_xg program~shape_tetragon shape_tetragon program~shape_tetragon->proc~export_xc~2 program~shape_tetragon->proc~export_xg~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elemconn_c0_l.html"},{"title":"cmp_elemConn_C0_S – ForCAD","text":"private pure function cmp_elemConn_C0_S(nnode1, nnode2, p1, p2) result(elemConn) Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: p1 integer, intent(in) :: p2 Return Value integer, allocatable, (:,:) Called by proc~~cmp_elemconn_c0_s~~CalledByGraph proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0 elemConn_C0 interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xc_vis~2 nurbs_surface%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elem_xc_vis~3 nurbs_curve%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis~2 nurbs_surface%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~cmp_elem_xg_vis~3 nurbs_curve%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~export_xc nurbs_volume%export_Xc proc~export_xc->proc~cmp_elem_xc_vis proc~export_xc~2 nurbs_surface%export_Xc proc~export_xc~2->proc~cmp_elem_xc_vis~2 proc~export_xc~3 nurbs_curve%export_Xc proc~export_xc~3->proc~cmp_elem_xc_vis~3 proc~export_xg nurbs_volume%export_Xg proc~export_xg->proc~cmp_elem_xg_vis proc~export_xg~2 nurbs_surface%export_Xg proc~export_xg~2->proc~cmp_elem_xg_vis~2 proc~export_xg~3 nurbs_curve%export_Xg proc~export_xg~3->proc~cmp_elem_xg_vis~3 program~example1_curve example1_curve program~example1_curve->proc~export_xc~3 program~example1_curve->proc~export_xg~3 program~example3_surface example3_surface program~example3_surface->proc~export_xc~2 program~example3_surface->proc~export_xg~2 program~example3_volume example3_volume program~example3_volume->proc~export_xc program~example3_volume->proc~export_xg program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~export_xc~3 program~example_nurbs_curve->proc~export_xg~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~export_xc~2 program~example_nurbs_surface->proc~export_xg~2 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~export_xc program~example_nurbs_volume->proc~export_xg program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~export_xc program~example_put_to_nurbs->proc~export_xg program~shape_c_1d shape_C_1d program~shape_c_1d->proc~export_xc~3 program~shape_c_1d->proc~export_xg~3 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~export_xc~2 program~shape_c_2d->proc~export_xg~2 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~export_xc program~shape_c_3d->proc~export_xg program~shape_circle shape_circle program~shape_circle->proc~export_xc~3 program~shape_circle->proc~export_xg~3 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~export_xc~3 program~shape_half_circle->proc~export_xg~3 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~export_xc~2 program~shape_half_ring_2d->proc~export_xg~2 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~export_xc program~shape_half_ring_3d->proc~export_xg program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~export_xc program~shape_hexahedron->proc~export_xg program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~export_xc~2 program~shape_ring_2d->proc~export_xg~2 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~export_xc program~shape_ring_3d->proc~export_xg program~shape_tetragon shape_tetragon program~shape_tetragon->proc~export_xc~2 program~shape_tetragon->proc~export_xg~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elemconn_c0_s.html"},{"title":"cmp_elemConn_C0_V – ForCAD","text":"private pure function cmp_elemConn_C0_V(nnode1, nnode2, nnode3, p1, p2, p3) result(elemConn) Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: nnode3 integer, intent(in) :: p1 integer, intent(in) :: p2 integer, intent(in) :: p3 Return Value integer, allocatable, (:,:) Called by proc~~cmp_elemconn_c0_v~~CalledByGraph proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0 elemConn_C0 interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xc_vis~2 nurbs_surface%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elem_xc_vis~3 nurbs_curve%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis~2 nurbs_surface%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~cmp_elem_xg_vis~3 nurbs_curve%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~export_xc nurbs_volume%export_Xc proc~export_xc->proc~cmp_elem_xc_vis proc~export_xc~2 nurbs_surface%export_Xc proc~export_xc~2->proc~cmp_elem_xc_vis~2 proc~export_xc~3 nurbs_curve%export_Xc proc~export_xc~3->proc~cmp_elem_xc_vis~3 proc~export_xg nurbs_volume%export_Xg proc~export_xg->proc~cmp_elem_xg_vis proc~export_xg~2 nurbs_surface%export_Xg proc~export_xg~2->proc~cmp_elem_xg_vis~2 proc~export_xg~3 nurbs_curve%export_Xg proc~export_xg~3->proc~cmp_elem_xg_vis~3 program~example1_curve example1_curve program~example1_curve->proc~export_xc~3 program~example1_curve->proc~export_xg~3 program~example3_surface example3_surface program~example3_surface->proc~export_xc~2 program~example3_surface->proc~export_xg~2 program~example3_volume example3_volume program~example3_volume->proc~export_xc program~example3_volume->proc~export_xg program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~export_xc~3 program~example_nurbs_curve->proc~export_xg~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~export_xc~2 program~example_nurbs_surface->proc~export_xg~2 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~export_xc program~example_nurbs_volume->proc~export_xg program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~export_xc program~example_put_to_nurbs->proc~export_xg program~shape_c_1d shape_C_1d program~shape_c_1d->proc~export_xc~3 program~shape_c_1d->proc~export_xg~3 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~export_xc~2 program~shape_c_2d->proc~export_xg~2 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~export_xc program~shape_c_3d->proc~export_xg program~shape_circle shape_circle program~shape_circle->proc~export_xc~3 program~shape_circle->proc~export_xg~3 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~export_xc~3 program~shape_half_circle->proc~export_xg~3 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~export_xc~2 program~shape_half_ring_2d->proc~export_xg~2 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~export_xc program~shape_half_ring_3d->proc~export_xg program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~export_xc program~shape_hexahedron->proc~export_xg program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~export_xc~2 program~shape_ring_2d->proc~export_xg~2 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~export_xc program~shape_ring_3d->proc~export_xg program~shape_tetragon shape_tetragon program~shape_tetragon->proc~export_xc~2 program~shape_tetragon->proc~export_xg~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elemconn_c0_v.html"},{"title":"compute_multiplicity1 – ForCAD","text":"private pure function compute_multiplicity1(knot) result(multiplicity) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: knot (:) Return Value integer, allocatable, (:) Called by proc~~compute_multiplicity1~~CalledByGraph proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity compute_multiplicity interface~compute_multiplicity->proc~compute_multiplicity1 proc~cmp_nc nurbs_volume%cmp_nc proc~cmp_nc->interface~compute_multiplicity proc~cmp_nc~2 nurbs_surface%cmp_nc proc~cmp_nc~2->interface~compute_multiplicity proc~cmp_nc~3 nurbs_curve%cmp_nc proc~cmp_nc~3->interface~compute_multiplicity proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree_a_5_9->interface~compute_multiplicity proc~get_continuity nurbs_volume%get_continuity proc~get_continuity->interface~compute_multiplicity proc~get_continuity~2 nurbs_surface%get_continuity proc~get_continuity~2->interface~compute_multiplicity proc~get_continuity~3 nurbs_curve%get_continuity proc~get_continuity~3->interface~compute_multiplicity proc~get_multiplicity nurbs_volume%get_multiplicity proc~get_multiplicity->interface~compute_multiplicity proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~get_nc get_nc proc~get_nc->interface~compute_multiplicity proc~get_nc~2 nurbs_surface%get_nc proc~get_nc~2->interface~compute_multiplicity proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->interface~compute_multiplicity none~set nurbs_volume%set proc~insert_knots->none~set proc~insert_knots~2 nurbs_surface%insert_knots proc~insert_knots~2->interface~compute_multiplicity none~set~2 nurbs_surface%set proc~insert_knots~2->none~set~2 proc~insert_knots~3 nurbs_curve%insert_knots proc~insert_knots~3->interface~compute_multiplicity none~set~3 nurbs_curve%set proc~insert_knots~3->none~set~3 proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->interface~compute_multiplicity proc~remove_knots->none~set proc~remove_knots~2 nurbs_surface%remove_knots proc~remove_knots~2->interface~compute_multiplicity proc~remove_knots~2->none~set~2 proc~remove_knots~3 nurbs_curve%remove_knots proc~remove_knots~3->interface~compute_multiplicity proc~remove_knots~3->none~set~3 proc~cmp_degree nurbs_volume%cmp_degree proc~cmp_degree->proc~get_multiplicity proc~cmp_degree~2 nurbs_surface%cmp_degree proc~cmp_degree~2->proc~get_multiplicity~2 proc~cmp_degree~3 nurbs_curve%cmp_degree proc~cmp_degree~3->proc~get_multiplicity~3 proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->proc~get_multiplicity proc~cmp_elem~2 nurbs_surface%cmp_elem proc~cmp_elem~2->proc~get_multiplicity~2 proc~cmp_elem~3 nurbs_curve%cmp_elem proc~cmp_elem~3->proc~get_multiplicity~3 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->proc~elevate_degree_a_5_9 proc~elevate_degree->none~set proc~elevate_degree~2 nurbs_surface%elevate_degree proc~elevate_degree~2->proc~elevate_degree_a_5_9 proc~elevate_degree~2->none~set~2 proc~elevate_degree~3 nurbs_curve%elevate_degree proc~elevate_degree~3->proc~elevate_degree_a_5_9 proc~elevate_degree~3->none~set~3 proc~set1 nurbs_volume%set1 proc~set1->proc~cmp_nc proc~set1->proc~cmp_degree proc~set1~2 nurbs_surface%set1 proc~set1~2->proc~cmp_nc~2 proc~set1~2->proc~cmp_degree~2 proc~set2 nurbs_volume%set2 proc~set2->proc~cmp_nc proc~set2~2 nurbs_surface%set2 proc~set2~2->proc~cmp_nc~2 program~example1_curve example1_curve program~example1_curve->proc~insert_knots~3 program~example1_curve->proc~remove_knots~3 program~example1_curve->proc~elevate_degree~3 program~example1_curve->none~set~3 program~example3_surface example3_surface program~example3_surface->proc~insert_knots~2 program~example3_surface->proc~remove_knots~2 program~example3_surface->proc~elevate_degree~2 program~example3_surface->none~set~2 program~example3_volume example3_volume program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example3_volume->proc~elevate_degree program~example3_volume->none~set none~set->proc~set1 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 none~set~2->proc~set1~2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 proc~set1~3 nurbs_curve%set1 proc~set1~3->proc~cmp_degree~3 proc~set3->proc~cmp_degree proc~set3~2->proc~cmp_degree~2 proc~set3~3 nurbs_curve%set3 proc~set3~3->proc~cmp_degree~3 none~set~3->proc~set1~3 none~set~3->proc~set3~3 proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_wc~2 nurbs_surface%modify_Wc proc~modify_wc~2->none~set~2 proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~modify_xc~2 nurbs_surface%modify_Xc proc~modify_xc~2->none~set~2 proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_c~2 nurbs_surface%set_C proc~set_c~2->none~set~2 proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~2 proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~2 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~2 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set proc~modify_wc~3 nurbs_curve%modify_Wc proc~modify_wc~3->none~set~3 proc~modify_xc~3 nurbs_curve%modify_Xc proc~modify_xc~3->none~set~3 proc~set_circle nurbs_curve%set_circle proc~set_circle->none~set~3 proc~set_c~3 nurbs_curve%set_C proc~set_c~3->none~set~3 proc~set_half_circle nurbs_curve%set_half_circle proc~set_half_circle->none~set~3 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->none~set~3 program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~2 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~2 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~3 program~shape_circle shape_circle program~shape_circle->proc~set_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_multiplicity1.html"},{"title":"compute_multiplicity2 – ForCAD","text":"private pure function compute_multiplicity2(knot, Xth) result(multiplicity) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: knot (:) real(kind=rk), intent(in) :: Xth Return Value integer Called by proc~~compute_multiplicity2~~CalledByGraph proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity compute_multiplicity interface~compute_multiplicity->proc~compute_multiplicity2 proc~cmp_nc nurbs_volume%cmp_nc proc~cmp_nc->interface~compute_multiplicity proc~cmp_nc~2 nurbs_surface%cmp_nc proc~cmp_nc~2->interface~compute_multiplicity proc~cmp_nc~3 nurbs_curve%cmp_nc proc~cmp_nc~3->interface~compute_multiplicity proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree_a_5_9->interface~compute_multiplicity proc~get_continuity nurbs_volume%get_continuity proc~get_continuity->interface~compute_multiplicity proc~get_continuity~2 nurbs_surface%get_continuity proc~get_continuity~2->interface~compute_multiplicity proc~get_continuity~3 nurbs_curve%get_continuity proc~get_continuity~3->interface~compute_multiplicity proc~get_multiplicity nurbs_volume%get_multiplicity proc~get_multiplicity->interface~compute_multiplicity proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~get_nc get_nc proc~get_nc->interface~compute_multiplicity proc~get_nc~2 nurbs_surface%get_nc proc~get_nc~2->interface~compute_multiplicity proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->interface~compute_multiplicity none~set nurbs_volume%set proc~insert_knots->none~set proc~insert_knots~2 nurbs_surface%insert_knots proc~insert_knots~2->interface~compute_multiplicity none~set~2 nurbs_surface%set proc~insert_knots~2->none~set~2 proc~insert_knots~3 nurbs_curve%insert_knots proc~insert_knots~3->interface~compute_multiplicity none~set~3 nurbs_curve%set proc~insert_knots~3->none~set~3 proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->interface~compute_multiplicity proc~remove_knots->none~set proc~remove_knots~2 nurbs_surface%remove_knots proc~remove_knots~2->interface~compute_multiplicity proc~remove_knots~2->none~set~2 proc~remove_knots~3 nurbs_curve%remove_knots proc~remove_knots~3->interface~compute_multiplicity proc~remove_knots~3->none~set~3 proc~cmp_degree nurbs_volume%cmp_degree proc~cmp_degree->proc~get_multiplicity proc~cmp_degree~2 nurbs_surface%cmp_degree proc~cmp_degree~2->proc~get_multiplicity~2 proc~cmp_degree~3 nurbs_curve%cmp_degree proc~cmp_degree~3->proc~get_multiplicity~3 proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->proc~get_multiplicity proc~cmp_elem~2 nurbs_surface%cmp_elem proc~cmp_elem~2->proc~get_multiplicity~2 proc~cmp_elem~3 nurbs_curve%cmp_elem proc~cmp_elem~3->proc~get_multiplicity~3 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->proc~elevate_degree_a_5_9 proc~elevate_degree->none~set proc~elevate_degree~2 nurbs_surface%elevate_degree proc~elevate_degree~2->proc~elevate_degree_a_5_9 proc~elevate_degree~2->none~set~2 proc~elevate_degree~3 nurbs_curve%elevate_degree proc~elevate_degree~3->proc~elevate_degree_a_5_9 proc~elevate_degree~3->none~set~3 proc~set1 nurbs_volume%set1 proc~set1->proc~cmp_nc proc~set1->proc~cmp_degree proc~set1~2 nurbs_surface%set1 proc~set1~2->proc~cmp_nc~2 proc~set1~2->proc~cmp_degree~2 proc~set2 nurbs_volume%set2 proc~set2->proc~cmp_nc proc~set2~2 nurbs_surface%set2 proc~set2~2->proc~cmp_nc~2 program~example1_curve example1_curve program~example1_curve->proc~insert_knots~3 program~example1_curve->proc~remove_knots~3 program~example1_curve->proc~elevate_degree~3 program~example1_curve->none~set~3 program~example3_surface example3_surface program~example3_surface->proc~insert_knots~2 program~example3_surface->proc~remove_knots~2 program~example3_surface->proc~elevate_degree~2 program~example3_surface->none~set~2 program~example3_volume example3_volume program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example3_volume->proc~elevate_degree program~example3_volume->none~set none~set->proc~set1 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 none~set~2->proc~set1~2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 proc~set1~3 nurbs_curve%set1 proc~set1~3->proc~cmp_degree~3 proc~set3->proc~cmp_degree proc~set3~2->proc~cmp_degree~2 proc~set3~3 nurbs_curve%set3 proc~set3~3->proc~cmp_degree~3 none~set~3->proc~set1~3 none~set~3->proc~set3~3 proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_wc~2 nurbs_surface%modify_Wc proc~modify_wc~2->none~set~2 proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~modify_xc~2 nurbs_surface%modify_Xc proc~modify_xc~2->none~set~2 proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_c~2 nurbs_surface%set_C proc~set_c~2->none~set~2 proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~2 proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~2 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~2 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set proc~modify_wc~3 nurbs_curve%modify_Wc proc~modify_wc~3->none~set~3 proc~modify_xc~3 nurbs_curve%modify_Xc proc~modify_xc~3->none~set~3 proc~set_circle nurbs_curve%set_circle proc~set_circle->none~set~3 proc~set_c~3 nurbs_curve%set_C proc~set_c~3->none~set~3 proc~set_half_circle nurbs_curve%set_half_circle proc~set_half_circle->none~set~3 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->none~set~3 program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~2 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~2 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~3 program~shape_circle shape_circle program~shape_circle->proc~set_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/compute_multiplicity2.html"},{"title":"factln – ForCAD","text":"private pure function factln(n) result(f) Arguments Type Intent Optional Attributes Name integer, intent(in) :: n Return Value real(kind=rk) Called by proc~~factln~~CalledByGraph proc~factln factln proc~bincoeff bincoeff proc~bincoeff->proc~factln proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree_a_5_9->proc~bincoeff proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->proc~elevate_degree_a_5_9 proc~elevate_degree~2 nurbs_surface%elevate_degree proc~elevate_degree~2->proc~elevate_degree_a_5_9 proc~elevate_degree~3 nurbs_curve%elevate_degree proc~elevate_degree~3->proc~elevate_degree_a_5_9 program~example1_curve example1_curve program~example1_curve->proc~elevate_degree~3 program~example3_surface example3_surface program~example3_surface->proc~elevate_degree~2 program~example3_volume example3_volume program~example3_volume->proc~elevate_degree Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/factln.html"},{"title":"isinf – ForCAD","text":"private pure elemental function isinf(x) result(output) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: x Return Value logical Called by proc~~isinf~~CalledByGraph proc~isinf isinf proc~basis_bspline_der basis_bspline_der proc~basis_bspline_der->proc~isinf proc~compute_dtgc_bspline_1d compute_dTgc_bspline_1d proc~compute_dtgc_bspline_1d->proc~basis_bspline_der proc~compute_dtgc_bspline_2d compute_dTgc_bspline_2d proc~compute_dtgc_bspline_2d->proc~basis_bspline_der proc~compute_dtgc_bspline_3d compute_dTgc_bspline_3d proc~compute_dtgc_bspline_3d->proc~basis_bspline_der proc~compute_dtgc_nurbs_1d compute_dTgc_nurbs_1d proc~compute_dtgc_nurbs_1d->proc~basis_bspline_der proc~compute_dtgc_nurbs_2d compute_dTgc_nurbs_2d proc~compute_dtgc_nurbs_2d->proc~basis_bspline_der proc~compute_dtgc_nurbs_3d compute_dTgc_nurbs_3d proc~compute_dtgc_nurbs_3d->proc~basis_bspline_der Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/isinf.html"},{"title":"isnan – ForCAD","text":"private pure elemental function isnan(x) result(output) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: x Return Value logical","tags":"","loc":"proc/isnan.html"},{"title":"repelem – ForCAD","text":"private pure function repelem(a, b) result(c) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: a (:) integer, intent(in), contiguous :: b (:) Return Value real(kind=rk), (sum(b)) Called by proc~~repelem~~CalledByGraph proc~repelem repelem proc~compute_knot_vector compute_knot_vector proc~compute_knot_vector->proc~repelem proc~set2 nurbs_volume%set2 proc~set2->proc~compute_knot_vector proc~set2~2 nurbs_surface%set2 proc~set2~2->proc~compute_knot_vector proc~set2~3 nurbs_curve%set2 proc~set2~3->proc~compute_knot_vector none~set nurbs_volume%set none~set->proc~set2 none~set~2 nurbs_surface%set none~set~2->proc~set2~2 none~set~3 nurbs_curve%set none~set~3->proc~set2~3 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->none~set proc~elevate_degree~2 nurbs_surface%elevate_degree proc~elevate_degree~2->none~set~2 proc~elevate_degree~3 nurbs_curve%elevate_degree proc~elevate_degree~3->none~set~3 proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->none~set proc~insert_knots~2 nurbs_surface%insert_knots proc~insert_knots~2->none~set~2 proc~insert_knots~3 nurbs_curve%insert_knots proc~insert_knots~3->none~set~3 proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_wc~2 nurbs_surface%modify_Wc proc~modify_wc~2->none~set~2 proc~modify_wc~3 nurbs_curve%modify_Wc proc~modify_wc~3->none~set~3 proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~modify_xc~2 nurbs_surface%modify_Xc proc~modify_xc~2->none~set~2 proc~modify_xc~3 nurbs_curve%modify_Xc proc~modify_xc~3->none~set~3 proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->none~set proc~remove_knots~2 nurbs_surface%remove_knots proc~remove_knots~2->none~set~2 proc~remove_knots~3 nurbs_curve%remove_knots proc~remove_knots~3->none~set~3 proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_circle nurbs_curve%set_circle proc~set_circle->none~set~3 proc~set_c~2 nurbs_surface%set_C proc~set_c~2->none~set~2 proc~set_c~3 nurbs_curve%set_C proc~set_c~3->none~set~3 proc~set_half_circle nurbs_curve%set_half_circle proc~set_half_circle->none~set~3 proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~2 proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~2 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~2 program~example1_curve example1_curve program~example1_curve->none~set~3 program~example1_curve->proc~elevate_degree~3 program~example1_curve->proc~insert_knots~3 program~example1_curve->proc~remove_knots~3 program~example3_surface example3_surface program~example3_surface->none~set~2 program~example3_surface->proc~elevate_degree~2 program~example3_surface->proc~insert_knots~2 program~example3_surface->proc~remove_knots~2 program~example3_volume example3_volume program~example3_volume->none~set program~example3_volume->proc~elevate_degree program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->none~set~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~2 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~2 program~example_ppm3->proc~set_tetragon program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~3 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~2 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_circle shape_circle program~shape_circle->proc~set_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/repelem.html"},{"title":"unique_integer – ForCAD","text":"private pure function unique_integer(vec) result(output) Arguments Type Intent Optional Attributes Name integer, intent(in), dimension(:), contiguous :: vec Return Value integer, dimension(:), allocatable Called by proc~~unique_integer~~CalledByGraph proc~unique_integer unique_integer interface~unique unique interface~unique->proc~unique_integer proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->interface~unique proc~cmp_elem~2 nurbs_surface%cmp_elem proc~cmp_elem~2->interface~unique proc~cmp_elem~3 nurbs_curve%cmp_elem proc~cmp_elem~3->interface~unique Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/unique_integer.html"},{"title":"unique_real – ForCAD","text":"private pure function unique_real(vec) result(output) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), dimension(:), contiguous :: vec Return Value real(kind=rk), dimension(:), allocatable Called by proc~~unique_real~~CalledByGraph proc~unique_real unique_real interface~unique unique interface~unique->proc~unique_real proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->interface~unique proc~cmp_elem~2 nurbs_surface%cmp_elem proc~cmp_elem~2->interface~unique proc~cmp_elem~3 nurbs_curve%cmp_elem proc~cmp_elem~3->interface~unique Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/unique_real.html"},{"title":"elevate_degree_A_5_9 – ForCAD","text":"public pure subroutine elevate_degree_A_5_9(t, knot, degree, Xcw, nc_new, knot_new, Xcw_new) Arguments Type Intent Optional Attributes Name integer, intent(in) :: t real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: degree real(kind=rk), intent(in), contiguous :: Xcw (:,:) integer, intent(out) :: nc_new real(kind=rk), intent(out), allocatable :: knot_new (:) real(kind=rk), intent(out), allocatable :: Xcw_new (:,:) Calls proc~~elevate_degree_a_5_9~~CallsGraph proc~elevate_degree_a_5_9 elevate_degree_A_5_9 interface~compute_multiplicity compute_multiplicity proc~elevate_degree_a_5_9->interface~compute_multiplicity proc~bincoeff bincoeff proc~elevate_degree_a_5_9->proc~bincoeff proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~factln factln proc~bincoeff->proc~factln Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~elevate_degree_a_5_9~~CalledByGraph proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->proc~elevate_degree_a_5_9 proc~elevate_degree~2 nurbs_surface%elevate_degree proc~elevate_degree~2->proc~elevate_degree_a_5_9 proc~elevate_degree~3 nurbs_curve%elevate_degree proc~elevate_degree~3->proc~elevate_degree_a_5_9 program~example1_curve example1_curve program~example1_curve->proc~elevate_degree~3 program~example3_surface example3_surface program~example3_surface->proc~elevate_degree~2 program~example3_volume example3_volume program~example3_volume->proc~elevate_degree Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/elevate_degree_a_5_9.html"},{"title":"insert_knot_A_5_1 – ForCAD","text":"public pure subroutine insert_knot_A_5_1(p, UP, Pw, u, k, s, r, nq, UQ, Qw) Arguments Type Intent Optional Attributes Name integer, intent(in) :: p real(kind=rk), intent(in), contiguous :: UP (0:) real(kind=rk), intent(in), contiguous :: Pw (0:,:) real(kind=rk), intent(in) :: u integer, intent(in) :: k integer, intent(in) :: s integer, intent(in) :: r integer, intent(out) :: nq real(kind=rk), intent(out), allocatable :: UQ (:) real(kind=rk), intent(out), allocatable :: Qw (:,:) Called by proc~~insert_knot_a_5_1~~CalledByGraph proc~insert_knot_a_5_1 insert_knot_A_5_1 proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->proc~insert_knot_a_5_1 proc~insert_knots~2 nurbs_surface%insert_knots proc~insert_knots~2->proc~insert_knot_a_5_1 proc~insert_knots~3 nurbs_curve%insert_knots proc~insert_knots~3->proc~insert_knot_a_5_1 program~example1_curve example1_curve program~example1_curve->proc~insert_knots~3 program~example3_surface example3_surface program~example3_surface->proc~insert_knots~2 program~example3_volume example3_volume program~example3_volume->proc~insert_knots Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/insert_knot_a_5_1.html"},{"title":"remove_knots_A_5_8 – ForCAD","text":"public pure subroutine remove_knots_A_5_8(p, knot, Pw, u, r, s, num, t, knot_new, Pw_new) Arguments Type Intent Optional Attributes Name integer, intent(in) :: p real(kind=rk), intent(in), contiguous :: knot (:) real(kind=rk), intent(in), contiguous :: Pw (:,:) real(kind=rk), intent(in) :: u integer, intent(in) :: r integer, intent(in) :: s integer, intent(in) :: num integer, intent(out) :: t real(kind=rk), intent(out), allocatable :: knot_new (:) real(kind=rk), intent(out), allocatable :: Pw_new (:,:) Called by proc~~remove_knots_a_5_8~~CalledByGraph proc~remove_knots_a_5_8 remove_knots_A_5_8 proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->proc~remove_knots_a_5_8 proc~remove_knots~2 nurbs_surface%remove_knots proc~remove_knots~2->proc~remove_knots_a_5_8 proc~remove_knots~3 nurbs_curve%remove_knots proc~remove_knots~3->proc~remove_knots_a_5_8 program~example1_curve example1_curve program~example1_curve->proc~remove_knots~3 program~example3_surface example3_surface program~example3_surface->proc~remove_knots~2 program~example3_volume example3_volume program~example3_volume->proc~remove_knots Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/remove_knots_a_5_8.html"},{"title":"cmp_elemConn_Cn_L – ForCAD","text":"private pure subroutine cmp_elemConn_Cn_L(nnode, p, Xth, vecKnot_mul, elemConn) Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode integer, intent(in) :: p real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: vecKnot_mul (:) integer, intent(out), allocatable :: elemConn (:,:) Called by proc~~cmp_elemconn_cn_l~~CalledByGraph proc~cmp_elemconn_cn_l cmp_elemConn_Cn_L interface~elemconn_cn elemConn_Cn interface~elemconn_cn->proc~cmp_elemconn_cn_l proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->interface~elemconn_cn proc~cmp_elem~2 nurbs_surface%cmp_elem proc~cmp_elem~2->interface~elemconn_cn proc~cmp_elem~3 nurbs_curve%cmp_elem proc~cmp_elem~3->interface~elemconn_cn Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elemconn_cn_l.html"},{"title":"cmp_elemConn_Cn_S – ForCAD","text":"private pure subroutine cmp_elemConn_Cn_S(nnode1, nnode2, p1, p2, Xth1, Xth2, vecKnot_mul1, vecKnot_mul2, elemConn) Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: p1 integer, intent(in) :: p2 real(kind=rk), intent(in), contiguous :: Xth1 (:) real(kind=rk), intent(in), contiguous :: Xth2 (:) integer, intent(in), contiguous :: vecKnot_mul1 (:) integer, intent(in), contiguous :: vecKnot_mul2 (:) integer, intent(out), allocatable :: elemConn (:,:) Called by proc~~cmp_elemconn_cn_s~~CalledByGraph proc~cmp_elemconn_cn_s cmp_elemConn_Cn_S interface~elemconn_cn elemConn_Cn interface~elemconn_cn->proc~cmp_elemconn_cn_s proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->interface~elemconn_cn proc~cmp_elem~2 nurbs_surface%cmp_elem proc~cmp_elem~2->interface~elemconn_cn proc~cmp_elem~3 nurbs_curve%cmp_elem proc~cmp_elem~3->interface~elemconn_cn Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elemconn_cn_s.html"},{"title":"cmp_elemConn_Cn_V – ForCAD","text":"private pure subroutine cmp_elemConn_Cn_V(nnode1, nnode2, nnode3, p1, p2, p3, Xth1, Xth2, Xth3, vecKnot_mul1, vecKnot_mul2, vecKnot_mul3, elemConn) Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: nnode3 integer, intent(in) :: p1 integer, intent(in) :: p2 integer, intent(in) :: p3 real(kind=rk), intent(in), contiguous :: Xth1 (:) real(kind=rk), intent(in), contiguous :: Xth2 (:) real(kind=rk), intent(in), contiguous :: Xth3 (:) integer, intent(in), contiguous :: vecKnot_mul1 (:) integer, intent(in), contiguous :: vecKnot_mul2 (:) integer, intent(in), contiguous :: vecKnot_mul3 (:) integer, intent(out), allocatable :: elemConn (:,:) Called by proc~~cmp_elemconn_cn_v~~CalledByGraph proc~cmp_elemconn_cn_v cmp_elemConn_Cn_V interface~elemconn_cn elemConn_Cn interface~elemconn_cn->proc~cmp_elemconn_cn_v proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->interface~elemconn_cn proc~cmp_elem~2 nurbs_surface%cmp_elem proc~cmp_elem~2->interface~elemconn_cn proc~cmp_elem~3 nurbs_curve%cmp_elem proc~cmp_elem~3->interface~elemconn_cn Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elemconn_cn_v.html"},{"title":"ndgrid2 – ForCAD","text":"private pure subroutine ndgrid2(X_dir1, X_dir2, Xt) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: X_dir1 (:) real(kind=rk), intent(in), contiguous :: X_dir2 (:) real(kind=rk), intent(out), allocatable :: Xt (:,:) Called by proc~~ndgrid2~~CalledByGraph proc~ndgrid2 ndgrid2 interface~ndgrid ndgrid interface~ndgrid->proc~ndgrid2 proc~basis nurbs_volume%basis proc~basis->interface~ndgrid proc~basis~2 nurbs_surface%basis proc~basis~2->interface~ndgrid proc~create nurbs_volume%create proc~create->interface~ndgrid proc~create~2 nurbs_surface%create proc~create~2->interface~ndgrid proc~derivative nurbs_volume%derivative proc~derivative->interface~ndgrid proc~derivative~2 nurbs_surface%derivative proc~derivative~2->interface~ndgrid program~example3_surface example3_surface program~example3_surface->proc~create~2 program~example3_volume example3_volume program~example3_volume->proc~create program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~create~2 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~create program~example_ppm1 example_ppm1 program~example_ppm1->proc~create~2 program~example_ppm2 example_ppm2 program~example_ppm2->proc~create~2 program~example_ppm3 example_ppm3 program~example_ppm3->proc~create~2 program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~create~2 program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~create~2 program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~create program~shape_c_2d shape_C_2d program~shape_c_2d->proc~create~2 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~create program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~create~2 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~create program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~create program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~create~2 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~create program~shape_tetragon shape_tetragon program~shape_tetragon->proc~create~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/ndgrid2.html"},{"title":"ndgrid3 – ForCAD","text":"private pure subroutine ndgrid3(X_dir1, X_dir2, X_dir3, Xt) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: X_dir1 (:) real(kind=rk), intent(in), contiguous :: X_dir2 (:) real(kind=rk), intent(in), contiguous :: X_dir3 (:) real(kind=rk), intent(out), allocatable :: Xt (:,:) Called by proc~~ndgrid3~~CalledByGraph proc~ndgrid3 ndgrid3 interface~ndgrid ndgrid interface~ndgrid->proc~ndgrid3 proc~basis nurbs_volume%basis proc~basis->interface~ndgrid proc~basis~2 nurbs_surface%basis proc~basis~2->interface~ndgrid proc~create nurbs_volume%create proc~create->interface~ndgrid proc~create~2 nurbs_surface%create proc~create~2->interface~ndgrid proc~derivative nurbs_volume%derivative proc~derivative->interface~ndgrid proc~derivative~2 nurbs_surface%derivative proc~derivative~2->interface~ndgrid program~example3_surface example3_surface program~example3_surface->proc~create~2 program~example3_volume example3_volume program~example3_volume->proc~create program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~create~2 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~create program~example_ppm1 example_ppm1 program~example_ppm1->proc~create~2 program~example_ppm2 example_ppm2 program~example_ppm2->proc~create~2 program~example_ppm3 example_ppm3 program~example_ppm3->proc~create~2 program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~create~2 program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~create~2 program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~create program~shape_c_2d shape_C_2d program~shape_c_2d->proc~create~2 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~create program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~create~2 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~create program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~create program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~create~2 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~create program~shape_tetragon shape_tetragon program~shape_tetragon->proc~create~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/ndgrid3.html"},{"title":"compute_multiplicity – ForCAD","text":"public interface compute_multiplicity Calls interface~~compute_multiplicity~~CallsGraph interface~compute_multiplicity compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by interface~~compute_multiplicity~~CalledByGraph interface~compute_multiplicity compute_multiplicity proc~cmp_nc nurbs_volume%cmp_nc proc~cmp_nc->interface~compute_multiplicity proc~cmp_nc~2 nurbs_surface%cmp_nc proc~cmp_nc~2->interface~compute_multiplicity proc~cmp_nc~3 nurbs_curve%cmp_nc proc~cmp_nc~3->interface~compute_multiplicity proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree_a_5_9->interface~compute_multiplicity proc~get_continuity nurbs_volume%get_continuity proc~get_continuity->interface~compute_multiplicity proc~get_continuity~2 nurbs_surface%get_continuity proc~get_continuity~2->interface~compute_multiplicity proc~get_continuity~3 nurbs_curve%get_continuity proc~get_continuity~3->interface~compute_multiplicity proc~get_multiplicity nurbs_volume%get_multiplicity proc~get_multiplicity->interface~compute_multiplicity proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~get_nc get_nc proc~get_nc->interface~compute_multiplicity proc~get_nc~2 nurbs_surface%get_nc proc~get_nc~2->interface~compute_multiplicity proc~insert_knots nurbs_volume%insert_knots proc~insert_knots->interface~compute_multiplicity none~set nurbs_volume%set proc~insert_knots->none~set proc~insert_knots~2 nurbs_surface%insert_knots proc~insert_knots~2->interface~compute_multiplicity none~set~2 nurbs_surface%set proc~insert_knots~2->none~set~2 proc~insert_knots~3 nurbs_curve%insert_knots proc~insert_knots~3->interface~compute_multiplicity none~set~3 nurbs_curve%set proc~insert_knots~3->none~set~3 proc~remove_knots nurbs_volume%remove_knots proc~remove_knots->interface~compute_multiplicity proc~remove_knots->none~set proc~remove_knots~2 nurbs_surface%remove_knots proc~remove_knots~2->interface~compute_multiplicity proc~remove_knots~2->none~set~2 proc~remove_knots~3 nurbs_curve%remove_knots proc~remove_knots~3->interface~compute_multiplicity proc~remove_knots~3->none~set~3 proc~cmp_degree nurbs_volume%cmp_degree proc~cmp_degree->proc~get_multiplicity proc~cmp_degree~2 nurbs_surface%cmp_degree proc~cmp_degree~2->proc~get_multiplicity~2 proc~cmp_degree~3 nurbs_curve%cmp_degree proc~cmp_degree~3->proc~get_multiplicity~3 proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->proc~get_multiplicity proc~cmp_elem~2 nurbs_surface%cmp_elem proc~cmp_elem~2->proc~get_multiplicity~2 proc~cmp_elem~3 nurbs_curve%cmp_elem proc~cmp_elem~3->proc~get_multiplicity~3 proc~elevate_degree nurbs_volume%elevate_degree proc~elevate_degree->proc~elevate_degree_a_5_9 proc~elevate_degree->none~set proc~elevate_degree~2 nurbs_surface%elevate_degree proc~elevate_degree~2->proc~elevate_degree_a_5_9 proc~elevate_degree~2->none~set~2 proc~elevate_degree~3 nurbs_curve%elevate_degree proc~elevate_degree~3->proc~elevate_degree_a_5_9 proc~elevate_degree~3->none~set~3 proc~set1 nurbs_volume%set1 proc~set1->proc~cmp_nc proc~set1->proc~cmp_degree proc~set1~2 nurbs_surface%set1 proc~set1~2->proc~cmp_nc~2 proc~set1~2->proc~cmp_degree~2 proc~set2 nurbs_volume%set2 proc~set2->proc~cmp_nc proc~set2~2 nurbs_surface%set2 proc~set2~2->proc~cmp_nc~2 program~example1_curve example1_curve program~example1_curve->proc~insert_knots~3 program~example1_curve->proc~remove_knots~3 program~example1_curve->proc~elevate_degree~3 program~example1_curve->none~set~3 program~example3_surface example3_surface program~example3_surface->proc~insert_knots~2 program~example3_surface->proc~remove_knots~2 program~example3_surface->proc~elevate_degree~2 program~example3_surface->none~set~2 program~example3_volume example3_volume program~example3_volume->proc~insert_knots program~example3_volume->proc~remove_knots program~example3_volume->proc~elevate_degree program~example3_volume->none~set none~set->proc~set1 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 none~set~2->proc~set1~2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 proc~set1~3 nurbs_curve%set1 proc~set1~3->proc~cmp_degree~3 proc~set3->proc~cmp_degree proc~set3~2->proc~cmp_degree~2 proc~set3~3 nurbs_curve%set3 proc~set3~3->proc~cmp_degree~3 none~set~3->proc~set1~3 none~set~3->proc~set3~3 proc~modify_wc nurbs_volume%modify_Wc proc~modify_wc->none~set proc~modify_wc~2 nurbs_surface%modify_Wc proc~modify_wc~2->none~set~2 proc~modify_xc nurbs_volume%modify_Xc proc~modify_xc->none~set proc~modify_xc~2 nurbs_surface%modify_Xc proc~modify_xc~2->none~set~2 proc~set_c nurbs_volume%set_C proc~set_c->none~set proc~set_c~2 nurbs_surface%set_C proc~set_c~2->none~set~2 proc~set_half_ring nurbs_volume%set_half_ring proc~set_half_ring->none~set proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~2 proc~set_hexahedron nurbs_volume%set_hexahedron proc~set_hexahedron->none~set proc~set_ring nurbs_volume%set_ring proc~set_ring->none~set proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~2 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~2 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->none~set program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->none~set proc~modify_wc~3 nurbs_curve%modify_Wc proc~modify_wc~3->none~set~3 proc~modify_xc~3 nurbs_curve%modify_Xc proc~modify_xc~3->none~set~3 proc~set_circle nurbs_curve%set_circle proc~set_circle->none~set~3 proc~set_c~3 nurbs_curve%set_C proc~set_c~3->none~set~3 proc~set_half_circle nurbs_curve%set_half_circle proc~set_half_circle->none~set~3 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->none~set~3 program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~2 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~set_hexahedron program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~2 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~set_c program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~set_half_ring program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~set_hexahedron program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~set_ring program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~3 program~shape_circle shape_circle program~shape_circle->proc~set_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Module Procedures private pure function compute_multiplicity1 (knot) result(multiplicity) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: knot (:) Return Value integer, allocatable, (:) private pure function compute_multiplicity2 (knot, Xth) result(multiplicity) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: knot (:) real(kind=rk), intent(in) :: Xth Return Value integer","tags":"","loc":"interface/compute_multiplicity.html"},{"title":"elemConn_C0 – ForCAD","text":"public interface elemConn_C0 Calls interface~~elemconn_c0~~CallsGraph interface~elemconn_c0 elemConn_C0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by interface~~elemconn_c0~~CalledByGraph interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xc_vis~2 nurbs_surface%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elem_xc_vis~3 nurbs_curve%cmp_elem_Xc_vis proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis~2 nurbs_surface%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~cmp_elem_xg_vis~3 nurbs_curve%cmp_elem_Xg_vis proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~export_xc nurbs_volume%export_Xc proc~export_xc->proc~cmp_elem_xc_vis proc~export_xc~2 nurbs_surface%export_Xc proc~export_xc~2->proc~cmp_elem_xc_vis~2 proc~export_xc~3 nurbs_curve%export_Xc proc~export_xc~3->proc~cmp_elem_xc_vis~3 proc~export_xg nurbs_volume%export_Xg proc~export_xg->proc~cmp_elem_xg_vis proc~export_xg~2 nurbs_surface%export_Xg proc~export_xg~2->proc~cmp_elem_xg_vis~2 proc~export_xg~3 nurbs_curve%export_Xg proc~export_xg~3->proc~cmp_elem_xg_vis~3 program~example1_curve example1_curve program~example1_curve->proc~export_xc~3 program~example1_curve->proc~export_xg~3 program~example3_surface example3_surface program~example3_surface->proc~export_xc~2 program~example3_surface->proc~export_xg~2 program~example3_volume example3_volume program~example3_volume->proc~export_xc program~example3_volume->proc~export_xg program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~export_xc~3 program~example_nurbs_curve->proc~export_xg~3 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~export_xc~2 program~example_nurbs_surface->proc~export_xg~2 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~export_xc program~example_nurbs_volume->proc~export_xg program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->proc~export_xc program~example_put_to_nurbs->proc~export_xg program~shape_c_1d shape_C_1d program~shape_c_1d->proc~export_xc~3 program~shape_c_1d->proc~export_xg~3 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~export_xc~2 program~shape_c_2d->proc~export_xg~2 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~export_xc program~shape_c_3d->proc~export_xg program~shape_circle shape_circle program~shape_circle->proc~export_xc~3 program~shape_circle->proc~export_xg~3 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~export_xc~3 program~shape_half_circle->proc~export_xg~3 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~export_xc~2 program~shape_half_ring_2d->proc~export_xg~2 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~export_xc program~shape_half_ring_3d->proc~export_xg program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~export_xc program~shape_hexahedron->proc~export_xg program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~export_xc~2 program~shape_ring_2d->proc~export_xg~2 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~export_xc program~shape_ring_3d->proc~export_xg program~shape_tetragon shape_tetragon program~shape_tetragon->proc~export_xc~2 program~shape_tetragon->proc~export_xg~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Module Procedures private pure function cmp_elemConn_C0_L (nnode, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode integer, intent(in) :: p Return Value integer, allocatable, (:,:) private pure function cmp_elemConn_C0_S (nnode1, nnode2, p1, p2) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: p1 integer, intent(in) :: p2 Return Value integer, allocatable, (:,:) private pure function cmp_elemConn_C0_V (nnode1, nnode2, nnode3, p1, p2, p3) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: nnode3 integer, intent(in) :: p1 integer, intent(in) :: p2 integer, intent(in) :: p3 Return Value integer, allocatable, (:,:)","tags":"","loc":"interface/elemconn_c0.html"},{"title":"elemConn_Cn – ForCAD","text":"public interface elemConn_Cn Calls interface~~elemconn_cn~~CallsGraph interface~elemconn_cn elemConn_Cn proc~cmp_elemconn_cn_l cmp_elemConn_Cn_L interface~elemconn_cn->proc~cmp_elemconn_cn_l proc~cmp_elemconn_cn_s cmp_elemConn_Cn_S interface~elemconn_cn->proc~cmp_elemconn_cn_s proc~cmp_elemconn_cn_v cmp_elemConn_Cn_V interface~elemconn_cn->proc~cmp_elemconn_cn_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by interface~~elemconn_cn~~CalledByGraph interface~elemconn_cn elemConn_Cn proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->interface~elemconn_cn proc~cmp_elem~2 nurbs_surface%cmp_elem proc~cmp_elem~2->interface~elemconn_cn proc~cmp_elem~3 nurbs_curve%cmp_elem proc~cmp_elem~3->interface~elemconn_cn Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Module Procedures private pure subroutine cmp_elemConn_Cn_L (nnode, p, Xth, vecKnot_mul, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode integer, intent(in) :: p real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: vecKnot_mul (:) integer, intent(out), allocatable :: elemConn (:,:) private pure subroutine cmp_elemConn_Cn_S (nnode1, nnode2, p1, p2, Xth1, Xth2, vecKnot_mul1, vecKnot_mul2, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: p1 integer, intent(in) :: p2 real(kind=rk), intent(in), contiguous :: Xth1 (:) real(kind=rk), intent(in), contiguous :: Xth2 (:) integer, intent(in), contiguous :: vecKnot_mul1 (:) integer, intent(in), contiguous :: vecKnot_mul2 (:) integer, intent(out), allocatable :: elemConn (:,:) private pure subroutine cmp_elemConn_Cn_V (nnode1, nnode2, nnode3, p1, p2, p3, Xth1, Xth2, Xth3, vecKnot_mul1, vecKnot_mul2, vecKnot_mul3, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: nnode3 integer, intent(in) :: p1 integer, intent(in) :: p2 integer, intent(in) :: p3 real(kind=rk), intent(in), contiguous :: Xth1 (:) real(kind=rk), intent(in), contiguous :: Xth2 (:) real(kind=rk), intent(in), contiguous :: Xth3 (:) integer, intent(in), contiguous :: vecKnot_mul1 (:) integer, intent(in), contiguous :: vecKnot_mul2 (:) integer, intent(in), contiguous :: vecKnot_mul3 (:) integer, intent(out), allocatable :: elemConn (:,:)","tags":"","loc":"interface/elemconn_cn.html"},{"title":"ndgrid – ForCAD","text":"public interface ndgrid Calls interface~~ndgrid~~CallsGraph interface~ndgrid ndgrid proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by interface~~ndgrid~~CalledByGraph interface~ndgrid ndgrid proc~basis nurbs_volume%basis proc~basis->interface~ndgrid proc~basis~2 nurbs_surface%basis proc~basis~2->interface~ndgrid proc~create nurbs_volume%create proc~create->interface~ndgrid proc~create~2 nurbs_surface%create proc~create~2->interface~ndgrid proc~derivative nurbs_volume%derivative proc~derivative->interface~ndgrid proc~derivative~2 nurbs_surface%derivative proc~derivative~2->interface~ndgrid program~example3_surface example3_surface program~example3_surface->proc~create~2 program~example3_volume example3_volume program~example3_volume->proc~create program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~create~2 program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->proc~create program~example_ppm1 example_ppm1 program~example_ppm1->proc~create~2 program~example_ppm2 example_ppm2 program~example_ppm2->proc~create~2 program~example_ppm3 example_ppm3 program~example_ppm3->proc~create~2 program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~create~2 program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~create~2 program~nearest_point_3d nearest_point_3d program~nearest_point_3d->proc~create program~shape_c_2d shape_C_2d program~shape_c_2d->proc~create~2 program~shape_c_3d shape_C_3d program~shape_c_3d->proc~create program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~create~2 program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->proc~create program~shape_hexahedron shape_hexahedron program~shape_hexahedron->proc~create program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~create~2 program~shape_ring_3d shape_ring_3d program~shape_ring_3d->proc~create program~shape_tetragon shape_tetragon program~shape_tetragon->proc~create~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Module Procedures private pure subroutine ndgrid2 (X_dir1, X_dir2, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: X_dir1 (:) real(kind=rk), intent(in), contiguous :: X_dir2 (:) real(kind=rk), intent(out), allocatable :: Xt (:,:) private pure subroutine ndgrid3 (X_dir1, X_dir2, X_dir3, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: X_dir1 (:) real(kind=rk), intent(in), contiguous :: X_dir2 (:) real(kind=rk), intent(in), contiguous :: X_dir3 (:) real(kind=rk), intent(out), allocatable :: Xt (:,:)","tags":"","loc":"interface/ndgrid.html"},{"title":"unique – ForCAD","text":"public interface unique Calls interface~~unique~~CallsGraph interface~unique unique proc~unique_integer unique_integer interface~unique->proc~unique_integer proc~unique_real unique_real interface~unique->proc~unique_real Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by interface~~unique~~CalledByGraph interface~unique unique proc~cmp_elem nurbs_volume%cmp_elem proc~cmp_elem->interface~unique proc~cmp_elem~2 nurbs_surface%cmp_elem proc~cmp_elem~2->interface~unique proc~cmp_elem~3 nurbs_curve%cmp_elem proc~cmp_elem~3->interface~unique Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Module Procedures private pure function unique_integer (vec) result(output) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in), dimension(:), contiguous :: vec Return Value integer, dimension(:), allocatable private pure function unique_real (vec) result(output) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), dimension(:), contiguous :: vec Return Value real(kind=rk), dimension(:), allocatable","tags":"","loc":"interface/unique.html"},{"title":"generate_Xc – ForCAD","text":"function generate_Xc(L) result(control_points) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: L Return Value real(kind=rk), allocatable, (:,:) Called by proc~~generate_xc~4~~CalledByGraph proc~generate_xc~4 generate_Xc program~example3_volume example3_volume program~example3_volume->proc~generate_xc~4 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/generate_xc~4.html"},{"title":"cmp_elem – ForCAD","text":"private pure function cmp_elem(this) result(elemConn) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:) Calls proc~~cmp_elem~2~~CallsGraph proc~cmp_elem~2 nurbs_surface%cmp_elem interface~elemconn_cn elemConn_Cn proc~cmp_elem~2->interface~elemconn_cn interface~unique unique proc~cmp_elem~2->interface~unique proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_elem~2->proc~get_multiplicity~2 proc~cmp_elemconn_cn_l cmp_elemConn_Cn_L interface~elemconn_cn->proc~cmp_elemconn_cn_l proc~cmp_elemconn_cn_s cmp_elemConn_Cn_S interface~elemconn_cn->proc~cmp_elemconn_cn_s proc~cmp_elemconn_cn_v cmp_elemConn_Cn_V interface~elemconn_cn->proc~cmp_elemconn_cn_v proc~unique_integer unique_integer interface~unique->proc~unique_integer proc~unique_real unique_real interface~unique->proc~unique_real interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elem~2.html"},{"title":"cmp_elem_Xc_vis – ForCAD","text":"private pure function cmp_elem_Xc_vis(this, p) result(elemConn) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) Calls proc~~cmp_elem_xc_vis~2~~CallsGraph proc~cmp_elem_xc_vis~2 nurbs_surface%cmp_elem_Xc_vis interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_elem_xc_vis~2~~CalledByGraph proc~cmp_elem_xc_vis~2 nurbs_surface%cmp_elem_Xc_vis proc~export_xc~2 nurbs_surface%export_Xc proc~export_xc~2->proc~cmp_elem_xc_vis~2 program~example3_surface example3_surface program~example3_surface->proc~export_xc~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~export_xc~2 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~export_xc~2 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~export_xc~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~export_xc~2 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~export_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elem_xc_vis~2.html"},{"title":"cmp_elem_Xg_vis – ForCAD","text":"private pure function cmp_elem_Xg_vis(this, p) result(elemConn) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) Calls proc~~cmp_elem_xg_vis~2~~CallsGraph proc~cmp_elem_xg_vis~2 nurbs_surface%cmp_elem_Xg_vis interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_elem_xg_vis~2~~CalledByGraph proc~cmp_elem_xg_vis~2 nurbs_surface%cmp_elem_Xg_vis proc~export_xg~2 nurbs_surface%export_Xg proc~export_xg~2->proc~cmp_elem_xg_vis~2 program~example3_surface example3_surface program~example3_surface->proc~export_xg~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~export_xg~2 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~export_xg~2 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~export_xg~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~export_xg~2 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~export_xg~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elem_xg_vis~2.html"},{"title":"get_Wc_all – ForCAD","text":"private pure function get_Wc_all(this) result(Wc) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) Called by proc~~get_wc_all~2~~CalledByGraph proc~get_wc_all~2 nurbs_surface%get_Wc_all none~get_wc~2 nurbs_surface%get_Wc none~get_wc~2->proc~get_wc_all~2 proc~modify_wc~2 nurbs_surface%modify_Wc proc~modify_wc~2->none~get_wc~2 proc~modify_xc~2 nurbs_surface%modify_Xc proc~modify_xc~2->none~get_wc~2 program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_wc_all~2.html"},{"title":"get_Wci – ForCAD","text":"private pure function get_Wci(this, n) result(Wc) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) Called by proc~~get_wci~2~~CalledByGraph proc~get_wci~2 nurbs_surface%get_Wci none~get_wc~2 nurbs_surface%get_Wc none~get_wc~2->proc~get_wci~2 proc~modify_wc~2 nurbs_surface%modify_Wc proc~modify_wc~2->none~get_wc~2 proc~modify_xc~2 nurbs_surface%modify_Xc proc~modify_xc~2->none~get_wc~2 program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_wci~2.html"},{"title":"get_Xc_all – ForCAD","text":"private pure function get_Xc_all(this) result(Xc) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) Called by proc~~get_xc_all~2~~CalledByGraph proc~get_xc_all~2 nurbs_surface%get_Xc_all none~get_xc~2 nurbs_surface%get_Xc none~get_xc~2->proc~get_xc_all~2 proc~modify_wc~2 nurbs_surface%modify_Wc proc~modify_wc~2->none~get_xc~2 proc~modify_xc~2 nurbs_surface%modify_Xc proc~modify_xc~2->none~get_xc~2 program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xc_all~2.html"},{"title":"get_Xci – ForCAD","text":"private pure function get_Xci(this, n) result(Xc) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) Called by proc~~get_xci~2~~CalledByGraph proc~get_xci~2 nurbs_surface%get_Xci none~get_xc~2 nurbs_surface%get_Xc none~get_xc~2->proc~get_xci~2 proc~modify_wc~2 nurbs_surface%modify_Wc proc~modify_wc~2->none~get_xc~2 proc~modify_xc~2 nurbs_surface%modify_Xc proc~modify_xc~2->none~get_xc~2 program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xci~2.html"},{"title":"get_Xcid – ForCAD","text":"private pure function get_Xcid(this, n, dir) result(Xc) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) Called by proc~~get_xcid~2~~CalledByGraph proc~get_xcid~2 nurbs_surface%get_Xcid none~get_xc~2 nurbs_surface%get_Xc none~get_xc~2->proc~get_xcid~2 proc~modify_wc~2 nurbs_surface%modify_Wc proc~modify_wc~2->none~get_xc~2 proc~modify_xc~2 nurbs_surface%modify_Xc proc~modify_xc~2->none~get_xc~2 program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xcid~2.html"},{"title":"get_Xg_all – ForCAD","text":"private pure function get_Xg_all(this) result(Xg) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) Called by proc~~get_xg_all~2~~CalledByGraph proc~get_xg_all~2 nurbs_surface%get_Xg_all none~get_xg~2 nurbs_surface%get_Xg none~get_xg~2->proc~get_xg_all~2 program~example_ppm1 example_ppm1 program~example_ppm1->none~get_xg~2 program~example_ppm2 example_ppm2 program~example_ppm2->none~get_xg~2 program~example_ppm3 example_ppm3 program~example_ppm3->none~get_xg~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xg_all~2.html"},{"title":"get_Xgi – ForCAD","text":"private pure function get_Xgi(this, n) result(Xg) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) Called by proc~~get_xgi~2~~CalledByGraph proc~get_xgi~2 nurbs_surface%get_Xgi none~get_xg~2 nurbs_surface%get_Xg none~get_xg~2->proc~get_xgi~2 program~example_ppm1 example_ppm1 program~example_ppm1->none~get_xg~2 program~example_ppm2 example_ppm2 program~example_ppm2->none~get_xg~2 program~example_ppm3 example_ppm3 program~example_ppm3->none~get_xg~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xgi~2.html"},{"title":"get_Xgid – ForCAD","text":"private pure function get_Xgid(this, n, dir) result(Xg) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) Called by proc~~get_xgid~2~~CalledByGraph proc~get_xgid~2 nurbs_surface%get_Xgid none~get_xg~2 nurbs_surface%get_Xg none~get_xg~2->proc~get_xgid~2 program~example_ppm1 example_ppm1 program~example_ppm1->none~get_xg~2 program~example_ppm2 example_ppm2 program~example_ppm2->none~get_xg~2 program~example_ppm3 example_ppm3 program~example_ppm3->none~get_xg~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xgid~2.html"},{"title":"get_Xt – ForCAD","text":"private pure function get_Xt(this, dir) result(Xt) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:)","tags":"","loc":"proc/get_xt~2.html"},{"title":"get_continuity – ForCAD","text":"private pure function get_continuity(this, dir) result(c) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) Calls proc~~get_continuity~2~~CallsGraph proc~get_continuity~2 nurbs_surface%get_continuity interface~compute_multiplicity compute_multiplicity proc~get_continuity~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_continuity~2.html"},{"title":"get_degree_all – ForCAD","text":"private pure function get_degree_all(this) result(degree) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, (2) Called by proc~~get_degree_all~2~~CalledByGraph proc~get_degree_all~2 nurbs_surface%get_degree_all none~get_degree~2 nurbs_surface%get_degree none~get_degree~2->proc~get_degree_all~2 program~example3_surface example3_surface program~example3_surface->none~get_degree~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_degree_all~2.html"},{"title":"get_degree_dir – ForCAD","text":"private pure function get_degree_dir(this, dir) result(degree) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer Called by proc~~get_degree_dir~2~~CalledByGraph proc~get_degree_dir~2 nurbs_surface%get_degree_dir none~get_degree~2 nurbs_surface%get_degree none~get_degree~2->proc~get_degree_dir~2 program~example3_surface example3_surface program~example3_surface->none~get_degree~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_degree_dir~2.html"},{"title":"get_elem – ForCAD","text":"private pure function get_elem(this) result(elemConn) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:)","tags":"","loc":"proc/get_elem~2.html"},{"title":"get_elem_Xc_vis – ForCAD","text":"private pure function get_elem_Xc_vis(this) result(elemConn) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:)","tags":"","loc":"proc/get_elem_xc_vis~2.html"},{"title":"get_elem_Xg_vis – ForCAD","text":"private pure function get_elem_Xg_vis(this) result(elemConn) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:)","tags":"","loc":"proc/get_elem_xg_vis~2.html"},{"title":"get_knot_all – ForCAD","text":"private pure function get_knot_all(this, dir) result(knot) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) Called by proc~~get_knot_all~2~~CalledByGraph proc~get_knot_all~2 nurbs_surface%get_knot_all none~get_knot~2 nurbs_surface%get_knot none~get_knot~2->proc~get_knot_all~2 proc~elevate_degree~2 nurbs_surface%elevate_degree proc~elevate_degree~2->none~get_knot~2 proc~insert_knots~2 nurbs_surface%insert_knots proc~insert_knots~2->none~get_knot~2 proc~modify_wc~2 nurbs_surface%modify_Wc proc~modify_wc~2->none~get_knot~2 proc~modify_xc~2 nurbs_surface%modify_Xc proc~modify_xc~2->none~get_knot~2 proc~remove_knots~2 nurbs_surface%remove_knots proc~remove_knots~2->none~get_knot~2 program~example3_surface example3_surface program~example3_surface->none~get_knot~2 program~example3_surface->proc~elevate_degree~2 program~example3_surface->proc~insert_knots~2 program~example3_surface->proc~remove_knots~2 program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_knot_all~2.html"},{"title":"get_knoti – ForCAD","text":"private pure function get_knoti(this, dir, i) result(knot) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir integer, intent(in) :: i Return Value real(kind=rk) Called by proc~~get_knoti~2~~CalledByGraph proc~get_knoti~2 nurbs_surface%get_knoti none~get_knot~2 nurbs_surface%get_knot none~get_knot~2->proc~get_knoti~2 proc~elevate_degree~2 nurbs_surface%elevate_degree proc~elevate_degree~2->none~get_knot~2 proc~insert_knots~2 nurbs_surface%insert_knots proc~insert_knots~2->none~get_knot~2 proc~modify_wc~2 nurbs_surface%modify_Wc proc~modify_wc~2->none~get_knot~2 proc~modify_xc~2 nurbs_surface%modify_Xc proc~modify_xc~2->none~get_knot~2 proc~remove_knots~2 nurbs_surface%remove_knots proc~remove_knots~2->none~get_knot~2 program~example3_surface example3_surface program~example3_surface->none~get_knot~2 program~example3_surface->proc~elevate_degree~2 program~example3_surface->proc~insert_knots~2 program~example3_surface->proc~remove_knots~2 program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_knoti~2.html"},{"title":"get_multiplicity – ForCAD","text":"private pure function get_multiplicity(this, dir) result(m) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) Calls proc~~get_multiplicity~2~~CallsGraph proc~get_multiplicity~2 nurbs_surface%get_multiplicity interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~get_multiplicity~2~~CalledByGraph proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2 nurbs_surface%cmp_degree proc~cmp_degree~2->proc~get_multiplicity~2 proc~cmp_elem~2 nurbs_surface%cmp_elem proc~cmp_elem~2->proc~get_multiplicity~2 proc~set1~2 nurbs_surface%set1 proc~set1~2->proc~cmp_degree~2 proc~set3~2 nurbs_surface%set3 proc~set3~2->proc~cmp_degree~2 none~set~2 nurbs_surface%set none~set~2->proc~set1~2 none~set~2->proc~set3~2 proc~elevate_degree~2 nurbs_surface%elevate_degree proc~elevate_degree~2->none~set~2 proc~insert_knots~2 nurbs_surface%insert_knots proc~insert_knots~2->none~set~2 proc~modify_wc~2 nurbs_surface%modify_Wc proc~modify_wc~2->none~set~2 proc~modify_xc~2 nurbs_surface%modify_Xc proc~modify_xc~2->none~set~2 proc~remove_knots~2 nurbs_surface%remove_knots proc~remove_knots~2->none~set~2 proc~set_c~2 nurbs_surface%set_C proc~set_c~2->none~set~2 proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~2 proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~2 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~2 program~example3_surface example3_surface program~example3_surface->none~set~2 program~example3_surface->proc~elevate_degree~2 program~example3_surface->proc~insert_knots~2 program~example3_surface->proc~remove_knots~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~2 program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~2 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~2 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_multiplicity~2.html"},{"title":"get_nc – ForCAD","text":"private pure function get_nc(this, dir) result(nc) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer Calls proc~~get_nc~2~~CallsGraph proc~get_nc~2 nurbs_surface%get_nc interface~compute_multiplicity compute_multiplicity proc~get_nc~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_nc~2.html"},{"title":"get_ng – ForCAD","text":"private pure function get_ng(this) result(ng) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, (2) Called by proc~~get_ng~2~~CalledByGraph proc~get_ng~2 nurbs_surface%get_ng program~example_ppm1 example_ppm1 program~example_ppm1->proc~get_ng~2 program~example_ppm2 example_ppm2 program~example_ppm2->proc~get_ng~2 program~example_ppm3 example_ppm3 program~example_ppm3->proc~get_ng~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_ng~2.html"},{"title":"is_rational – ForCAD","text":"private pure function is_rational(this) result(r) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value logical Called by proc~~is_rational~2~~CalledByGraph proc~is_rational~2 nurbs_surface%is_rational proc~basis~2 nurbs_surface%basis proc~basis~2->proc~is_rational~2 proc~create~2 nurbs_surface%create proc~create~2->proc~is_rational~2 proc~derivative~2 nurbs_surface%derivative proc~derivative~2->proc~is_rational~2 proc~elevate_degree~2 nurbs_surface%elevate_degree proc~elevate_degree~2->proc~is_rational~2 proc~insert_knots~2 nurbs_surface%insert_knots proc~insert_knots~2->proc~is_rational~2 proc~remove_knots~2 nurbs_surface%remove_knots proc~remove_knots~2->proc~is_rational~2 program~example3_surface example3_surface program~example3_surface->proc~create~2 program~example3_surface->proc~elevate_degree~2 program~example3_surface->proc~insert_knots~2 program~example3_surface->proc~remove_knots~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~create~2 program~example_ppm1 example_ppm1 program~example_ppm1->proc~create~2 program~example_ppm2 example_ppm2 program~example_ppm2->proc~create~2 program~example_ppm3 example_ppm3 program~example_ppm3->proc~create~2 program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~create~2 program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~create~2 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~create~2 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~create~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~create~2 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~create~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/is_rational~2.html"},{"title":"basis – ForCAD","text":"private pure subroutine basis(this, res1, res2, Xt1, Xt2, Tgc) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(out), allocatable :: Tgc (:,:) Calls proc~~basis~2~~CallsGraph proc~basis~2 nurbs_surface%basis interface~ndgrid ndgrid proc~basis~2->interface~ndgrid proc~is_rational~2 nurbs_surface%is_rational proc~basis~2->proc~is_rational~2 proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/basis~2.html"},{"title":"cmp_degree – ForCAD","text":"private pure subroutine cmp_degree(this, dir) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: dir Calls proc~~cmp_degree~2~~CallsGraph proc~cmp_degree~2 nurbs_surface%cmp_degree proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_degree~2~~CalledByGraph proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2 nurbs_surface%set1 proc~set1~2->proc~cmp_degree~2 proc~set3~2 nurbs_surface%set3 proc~set3~2->proc~cmp_degree~2 none~set~2 nurbs_surface%set none~set~2->proc~set1~2 none~set~2->proc~set3~2 proc~elevate_degree~2 nurbs_surface%elevate_degree proc~elevate_degree~2->none~set~2 proc~insert_knots~2 nurbs_surface%insert_knots proc~insert_knots~2->none~set~2 proc~modify_wc~2 nurbs_surface%modify_Wc proc~modify_wc~2->none~set~2 proc~modify_xc~2 nurbs_surface%modify_Xc proc~modify_xc~2->none~set~2 proc~remove_knots~2 nurbs_surface%remove_knots proc~remove_knots~2->none~set~2 proc~set_c~2 nurbs_surface%set_C proc~set_c~2->none~set~2 proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~2 proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~2 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~2 program~example3_surface example3_surface program~example3_surface->none~set~2 program~example3_surface->proc~elevate_degree~2 program~example3_surface->proc~insert_knots~2 program~example3_surface->proc~remove_knots~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~2 program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~2 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~2 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_degree~2.html"},{"title":"cmp_nc – ForCAD","text":"private pure subroutine cmp_nc(this, dir) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: dir Calls proc~~cmp_nc~2~~CallsGraph proc~cmp_nc~2 nurbs_surface%cmp_nc interface~compute_multiplicity compute_multiplicity proc~cmp_nc~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_nc~2~~CalledByGraph proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2 nurbs_surface%set1 proc~set1~2->proc~cmp_nc~2 proc~set2~2 nurbs_surface%set2 proc~set2~2->proc~cmp_nc~2 none~set~2 nurbs_surface%set none~set~2->proc~set1~2 none~set~2->proc~set2~2 proc~elevate_degree~2 nurbs_surface%elevate_degree proc~elevate_degree~2->none~set~2 proc~insert_knots~2 nurbs_surface%insert_knots proc~insert_knots~2->none~set~2 proc~modify_wc~2 nurbs_surface%modify_Wc proc~modify_wc~2->none~set~2 proc~modify_xc~2 nurbs_surface%modify_Xc proc~modify_xc~2->none~set~2 proc~remove_knots~2 nurbs_surface%remove_knots proc~remove_knots~2->none~set~2 proc~set_c~2 nurbs_surface%set_C proc~set_c~2->none~set~2 proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~2 proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~2 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~2 program~example3_surface example3_surface program~example3_surface->none~set~2 program~example3_surface->proc~elevate_degree~2 program~example3_surface->proc~insert_knots~2 program~example3_surface->proc~remove_knots~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~2 program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~2 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~2 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_nc~2.html"},{"title":"create – ForCAD","text":"private pure subroutine create(this, res1, res2, Xt1, Xt2, Xt) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt (:,:) Calls proc~~create~2~~CallsGraph proc~create~2 nurbs_surface%create interface~ndgrid ndgrid proc~create~2->interface~ndgrid proc~is_rational~2 nurbs_surface%is_rational proc~create~2->proc~is_rational~2 proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~create~2~~CalledByGraph proc~create~2 nurbs_surface%create program~example3_surface example3_surface program~example3_surface->proc~create~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~create~2 program~example_ppm1 example_ppm1 program~example_ppm1->proc~create~2 program~example_ppm2 example_ppm2 program~example_ppm2->proc~create~2 program~example_ppm3 example_ppm3 program~example_ppm3->proc~create~2 program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~create~2 program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~create~2 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~create~2 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~create~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~create~2 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~create~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/create~2.html"},{"title":"derivative – ForCAD","text":"private pure subroutine derivative(this, res1, res2, Xt1, Xt2, dTgc) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(out), allocatable :: dTgc (:,:) Calls proc~~derivative~2~~CallsGraph proc~derivative~2 nurbs_surface%derivative interface~ndgrid ndgrid proc~derivative~2->interface~ndgrid proc~is_rational~2 nurbs_surface%is_rational proc~derivative~2->proc~is_rational~2 proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/derivative~2.html"},{"title":"elevate_degree – ForCAD","text":"private pure subroutine elevate_degree(this, dir, t) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in) :: dir integer, intent(in) :: t Calls proc~~elevate_degree~2~~CallsGraph proc~elevate_degree~2 nurbs_surface%elevate_degree none~get_knot~2 nurbs_surface%get_knot proc~elevate_degree~2->none~get_knot~2 none~set~2 nurbs_surface%set proc~elevate_degree~2->none~set~2 proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree~2->proc~elevate_degree_a_5_9 proc~is_rational~2 nurbs_surface%is_rational proc~elevate_degree~2->proc~is_rational~2 proc~get_knot_all~2 nurbs_surface%get_knot_all none~get_knot~2->proc~get_knot_all~2 proc~get_knoti~2 nurbs_surface%get_knoti none~get_knot~2->proc~get_knoti~2 proc~set1~2 nurbs_surface%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_surface%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 interface~compute_multiplicity compute_multiplicity proc~elevate_degree_a_5_9->interface~compute_multiplicity proc~bincoeff bincoeff proc~elevate_degree_a_5_9->proc~bincoeff proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~factln factln proc~bincoeff->proc~factln proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2->proc~cmp_nc~2 proc~set2~2->proc~cmp_nc~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 proc~cmp_nc~2->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~elevate_degree~2~~CalledByGraph proc~elevate_degree~2 nurbs_surface%elevate_degree program~example3_surface example3_surface program~example3_surface->proc~elevate_degree~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/elevate_degree~2.html"},{"title":"export_Xc – ForCAD","text":"private impure subroutine export_Xc(this, filename) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this character(len=*), intent(in) :: filename Calls proc~~export_xc~2~~CallsGraph proc~export_xc~2 nurbs_surface%export_Xc proc~cmp_elem_xc_vis~2 nurbs_surface%cmp_elem_Xc_vis proc~export_xc~2->proc~cmp_elem_xc_vis~2 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~export_xc~2~~CalledByGraph proc~export_xc~2 nurbs_surface%export_Xc program~example3_surface example3_surface program~example3_surface->proc~export_xc~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~export_xc~2 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~export_xc~2 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~export_xc~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~export_xc~2 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~export_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/export_xc~2.html"},{"title":"export_Xg – ForCAD","text":"private impure subroutine export_Xg(this, filename) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this character(len=*), intent(in) :: filename Calls proc~~export_xg~2~~CallsGraph proc~export_xg~2 nurbs_surface%export_Xg proc~cmp_elem_xg_vis~2 nurbs_surface%cmp_elem_Xg_vis proc~export_xg~2->proc~cmp_elem_xg_vis~2 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~export_xg~2~~CalledByGraph proc~export_xg~2 nurbs_surface%export_Xg program~example3_surface example3_surface program~example3_surface->proc~export_xg~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~export_xg~2 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~export_xg~2 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~export_xg~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~export_xg~2 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~export_xg~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/export_xg~2.html"},{"title":"finalize – ForCAD","text":"private pure subroutine finalize(this) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this Called by proc~~finalize~2~~CalledByGraph proc~finalize~2 nurbs_surface%finalize program~example3_surface example3_surface program~example3_surface->proc~finalize~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~finalize~2 program~example_ppm1 example_ppm1 program~example_ppm1->proc~finalize~2 program~example_ppm2 example_ppm2 program~example_ppm2->proc~finalize~2 program~example_ppm3 example_ppm3 program~example_ppm3->proc~finalize~2 program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~finalize~2 program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~finalize~2 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~finalize~2 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~finalize~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~finalize~2 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~finalize~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/finalize~2.html"},{"title":"insert_knots – ForCAD","text":"private pure subroutine insert_knots(this, dir, Xth, r) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) Calls proc~~insert_knots~2~~CallsGraph proc~insert_knots~2 nurbs_surface%insert_knots interface~compute_multiplicity compute_multiplicity proc~insert_knots~2->interface~compute_multiplicity none~get_knot~2 nurbs_surface%get_knot proc~insert_knots~2->none~get_knot~2 none~set~2 nurbs_surface%set proc~insert_knots~2->none~set~2 proc~findspan findspan proc~insert_knots~2->proc~findspan proc~insert_knot_a_5_1 insert_knot_A_5_1 proc~insert_knots~2->proc~insert_knot_a_5_1 proc~is_rational~2 nurbs_surface%is_rational proc~insert_knots~2->proc~is_rational~2 proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_knot_all~2 nurbs_surface%get_knot_all none~get_knot~2->proc~get_knot_all~2 proc~get_knoti~2 nurbs_surface%get_knoti none~get_knot~2->proc~get_knoti~2 proc~set1~2 nurbs_surface%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_surface%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2->proc~cmp_nc~2 proc~set2~2->proc~cmp_nc~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 proc~cmp_nc~2->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~insert_knots~2~~CalledByGraph proc~insert_knots~2 nurbs_surface%insert_knots program~example3_surface example3_surface program~example3_surface->proc~insert_knots~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/insert_knots~2.html"},{"title":"modify_Wc – ForCAD","text":"private pure subroutine modify_Wc(this, W, num) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: W integer, intent(in) :: num Calls proc~~modify_wc~2~~CallsGraph proc~modify_wc~2 nurbs_surface%modify_Wc none~get_knot~2 nurbs_surface%get_knot proc~modify_wc~2->none~get_knot~2 none~get_wc~2 nurbs_surface%get_Wc proc~modify_wc~2->none~get_wc~2 none~get_xc~2 nurbs_surface%get_Xc proc~modify_wc~2->none~get_xc~2 none~set~2 nurbs_surface%set proc~modify_wc~2->none~set~2 proc~get_knot_all~2 nurbs_surface%get_knot_all none~get_knot~2->proc~get_knot_all~2 proc~get_knoti~2 nurbs_surface%get_knoti none~get_knot~2->proc~get_knoti~2 proc~get_wc_all~2 nurbs_surface%get_Wc_all none~get_wc~2->proc~get_wc_all~2 proc~get_wci~2 nurbs_surface%get_Wci none~get_wc~2->proc~get_wci~2 proc~get_xc_all~2 nurbs_surface%get_Xc_all none~get_xc~2->proc~get_xc_all~2 proc~get_xcid~2 nurbs_surface%get_Xcid none~get_xc~2->proc~get_xcid~2 proc~get_xci~2 nurbs_surface%get_Xci none~get_xc~2->proc~get_xci~2 proc~set1~2 nurbs_surface%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_surface%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2->proc~cmp_nc~2 proc~set2~2->proc~cmp_nc~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~2->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/modify_wc~2.html"},{"title":"modify_Xc – ForCAD","text":"private pure subroutine modify_Xc(this, X, num, dir) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: X integer, intent(in) :: num integer, intent(in) :: dir Calls proc~~modify_xc~2~~CallsGraph proc~modify_xc~2 nurbs_surface%modify_Xc none~get_knot~2 nurbs_surface%get_knot proc~modify_xc~2->none~get_knot~2 none~get_wc~2 nurbs_surface%get_Wc proc~modify_xc~2->none~get_wc~2 none~get_xc~2 nurbs_surface%get_Xc proc~modify_xc~2->none~get_xc~2 none~set~2 nurbs_surface%set proc~modify_xc~2->none~set~2 proc~get_knot_all~2 nurbs_surface%get_knot_all none~get_knot~2->proc~get_knot_all~2 proc~get_knoti~2 nurbs_surface%get_knoti none~get_knot~2->proc~get_knoti~2 proc~get_wc_all~2 nurbs_surface%get_Wc_all none~get_wc~2->proc~get_wc_all~2 proc~get_wci~2 nurbs_surface%get_Wci none~get_wc~2->proc~get_wci~2 proc~get_xc_all~2 nurbs_surface%get_Xc_all none~get_xc~2->proc~get_xc_all~2 proc~get_xcid~2 nurbs_surface%get_Xcid none~get_xc~2->proc~get_xcid~2 proc~get_xci~2 nurbs_surface%get_Xci none~get_xc~2->proc~get_xci~2 proc~set1~2 nurbs_surface%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_surface%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2->proc~cmp_nc~2 proc~set2~2->proc~cmp_nc~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~2->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~modify_xc~2~~CalledByGraph proc~modify_xc~2 nurbs_surface%modify_Xc program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/modify_xc~2.html"},{"title":"nearest_point – ForCAD","text":"private pure subroutine nearest_point(this, point_Xg, nearest_Xg, nearest_Xt, id) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this real(kind=rk), intent(in) :: point_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xt (:) integer, intent(out), optional :: id Called by proc~~nearest_point~2~~CalledByGraph proc~nearest_point~2 nurbs_surface%nearest_point program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~nearest_point~2 program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~nearest_point~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/nearest_point~2.html"},{"title":"remove_knots – ForCAD","text":"private pure subroutine remove_knots(this, dir, Xth, r) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) Calls proc~~remove_knots~2~~CallsGraph proc~remove_knots~2 nurbs_surface%remove_knots interface~compute_multiplicity compute_multiplicity proc~remove_knots~2->interface~compute_multiplicity none~get_knot~2 nurbs_surface%get_knot proc~remove_knots~2->none~get_knot~2 none~set~2 nurbs_surface%set proc~remove_knots~2->none~set~2 proc~findspan findspan proc~remove_knots~2->proc~findspan proc~is_rational~2 nurbs_surface%is_rational proc~remove_knots~2->proc~is_rational~2 proc~remove_knots_a_5_8 remove_knots_A_5_8 proc~remove_knots~2->proc~remove_knots_a_5_8 proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_knot_all~2 nurbs_surface%get_knot_all none~get_knot~2->proc~get_knot_all~2 proc~get_knoti~2 nurbs_surface%get_knoti none~get_knot~2->proc~get_knoti~2 proc~set1~2 nurbs_surface%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_surface%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2->proc~cmp_nc~2 proc~set2~2->proc~cmp_nc~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 proc~cmp_nc~2->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~remove_knots~2~~CalledByGraph proc~remove_knots~2 nurbs_surface%remove_knots program~example3_surface example3_surface program~example3_surface->proc~remove_knots~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/remove_knots~2.html"},{"title":"rotate_Xc – ForCAD","text":"private pure subroutine rotate_Xc(this, alpha, beta, theta) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta Calls proc~~rotate_xc~2~~CallsGraph proc~rotate_xc~2 nurbs_surface%rotate_Xc proc~rotation rotation proc~rotate_xc~2->proc~rotation cosd cosd proc~rotation->cosd sind sind proc~rotation->sind Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~rotate_xc~2~~CalledByGraph proc~rotate_xc~2 nurbs_surface%rotate_Xc program~example3_surface example3_surface program~example3_surface->proc~rotate_xc~2 program~example_ppm2 example_ppm2 program~example_ppm2->proc~rotate_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/rotate_xc~2.html"},{"title":"rotate_Xg – ForCAD","text":"private pure subroutine rotate_Xg(this, alpha, beta, theta) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta Calls proc~~rotate_xg~2~~CallsGraph proc~rotate_xg~2 nurbs_surface%rotate_Xg proc~rotation rotation proc~rotate_xg~2->proc~rotation cosd cosd proc~rotation->cosd sind sind proc~rotation->sind Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~rotate_xg~2~~CalledByGraph proc~rotate_xg~2 nurbs_surface%rotate_Xg program~example3_surface example3_surface program~example3_surface->proc~rotate_xg~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/rotate_xg~2.html"},{"title":"set1 – ForCAD","text":"private pure subroutine set1(this, knot1, knot2, Xc, Wc) Set knot vectors, control points and weights for the NURBS surface object. Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set1~2~~CallsGraph proc~set1~2 nurbs_surface%set1 proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2->proc~cmp_nc~2 proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set1~2~~CalledByGraph proc~set1~2 nurbs_surface%set1 none~set~2 nurbs_surface%set none~set~2->proc~set1~2 proc~elevate_degree~2 nurbs_surface%elevate_degree proc~elevate_degree~2->none~set~2 proc~insert_knots~2 nurbs_surface%insert_knots proc~insert_knots~2->none~set~2 proc~modify_wc~2 nurbs_surface%modify_Wc proc~modify_wc~2->none~set~2 proc~modify_xc~2 nurbs_surface%modify_Xc proc~modify_xc~2->none~set~2 proc~remove_knots~2 nurbs_surface%remove_knots proc~remove_knots~2->none~set~2 proc~set_c~2 nurbs_surface%set_C proc~set_c~2->none~set~2 proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~2 proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~2 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~2 program~example3_surface example3_surface program~example3_surface->none~set~2 program~example3_surface->proc~elevate_degree~2 program~example3_surface->proc~insert_knots~2 program~example3_surface->proc~remove_knots~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~2 program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~2 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~2 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set1~2.html"},{"title":"set2 – ForCAD","text":"private pure subroutine set2(this, Xth_dir1, Xth_dir2, degree, continuity1, continuity2, Xc, Wc) Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir1 (:) real(kind=rk), intent(in), contiguous :: Xth_dir2 (:) integer, intent(in), contiguous :: degree (:) integer, intent(in), contiguous :: continuity1 (:) integer, intent(in), contiguous :: continuity2 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set2~2~~CallsGraph proc~set2~2 nurbs_surface%set2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set2~2->proc~cmp_nc~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector interface~compute_multiplicity compute_multiplicity proc~cmp_nc~2->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set2~2~~CalledByGraph proc~set2~2 nurbs_surface%set2 none~set~2 nurbs_surface%set none~set~2->proc~set2~2 proc~elevate_degree~2 nurbs_surface%elevate_degree proc~elevate_degree~2->none~set~2 proc~insert_knots~2 nurbs_surface%insert_knots proc~insert_knots~2->none~set~2 proc~modify_wc~2 nurbs_surface%modify_Wc proc~modify_wc~2->none~set~2 proc~modify_xc~2 nurbs_surface%modify_Xc proc~modify_xc~2->none~set~2 proc~remove_knots~2 nurbs_surface%remove_knots proc~remove_knots~2->none~set~2 proc~set_c~2 nurbs_surface%set_C proc~set_c~2->none~set~2 proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~2 proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~2 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~2 program~example3_surface example3_surface program~example3_surface->none~set~2 program~example3_surface->proc~elevate_degree~2 program~example3_surface->proc~insert_knots~2 program~example3_surface->proc~remove_knots~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~2 program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~2 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~2 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set2~2.html"},{"title":"set3 – ForCAD","text":"private pure subroutine set3(this, nc, Xc, Wc) Set Bezier or Rational Bezier surface using control points and weights. Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set3~2~~CallsGraph proc~set3~2 nurbs_surface%set3 proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~2->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set3~2~~CalledByGraph proc~set3~2 nurbs_surface%set3 none~set~2 nurbs_surface%set none~set~2->proc~set3~2 proc~elevate_degree~2 nurbs_surface%elevate_degree proc~elevate_degree~2->none~set~2 proc~insert_knots~2 nurbs_surface%insert_knots proc~insert_knots~2->none~set~2 proc~modify_wc~2 nurbs_surface%modify_Wc proc~modify_wc~2->none~set~2 proc~modify_xc~2 nurbs_surface%modify_Xc proc~modify_xc~2->none~set~2 proc~remove_knots~2 nurbs_surface%remove_knots proc~remove_knots~2->none~set~2 proc~set_c~2 nurbs_surface%set_C proc~set_c~2->none~set~2 proc~set_half_ring~2 nurbs_surface%set_half_ring proc~set_half_ring~2->none~set~2 proc~set_ring~2 nurbs_surface%set_ring proc~set_ring~2->none~set~2 proc~set_tetragon nurbs_surface%set_tetragon proc~set_tetragon->none~set~2 program~example3_surface example3_surface program~example3_surface->none~set~2 program~example3_surface->proc~elevate_degree~2 program~example3_surface->proc~insert_knots~2 program~example3_surface->proc~remove_knots~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->none~set~2 program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~modify_xc~2 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~2 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set3~2.html"},{"title":"set_C – ForCAD","text":"private pure subroutine set_C(this, center, radius1, radius2) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 Calls proc~~set_c~2~~CallsGraph proc~set_c~2 nurbs_surface%set_C none~set~2 nurbs_surface%set proc~set_c~2->none~set~2 proc~set1~2 nurbs_surface%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_surface%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2->proc~cmp_nc~2 proc~set2~2->proc~cmp_nc~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~2->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_c~2~~CalledByGraph proc~set_c~2 nurbs_surface%set_C program~shape_c_2d shape_C_2d program~shape_c_2d->proc~set_c~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_c~2.html"},{"title":"set_elem – ForCAD","text":"private pure subroutine set_elem(this, elemConn) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:)","tags":"","loc":"proc/set_elem~2.html"},{"title":"set_elem_Xc_vis – ForCAD","text":"private pure subroutine set_elem_Xc_vis(this, elemConn) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:)","tags":"","loc":"proc/set_elem_xc_vis~2.html"},{"title":"set_elem_Xg_vis – ForCAD","text":"private pure subroutine set_elem_Xg_vis(this, elemConn) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:)","tags":"","loc":"proc/set_elem_xg_vis~2.html"},{"title":"set_half_ring – ForCAD","text":"private pure subroutine set_half_ring(this, center, radius1, radius2) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 Calls proc~~set_half_ring~2~~CallsGraph proc~set_half_ring~2 nurbs_surface%set_half_ring none~set~2 nurbs_surface%set proc~set_half_ring~2->none~set~2 proc~set1~2 nurbs_surface%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_surface%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2->proc~cmp_nc~2 proc~set2~2->proc~cmp_nc~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~2->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_half_ring~2~~CalledByGraph proc~set_half_ring~2 nurbs_surface%set_half_ring program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_half_ring~2 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~set_half_ring~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_half_ring~2.html"},{"title":"set_ring – ForCAD","text":"private pure subroutine set_ring(this, center, radius1, radius2) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 Calls proc~~set_ring~2~~CallsGraph proc~set_ring~2 nurbs_surface%set_ring none~set~2 nurbs_surface%set proc~set_ring~2->none~set~2 proc~set1~2 nurbs_surface%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_surface%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2->proc~cmp_nc~2 proc~set2~2->proc~cmp_nc~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~2->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_ring~2~~CalledByGraph proc~set_ring~2 nurbs_surface%set_ring program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_ring~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~set_ring~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_ring~2.html"},{"title":"set_tetragon – ForCAD","text":"private pure subroutine set_tetragon(this, L, nc, Wc) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: L (2) integer, intent(in) :: nc (2) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set_tetragon~~CallsGraph proc~set_tetragon nurbs_surface%set_tetragon none~set~2 nurbs_surface%set proc~set_tetragon->none~set~2 proc~tetragon_xc tetragon_Xc proc~set_tetragon->proc~tetragon_xc proc~set1~2 nurbs_surface%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_surface%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2->proc~cmp_nc~2 proc~set2~2->proc~cmp_nc~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~2->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_tetragon~~CalledByGraph proc~set_tetragon nurbs_surface%set_tetragon program~example_ppm1 example_ppm1 program~example_ppm1->proc~set_tetragon program~example_ppm2 example_ppm2 program~example_ppm2->proc~set_tetragon program~example_ppm3 example_ppm3 program~example_ppm3->proc~set_tetragon program~nearest_point_2d nearest_point_2d program~nearest_point_2d->proc~set_tetragon program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->proc~set_tetragon program~shape_tetragon shape_tetragon program~shape_tetragon->proc~set_tetragon Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_tetragon.html"},{"title":"show – ForCAD","text":"private impure subroutine show(this, vtkfile_Xc, vtkfile_Xg) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this character(len=*), intent(in) :: vtkfile_Xc character(len=*), intent(in) :: vtkfile_Xg Called by proc~~show~2~~CalledByGraph proc~show~2 nurbs_surface%show program~example3_surface example3_surface program~example3_surface->proc~show~2 program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~show~2 program~shape_c_2d shape_C_2d program~shape_c_2d->proc~show~2 program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->proc~show~2 program~shape_ring_2d shape_ring_2d program~shape_ring_2d->proc~show~2 program~shape_tetragon shape_tetragon program~shape_tetragon->proc~show~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/show~2.html"},{"title":"translate_Xc – ForCAD","text":"private pure subroutine translate_Xc(this, vec) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) Called by proc~~translate_xc~2~~CalledByGraph proc~translate_xc~2 nurbs_surface%translate_Xc program~example3_surface example3_surface program~example3_surface->proc~translate_xc~2 program~example_ppm2 example_ppm2 program~example_ppm2->proc~translate_xc~2 program~example_ppm3 example_ppm3 program~example_ppm3->proc~translate_xc~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/translate_xc~2.html"},{"title":"translate_Xg – ForCAD","text":"private pure subroutine translate_Xg(this, vec) Type Bound nurbs_surface Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) Called by proc~~translate_xg~2~~CalledByGraph proc~translate_xg~2 nurbs_surface%translate_Xg program~example3_surface example3_surface program~example3_surface->proc~translate_xg~2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/translate_xg~2.html"},{"title":"generate_Xc – ForCAD","text":"function generate_Xc(num_rows, num_cols, peak_height) result(control_points) Arguments Type Intent Optional Attributes Name integer, intent(in) :: num_rows integer, intent(in) :: num_cols real(kind=rk), intent(in) :: peak_height Return Value real(kind=rk), allocatable, (:,:) Called by proc~~generate_xc~5~~CalledByGraph proc~generate_xc~5 generate_Xc program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->proc~generate_xc~5 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/generate_xc~5.html"},{"title":"cmp_elem – ForCAD","text":"private pure function cmp_elem(this) result(elemConn) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:) Calls proc~~cmp_elem~3~~CallsGraph proc~cmp_elem~3 nurbs_curve%cmp_elem interface~elemconn_cn elemConn_Cn proc~cmp_elem~3->interface~elemconn_cn interface~unique unique proc~cmp_elem~3->interface~unique proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~cmp_elem~3->proc~get_multiplicity~3 proc~cmp_elemconn_cn_l cmp_elemConn_Cn_L interface~elemconn_cn->proc~cmp_elemconn_cn_l proc~cmp_elemconn_cn_s cmp_elemConn_Cn_S interface~elemconn_cn->proc~cmp_elemconn_cn_s proc~cmp_elemconn_cn_v cmp_elemConn_Cn_V interface~elemconn_cn->proc~cmp_elemconn_cn_v proc~unique_integer unique_integer interface~unique->proc~unique_integer proc~unique_real unique_real interface~unique->proc~unique_real interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elem~3.html"},{"title":"cmp_elem_Xc_vis – ForCAD","text":"private pure function cmp_elem_Xc_vis(this, p) result(elemConn) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in), optional :: p Return Value integer, allocatable, (:,:) Calls proc~~cmp_elem_xc_vis~3~~CallsGraph proc~cmp_elem_xc_vis~3 nurbs_curve%cmp_elem_Xc_vis interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_elem_xc_vis~3~~CalledByGraph proc~cmp_elem_xc_vis~3 nurbs_curve%cmp_elem_Xc_vis proc~export_xc~3 nurbs_curve%export_Xc proc~export_xc~3->proc~cmp_elem_xc_vis~3 program~example1_curve example1_curve program~example1_curve->proc~export_xc~3 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~export_xc~3 program~shape_c_1d shape_C_1d program~shape_c_1d->proc~export_xc~3 program~shape_circle shape_circle program~shape_circle->proc~export_xc~3 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~export_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elem_xc_vis~3.html"},{"title":"cmp_elem_Xg_vis – ForCAD","text":"private pure function cmp_elem_Xg_vis(this, p) result(elemConn) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in), optional :: p Return Value integer, allocatable, (:,:) Calls proc~~cmp_elem_xg_vis~3~~CallsGraph proc~cmp_elem_xg_vis~3 nurbs_curve%cmp_elem_Xg_vis interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_elem_xg_vis~3~~CalledByGraph proc~cmp_elem_xg_vis~3 nurbs_curve%cmp_elem_Xg_vis proc~export_xg~3 nurbs_curve%export_Xg proc~export_xg~3->proc~cmp_elem_xg_vis~3 program~example1_curve example1_curve program~example1_curve->proc~export_xg~3 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~export_xg~3 program~shape_c_1d shape_C_1d program~shape_c_1d->proc~export_xg~3 program~shape_circle shape_circle program~shape_circle->proc~export_xg~3 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~export_xg~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_elem_xg_vis~3.html"},{"title":"get_Wc_all – ForCAD","text":"private pure function get_Wc_all(this) result(Wc) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) Called by proc~~get_wc_all~3~~CalledByGraph proc~get_wc_all~3 nurbs_curve%get_Wc_all none~get_wc~3 nurbs_curve%get_Wc none~get_wc~3->proc~get_wc_all~3 proc~modify_wc~3 nurbs_curve%modify_Wc proc~modify_wc~3->none~get_wc~3 proc~modify_xc~3 nurbs_curve%modify_Xc proc~modify_xc~3->none~get_wc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_wc_all~3.html"},{"title":"get_Wci – ForCAD","text":"private pure function get_Wci(this, n) result(Wc) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) Called by proc~~get_wci~3~~CalledByGraph proc~get_wci~3 nurbs_curve%get_Wci none~get_wc~3 nurbs_curve%get_Wc none~get_wc~3->proc~get_wci~3 proc~modify_wc~3 nurbs_curve%modify_Wc proc~modify_wc~3->none~get_wc~3 proc~modify_xc~3 nurbs_curve%modify_Xc proc~modify_xc~3->none~get_wc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_wci~3.html"},{"title":"get_Xc_all – ForCAD","text":"private pure function get_Xc_all(this) result(Xc) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) Called by proc~~get_xc_all~3~~CalledByGraph proc~get_xc_all~3 nurbs_curve%get_Xc_all none~get_xc~3 nurbs_curve%get_Xc none~get_xc~3->proc~get_xc_all~3 proc~modify_wc~3 nurbs_curve%modify_Wc proc~modify_wc~3->none~get_xc~3 proc~modify_xc~3 nurbs_curve%modify_Xc proc~modify_xc~3->none~get_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xc_all~3.html"},{"title":"get_Xci – ForCAD","text":"private pure function get_Xci(this, n) result(Xc) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) Called by proc~~get_xci~3~~CalledByGraph proc~get_xci~3 nurbs_curve%get_Xci none~get_xc~3 nurbs_curve%get_Xc none~get_xc~3->proc~get_xci~3 proc~modify_wc~3 nurbs_curve%modify_Wc proc~modify_wc~3->none~get_xc~3 proc~modify_xc~3 nurbs_curve%modify_Xc proc~modify_xc~3->none~get_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xci~3.html"},{"title":"get_Xcid – ForCAD","text":"private pure function get_Xcid(this, n, dir) result(Xc) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) Called by proc~~get_xcid~3~~CalledByGraph proc~get_xcid~3 nurbs_curve%get_Xcid none~get_xc~3 nurbs_curve%get_Xc none~get_xc~3->proc~get_xcid~3 proc~modify_wc~3 nurbs_curve%modify_Wc proc~modify_wc~3->none~get_xc~3 proc~modify_xc~3 nurbs_curve%modify_Xc proc~modify_xc~3->none~get_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_xcid~3.html"},{"title":"get_Xg_all – ForCAD","text":"private pure function get_Xg_all(this) result(Xg) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:)","tags":"","loc":"proc/get_xg_all~3.html"},{"title":"get_Xgi – ForCAD","text":"private pure function get_Xgi(this, n) result(Xg) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:)","tags":"","loc":"proc/get_xgi~3.html"},{"title":"get_Xgid – ForCAD","text":"private pure function get_Xgid(this, n, dir) result(Xg) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk)","tags":"","loc":"proc/get_xgid~3.html"},{"title":"get_Xt – ForCAD","text":"private pure function get_Xt(this) result(Xt) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:)","tags":"","loc":"proc/get_xt~3.html"},{"title":"get_continuity – ForCAD","text":"private pure function get_continuity(this) result(c) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:) Calls proc~~get_continuity~3~~CallsGraph proc~get_continuity~3 nurbs_curve%get_continuity interface~compute_multiplicity compute_multiplicity proc~get_continuity~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_continuity~3.html"},{"title":"get_degree – ForCAD","text":"private pure function get_degree(this) result(degree) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer Called by proc~~get_degree~~CalledByGraph proc~get_degree nurbs_curve%get_degree program~example1_curve example1_curve program~example1_curve->proc~get_degree Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_degree.html"},{"title":"get_elem – ForCAD","text":"private pure function get_elem(this) result(elemConn) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:)","tags":"","loc":"proc/get_elem~3.html"},{"title":"get_elem_Xc_vis – ForCAD","text":"private pure function get_elem_Xc_vis(this) result(elemConn) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:)","tags":"","loc":"proc/get_elem_xc_vis~3.html"},{"title":"get_elem_Xg_vis – ForCAD","text":"private pure function get_elem_Xg_vis(this) result(elemConn) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:)","tags":"","loc":"proc/get_elem_xg_vis~3.html"},{"title":"get_knot_all – ForCAD","text":"private pure function get_knot_all(this) result(knot) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) Called by proc~~get_knot_all~3~~CalledByGraph proc~get_knot_all~3 nurbs_curve%get_knot_all none~get_knot~3 nurbs_curve%get_knot none~get_knot~3->proc~get_knot_all~3 proc~modify_wc~3 nurbs_curve%modify_Wc proc~modify_wc~3->none~get_knot~3 proc~modify_xc~3 nurbs_curve%modify_Xc proc~modify_xc~3->none~get_knot~3 program~example1_curve example1_curve program~example1_curve->none~get_knot~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_knot_all~3.html"},{"title":"get_knoti – ForCAD","text":"private pure function get_knoti(this, i) result(knot) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: i Return Value real(kind=rk) Called by proc~~get_knoti~3~~CalledByGraph proc~get_knoti~3 nurbs_curve%get_knoti none~get_knot~3 nurbs_curve%get_knot none~get_knot~3->proc~get_knoti~3 proc~modify_wc~3 nurbs_curve%modify_Wc proc~modify_wc~3->none~get_knot~3 proc~modify_xc~3 nurbs_curve%modify_Xc proc~modify_xc~3->none~get_knot~3 program~example1_curve example1_curve program~example1_curve->none~get_knot~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_knoti~3.html"},{"title":"get_multiplicity – ForCAD","text":"private pure function get_multiplicity(this) result(m) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:) Calls proc~~get_multiplicity~3~~CallsGraph proc~get_multiplicity~3 nurbs_curve%get_multiplicity interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~get_multiplicity~3~~CalledByGraph proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~cmp_degree~3 nurbs_curve%cmp_degree proc~cmp_degree~3->proc~get_multiplicity~3 proc~cmp_elem~3 nurbs_curve%cmp_elem proc~cmp_elem~3->proc~get_multiplicity~3 proc~set1~3 nurbs_curve%set1 proc~set1~3->proc~cmp_degree~3 proc~set3~3 nurbs_curve%set3 proc~set3~3->proc~cmp_degree~3 none~set~3 nurbs_curve%set none~set~3->proc~set1~3 none~set~3->proc~set3~3 proc~elevate_degree~3 nurbs_curve%elevate_degree proc~elevate_degree~3->none~set~3 proc~insert_knots~3 nurbs_curve%insert_knots proc~insert_knots~3->none~set~3 proc~modify_wc~3 nurbs_curve%modify_Wc proc~modify_wc~3->none~set~3 proc~modify_xc~3 nurbs_curve%modify_Xc proc~modify_xc~3->none~set~3 proc~remove_knots~3 nurbs_curve%remove_knots proc~remove_knots~3->none~set~3 proc~set_circle nurbs_curve%set_circle proc~set_circle->none~set~3 proc~set_c~3 nurbs_curve%set_C proc~set_c~3->none~set~3 proc~set_half_circle nurbs_curve%set_half_circle proc~set_half_circle->none~set~3 program~example1_curve example1_curve program~example1_curve->none~set~3 program~example1_curve->proc~elevate_degree~3 program~example1_curve->proc~insert_knots~3 program~example1_curve->proc~remove_knots~3 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->none~set~3 program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~3 program~shape_circle shape_circle program~shape_circle->proc~set_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/get_multiplicity~3.html"},{"title":"get_nc – ForCAD","text":"private pure function get_nc(this) result(nc) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer","tags":"","loc":"proc/get_nc~3.html"},{"title":"get_ng – ForCAD","text":"private pure function get_ng(this) result(ng) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer","tags":"","loc":"proc/get_ng~3.html"},{"title":"is_rational – ForCAD","text":"private pure function is_rational(this) result(r) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value logical Called by proc~~is_rational~3~~CalledByGraph proc~is_rational~3 nurbs_curve%is_rational proc~basis~3 nurbs_curve%basis proc~basis~3->proc~is_rational~3 proc~create~3 nurbs_curve%create proc~create~3->proc~is_rational~3 proc~derivative~3 nurbs_curve%derivative proc~derivative~3->proc~is_rational~3 proc~elevate_degree~3 nurbs_curve%elevate_degree proc~elevate_degree~3->proc~is_rational~3 proc~insert_knots~3 nurbs_curve%insert_knots proc~insert_knots~3->proc~is_rational~3 proc~remove_knots~3 nurbs_curve%remove_knots proc~remove_knots~3->proc~is_rational~3 program~example1_curve example1_curve program~example1_curve->proc~create~3 program~example1_curve->proc~elevate_degree~3 program~example1_curve->proc~insert_knots~3 program~example1_curve->proc~remove_knots~3 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~create~3 program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~create~3 program~shape_c_1d shape_C_1d program~shape_c_1d->proc~create~3 program~shape_circle shape_circle program~shape_circle->proc~create~3 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~create~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/is_rational~3.html"},{"title":"basis – ForCAD","text":"private pure subroutine basis(this, res, Xt, Tgc) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), optional :: res real(kind=rk), intent(in), optional, contiguous :: Xt (:) real(kind=rk), intent(out), allocatable :: Tgc (:,:) Calls proc~~basis~3~~CallsGraph proc~basis~3 nurbs_curve%basis proc~is_rational~3 nurbs_curve%is_rational proc~basis~3->proc~is_rational~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/basis~3.html"},{"title":"cmp_degree – ForCAD","text":"private pure subroutine cmp_degree(this) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this Calls proc~~cmp_degree~3~~CallsGraph proc~cmp_degree~3 nurbs_curve%cmp_degree proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~cmp_degree~3~~CalledByGraph proc~cmp_degree~3 nurbs_curve%cmp_degree proc~set1~3 nurbs_curve%set1 proc~set1~3->proc~cmp_degree~3 proc~set3~3 nurbs_curve%set3 proc~set3~3->proc~cmp_degree~3 none~set~3 nurbs_curve%set none~set~3->proc~set1~3 none~set~3->proc~set3~3 proc~elevate_degree~3 nurbs_curve%elevate_degree proc~elevate_degree~3->none~set~3 proc~insert_knots~3 nurbs_curve%insert_knots proc~insert_knots~3->none~set~3 proc~modify_wc~3 nurbs_curve%modify_Wc proc~modify_wc~3->none~set~3 proc~modify_xc~3 nurbs_curve%modify_Xc proc~modify_xc~3->none~set~3 proc~remove_knots~3 nurbs_curve%remove_knots proc~remove_knots~3->none~set~3 proc~set_circle nurbs_curve%set_circle proc~set_circle->none~set~3 proc~set_c~3 nurbs_curve%set_C proc~set_c~3->none~set~3 proc~set_half_circle nurbs_curve%set_half_circle proc~set_half_circle->none~set~3 program~example1_curve example1_curve program~example1_curve->none~set~3 program~example1_curve->proc~elevate_degree~3 program~example1_curve->proc~insert_knots~3 program~example1_curve->proc~remove_knots~3 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->none~set~3 program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~3 program~shape_circle shape_circle program~shape_circle->proc~set_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_degree~3.html"},{"title":"cmp_nc – ForCAD","text":"private pure subroutine cmp_nc(this) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this Calls proc~~cmp_nc~3~~CallsGraph proc~cmp_nc~3 nurbs_curve%cmp_nc interface~compute_multiplicity compute_multiplicity proc~cmp_nc~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/cmp_nc~3.html"},{"title":"create – ForCAD","text":"private pure subroutine create(this, res, Xt) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), optional :: res real(kind=rk), intent(in), optional, contiguous :: Xt (:) Calls proc~~create~3~~CallsGraph proc~create~3 nurbs_curve%create proc~is_rational~3 nurbs_curve%is_rational proc~create~3->proc~is_rational~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~create~3~~CalledByGraph proc~create~3 nurbs_curve%create program~example1_curve example1_curve program~example1_curve->proc~create~3 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~create~3 program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~create~3 program~shape_c_1d shape_C_1d program~shape_c_1d->proc~create~3 program~shape_circle shape_circle program~shape_circle->proc~create~3 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~create~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/create~3.html"},{"title":"derivative – ForCAD","text":"private pure subroutine derivative(this, res, Xt, dTgc) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), optional :: res real(kind=rk), intent(in), optional, contiguous :: Xt (:) real(kind=rk), intent(out), allocatable :: dTgc (:,:) Calls proc~~derivative~3~~CallsGraph proc~derivative~3 nurbs_curve%derivative proc~is_rational~3 nurbs_curve%is_rational proc~derivative~3->proc~is_rational~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/derivative~3.html"},{"title":"elevate_degree – ForCAD","text":"private pure subroutine elevate_degree(this, t) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in) :: t Calls proc~~elevate_degree~3~~CallsGraph proc~elevate_degree~3 nurbs_curve%elevate_degree none~set~3 nurbs_curve%set proc~elevate_degree~3->none~set~3 proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree~3->proc~elevate_degree_a_5_9 proc~is_rational~3 nurbs_curve%is_rational proc~elevate_degree~3->proc~is_rational~3 proc~set1~3 nurbs_curve%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_curve%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_curve%set3 none~set~3->proc~set3~3 interface~compute_multiplicity compute_multiplicity proc~elevate_degree_a_5_9->interface~compute_multiplicity proc~bincoeff bincoeff proc~elevate_degree_a_5_9->proc~bincoeff proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~factln factln proc~bincoeff->proc~factln proc~cmp_degree~3 nurbs_curve%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~elevate_degree~3~~CalledByGraph proc~elevate_degree~3 nurbs_curve%elevate_degree program~example1_curve example1_curve program~example1_curve->proc~elevate_degree~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/elevate_degree~3.html"},{"title":"export_Xc – ForCAD","text":"private impure subroutine export_Xc(this, filename) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this character(len=*), intent(in) :: filename Calls proc~~export_xc~3~~CallsGraph proc~export_xc~3 nurbs_curve%export_Xc proc~cmp_elem_xc_vis~3 nurbs_curve%cmp_elem_Xc_vis proc~export_xc~3->proc~cmp_elem_xc_vis~3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~export_xc~3~~CalledByGraph proc~export_xc~3 nurbs_curve%export_Xc program~example1_curve example1_curve program~example1_curve->proc~export_xc~3 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~export_xc~3 program~shape_c_1d shape_C_1d program~shape_c_1d->proc~export_xc~3 program~shape_circle shape_circle program~shape_circle->proc~export_xc~3 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~export_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/export_xc~3.html"},{"title":"export_Xg – ForCAD","text":"private impure subroutine export_Xg(this, filename) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this character(len=*), intent(in) :: filename Calls proc~~export_xg~3~~CallsGraph proc~export_xg~3 nurbs_curve%export_Xg proc~cmp_elem_xg_vis~3 nurbs_curve%cmp_elem_Xg_vis proc~export_xg~3->proc~cmp_elem_xg_vis~3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~export_xg~3~~CalledByGraph proc~export_xg~3 nurbs_curve%export_Xg program~example1_curve example1_curve program~example1_curve->proc~export_xg~3 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~export_xg~3 program~shape_c_1d shape_C_1d program~shape_c_1d->proc~export_xg~3 program~shape_circle shape_circle program~shape_circle->proc~export_xg~3 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~export_xg~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/export_xg~3.html"},{"title":"finalize – ForCAD","text":"private pure subroutine finalize(this) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this Called by proc~~finalize~3~~CalledByGraph proc~finalize~3 nurbs_curve%finalize program~example1_curve example1_curve program~example1_curve->proc~finalize~3 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~finalize~3 program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~finalize~3 program~shape_c_1d shape_C_1d program~shape_c_1d->proc~finalize~3 program~shape_circle shape_circle program~shape_circle->proc~finalize~3 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~finalize~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/finalize~3.html"},{"title":"insert_knots – ForCAD","text":"private pure subroutine insert_knots(this, Xth, r) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) Calls proc~~insert_knots~3~~CallsGraph proc~insert_knots~3 nurbs_curve%insert_knots interface~compute_multiplicity compute_multiplicity proc~insert_knots~3->interface~compute_multiplicity none~set~3 nurbs_curve%set proc~insert_knots~3->none~set~3 proc~findspan findspan proc~insert_knots~3->proc~findspan proc~insert_knot_a_5_1 insert_knot_A_5_1 proc~insert_knots~3->proc~insert_knot_a_5_1 proc~is_rational~3 nurbs_curve%is_rational proc~insert_knots~3->proc~is_rational~3 proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~set1~3 nurbs_curve%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_curve%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_curve%set3 none~set~3->proc~set3~3 proc~cmp_degree~3 nurbs_curve%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~insert_knots~3~~CalledByGraph proc~insert_knots~3 nurbs_curve%insert_knots program~example1_curve example1_curve program~example1_curve->proc~insert_knots~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/insert_knots~3.html"},{"title":"modify_Wc – ForCAD","text":"private pure subroutine modify_Wc(this, W, num) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: W integer, intent(in) :: num Calls proc~~modify_wc~3~~CallsGraph proc~modify_wc~3 nurbs_curve%modify_Wc none~get_knot~3 nurbs_curve%get_knot proc~modify_wc~3->none~get_knot~3 none~get_wc~3 nurbs_curve%get_Wc proc~modify_wc~3->none~get_wc~3 none~get_xc~3 nurbs_curve%get_Xc proc~modify_wc~3->none~get_xc~3 none~set~3 nurbs_curve%set proc~modify_wc~3->none~set~3 proc~get_knot_all~3 nurbs_curve%get_knot_all none~get_knot~3->proc~get_knot_all~3 proc~get_knoti~3 nurbs_curve%get_knoti none~get_knot~3->proc~get_knoti~3 proc~get_wc_all~3 nurbs_curve%get_Wc_all none~get_wc~3->proc~get_wc_all~3 proc~get_wci~3 nurbs_curve%get_Wci none~get_wc~3->proc~get_wci~3 proc~get_xc_all~3 nurbs_curve%get_Xc_all none~get_xc~3->proc~get_xc_all~3 proc~get_xcid~3 nurbs_curve%get_Xcid none~get_xc~3->proc~get_xcid~3 proc~get_xci~3 nurbs_curve%get_Xci none~get_xc~3->proc~get_xci~3 proc~set1~3 nurbs_curve%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_curve%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_curve%set3 none~set~3->proc~set3~3 proc~cmp_degree~3 nurbs_curve%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 proc~repelem repelem proc~compute_knot_vector->proc~repelem interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/modify_wc~3.html"},{"title":"modify_Xc – ForCAD","text":"private pure subroutine modify_Xc(this, X, num, dir) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: X integer, intent(in) :: num integer, intent(in) :: dir Calls proc~~modify_xc~3~~CallsGraph proc~modify_xc~3 nurbs_curve%modify_Xc none~get_knot~3 nurbs_curve%get_knot proc~modify_xc~3->none~get_knot~3 none~get_wc~3 nurbs_curve%get_Wc proc~modify_xc~3->none~get_wc~3 none~get_xc~3 nurbs_curve%get_Xc proc~modify_xc~3->none~get_xc~3 none~set~3 nurbs_curve%set proc~modify_xc~3->none~set~3 proc~get_knot_all~3 nurbs_curve%get_knot_all none~get_knot~3->proc~get_knot_all~3 proc~get_knoti~3 nurbs_curve%get_knoti none~get_knot~3->proc~get_knoti~3 proc~get_wc_all~3 nurbs_curve%get_Wc_all none~get_wc~3->proc~get_wc_all~3 proc~get_wci~3 nurbs_curve%get_Wci none~get_wc~3->proc~get_wci~3 proc~get_xc_all~3 nurbs_curve%get_Xc_all none~get_xc~3->proc~get_xc_all~3 proc~get_xcid~3 nurbs_curve%get_Xcid none~get_xc~3->proc~get_xcid~3 proc~get_xci~3 nurbs_curve%get_Xci none~get_xc~3->proc~get_xci~3 proc~set1~3 nurbs_curve%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_curve%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_curve%set3 none~set~3->proc~set3~3 proc~cmp_degree~3 nurbs_curve%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 proc~repelem repelem proc~compute_knot_vector->proc~repelem interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/modify_xc~3.html"},{"title":"nearest_point – ForCAD","text":"private pure subroutine nearest_point(this, point_Xg, nearest_Xg, nearest_Xt, id) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this real(kind=rk), intent(in) :: point_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xg (:) real(kind=rk), intent(out), optional :: nearest_Xt integer, intent(out), optional :: id Called by proc~~nearest_point~3~~CalledByGraph proc~nearest_point~3 nurbs_curve%nearest_point program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~nearest_point~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/nearest_point~3.html"},{"title":"remove_knots – ForCAD","text":"private pure subroutine remove_knots(this, Xth, r) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) Calls proc~~remove_knots~3~~CallsGraph proc~remove_knots~3 nurbs_curve%remove_knots interface~compute_multiplicity compute_multiplicity proc~remove_knots~3->interface~compute_multiplicity none~set~3 nurbs_curve%set proc~remove_knots~3->none~set~3 proc~findspan findspan proc~remove_knots~3->proc~findspan proc~is_rational~3 nurbs_curve%is_rational proc~remove_knots~3->proc~is_rational~3 proc~remove_knots_a_5_8 remove_knots_A_5_8 proc~remove_knots~3->proc~remove_knots_a_5_8 proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~set1~3 nurbs_curve%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_curve%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_curve%set3 none~set~3->proc~set3~3 proc~cmp_degree~3 nurbs_curve%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~remove_knots~3~~CalledByGraph proc~remove_knots~3 nurbs_curve%remove_knots program~example1_curve example1_curve program~example1_curve->proc~remove_knots~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/remove_knots~3.html"},{"title":"rotate_Xc – ForCAD","text":"private pure subroutine rotate_Xc(this, alpha, beta, theta) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta Calls proc~~rotate_xc~3~~CallsGraph proc~rotate_xc~3 nurbs_curve%rotate_Xc proc~rotation rotation proc~rotate_xc~3->proc~rotation cosd cosd proc~rotation->cosd sind sind proc~rotation->sind Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~rotate_xc~3~~CalledByGraph proc~rotate_xc~3 nurbs_curve%rotate_Xc program~example1_curve example1_curve program~example1_curve->proc~rotate_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/rotate_xc~3.html"},{"title":"rotate_Xg – ForCAD","text":"private pure subroutine rotate_Xg(this, alpha, beta, theta) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta Calls proc~~rotate_xg~3~~CallsGraph proc~rotate_xg~3 nurbs_curve%rotate_Xg proc~rotation rotation proc~rotate_xg~3->proc~rotation cosd cosd proc~rotation->cosd sind sind proc~rotation->sind Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~rotate_xg~3~~CalledByGraph proc~rotate_xg~3 nurbs_curve%rotate_Xg program~example1_curve example1_curve program~example1_curve->proc~rotate_xg~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/rotate_xg~3.html"},{"title":"set1 – ForCAD","text":"private pure subroutine set1(this, knot, Xc, Wc) Set knot vector, control points and weights for the NURBS curve object. Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set1~3~~CallsGraph proc~set1~3 nurbs_curve%set1 proc~cmp_degree~3 nurbs_curve%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set1~3~~CalledByGraph proc~set1~3 nurbs_curve%set1 none~set~3 nurbs_curve%set none~set~3->proc~set1~3 proc~elevate_degree~3 nurbs_curve%elevate_degree proc~elevate_degree~3->none~set~3 proc~insert_knots~3 nurbs_curve%insert_knots proc~insert_knots~3->none~set~3 proc~modify_wc~3 nurbs_curve%modify_Wc proc~modify_wc~3->none~set~3 proc~modify_xc~3 nurbs_curve%modify_Xc proc~modify_xc~3->none~set~3 proc~remove_knots~3 nurbs_curve%remove_knots proc~remove_knots~3->none~set~3 proc~set_circle nurbs_curve%set_circle proc~set_circle->none~set~3 proc~set_c~3 nurbs_curve%set_C proc~set_c~3->none~set~3 proc~set_half_circle nurbs_curve%set_half_circle proc~set_half_circle->none~set~3 program~example1_curve example1_curve program~example1_curve->none~set~3 program~example1_curve->proc~elevate_degree~3 program~example1_curve->proc~insert_knots~3 program~example1_curve->proc~remove_knots~3 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->none~set~3 program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~3 program~shape_circle shape_circle program~shape_circle->proc~set_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set1~3.html"},{"title":"set2 – ForCAD","text":"private pure subroutine set2(this, Xth_dir, degree, continuity, Xc, Wc) Set NURBS curve using nodes of parameter space (Xth), degree, continuity, control points and weights. Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir (:) integer, intent(in) :: degree integer, intent(in), contiguous :: continuity (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set2~3~~CallsGraph proc~set2~3 nurbs_curve%set2 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~repelem repelem proc~compute_knot_vector->proc~repelem Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set2~3~~CalledByGraph proc~set2~3 nurbs_curve%set2 none~set~3 nurbs_curve%set none~set~3->proc~set2~3 proc~elevate_degree~3 nurbs_curve%elevate_degree proc~elevate_degree~3->none~set~3 proc~insert_knots~3 nurbs_curve%insert_knots proc~insert_knots~3->none~set~3 proc~modify_wc~3 nurbs_curve%modify_Wc proc~modify_wc~3->none~set~3 proc~modify_xc~3 nurbs_curve%modify_Xc proc~modify_xc~3->none~set~3 proc~remove_knots~3 nurbs_curve%remove_knots proc~remove_knots~3->none~set~3 proc~set_circle nurbs_curve%set_circle proc~set_circle->none~set~3 proc~set_c~3 nurbs_curve%set_C proc~set_c~3->none~set~3 proc~set_half_circle nurbs_curve%set_half_circle proc~set_half_circle->none~set~3 program~example1_curve example1_curve program~example1_curve->none~set~3 program~example1_curve->proc~elevate_degree~3 program~example1_curve->proc~insert_knots~3 program~example1_curve->proc~remove_knots~3 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->none~set~3 program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~3 program~shape_circle shape_circle program~shape_circle->proc~set_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set2~3.html"},{"title":"set3 – ForCAD","text":"private pure subroutine set3(this, Xc, Wc) Set Bezier or Rational Bezier curve using control points and weights. Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) Calls proc~~set3~3~~CallsGraph proc~set3~3 nurbs_curve%set3 proc~cmp_degree~3 nurbs_curve%cmp_degree proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set3~3~~CalledByGraph proc~set3~3 nurbs_curve%set3 none~set~3 nurbs_curve%set none~set~3->proc~set3~3 proc~elevate_degree~3 nurbs_curve%elevate_degree proc~elevate_degree~3->none~set~3 proc~insert_knots~3 nurbs_curve%insert_knots proc~insert_knots~3->none~set~3 proc~modify_wc~3 nurbs_curve%modify_Wc proc~modify_wc~3->none~set~3 proc~modify_xc~3 nurbs_curve%modify_Xc proc~modify_xc~3->none~set~3 proc~remove_knots~3 nurbs_curve%remove_knots proc~remove_knots~3->none~set~3 proc~set_circle nurbs_curve%set_circle proc~set_circle->none~set~3 proc~set_c~3 nurbs_curve%set_C proc~set_c~3->none~set~3 proc~set_half_circle nurbs_curve%set_half_circle proc~set_half_circle->none~set~3 program~example1_curve example1_curve program~example1_curve->none~set~3 program~example1_curve->proc~elevate_degree~3 program~example1_curve->proc~insert_knots~3 program~example1_curve->proc~remove_knots~3 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->none~set~3 program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~3 program~shape_circle shape_circle program~shape_circle->proc~set_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set3~3.html"},{"title":"set_C – ForCAD","text":"private pure subroutine set_C(this, center, radius) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius Calls proc~~set_c~3~~CallsGraph proc~set_c~3 nurbs_curve%set_C none~set~3 nurbs_curve%set proc~set_c~3->none~set~3 proc~set1~3 nurbs_curve%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_curve%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_curve%set3 none~set~3->proc~set3~3 proc~cmp_degree~3 nurbs_curve%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 proc~repelem repelem proc~compute_knot_vector->proc~repelem interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_c~3~~CalledByGraph proc~set_c~3 nurbs_curve%set_C program~shape_c_1d shape_C_1d program~shape_c_1d->proc~set_c~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_c~3.html"},{"title":"set_circle – ForCAD","text":"private pure subroutine set_circle(this, center, radius) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius Calls proc~~set_circle~~CallsGraph proc~set_circle nurbs_curve%set_circle none~set~3 nurbs_curve%set proc~set_circle->none~set~3 proc~set1~3 nurbs_curve%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_curve%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_curve%set3 none~set~3->proc~set3~3 proc~cmp_degree~3 nurbs_curve%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 proc~repelem repelem proc~compute_knot_vector->proc~repelem interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_circle~~CalledByGraph proc~set_circle nurbs_curve%set_circle program~nearest_point_1d nearest_point_1d program~nearest_point_1d->proc~set_circle program~shape_circle shape_circle program~shape_circle->proc~set_circle Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_circle.html"},{"title":"set_elem – ForCAD","text":"private pure subroutine set_elem(this, elemConn) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:)","tags":"","loc":"proc/set_elem~3.html"},{"title":"set_elem_Xc_vis – ForCAD","text":"private pure subroutine set_elem_Xc_vis(this, elemConn) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:)","tags":"","loc":"proc/set_elem_xc_vis~3.html"},{"title":"set_elem_Xg_vis – ForCAD","text":"private pure subroutine set_elem_Xg_vis(this, elemConn) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:)","tags":"","loc":"proc/set_elem_xg_vis~3.html"},{"title":"set_half_circle – ForCAD","text":"private pure subroutine set_half_circle(this, center, radius) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius Calls proc~~set_half_circle~~CallsGraph proc~set_half_circle nurbs_curve%set_half_circle none~set~3 nurbs_curve%set proc~set_half_circle->none~set~3 proc~set1~3 nurbs_curve%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_curve%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_curve%set3 none~set~3->proc~set3~3 proc~cmp_degree~3 nurbs_curve%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 proc~repelem repelem proc~compute_knot_vector->proc~repelem interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Called by proc~~set_half_circle~~CalledByGraph proc~set_half_circle nurbs_curve%set_half_circle program~shape_half_circle shape_half_circle program~shape_half_circle->proc~set_half_circle Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/set_half_circle.html"},{"title":"show – ForCAD","text":"private impure subroutine show(this, vtkfile_Xc, vtkfile_Xg) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this character(len=*), intent(in) :: vtkfile_Xc character(len=*), intent(in) :: vtkfile_Xg Called by proc~~show~3~~CalledByGraph proc~show~3 nurbs_curve%show program~example1_curve example1_curve program~example1_curve->proc~show~3 program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->proc~show~3 program~shape_c_1d shape_C_1d program~shape_c_1d->proc~show~3 program~shape_circle shape_circle program~shape_circle->proc~show~3 program~shape_half_circle shape_half_circle program~shape_half_circle->proc~show~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/show~3.html"},{"title":"translate_Xc – ForCAD","text":"private pure subroutine translate_Xc(this, vec) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) Called by proc~~translate_xc~3~~CalledByGraph proc~translate_xc~3 nurbs_curve%translate_Xc program~example1_curve example1_curve program~example1_curve->proc~translate_xc~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/translate_xc~3.html"},{"title":"translate_Xg – ForCAD","text":"private pure subroutine translate_Xg(this, vec) Type Bound nurbs_curve Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) Called by proc~~translate_xg~3~~CalledByGraph proc~translate_xg~3 nurbs_curve%translate_Xg program~example1_curve example1_curve program~example1_curve->proc~translate_xg~3 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"proc/translate_xg~3.html"},{"title":"forcad_nurbs_volume – ForCAD","text":"This module defines the 'nurbs_volume' type for representing a Non-Uniform Rational B-Spline (NURBS) volume. Uses forcad_utils module~~forcad_nurbs_volume~~UsesGraph module~forcad_nurbs_volume forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Used by module~~forcad_nurbs_volume~~UsedByGraph module~forcad_nurbs_volume forcad_nurbs_volume module~forcad forcad module~forcad->module~forcad_nurbs_volume program~example1_curve example1_curve program~example1_curve->module~forcad program~example3_surface example3_surface program~example3_surface->module~forcad program~example3_volume example3_volume program~example3_volume->module~forcad program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->module~forcad program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->module~forcad program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->module~forcad program~example_ppm1 example_ppm1 program~example_ppm1->module~forcad program~example_ppm2 example_ppm2 program~example_ppm2->module~forcad program~example_ppm3 example_ppm3 program~example_ppm3->module~forcad program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->module~forcad program~nearest_point_1d nearest_point_1d program~nearest_point_1d->module~forcad program~nearest_point_2d nearest_point_2d program~nearest_point_2d->module~forcad program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->module~forcad program~nearest_point_3d nearest_point_3d program~nearest_point_3d->module~forcad program~shape_c_1d shape_C_1d program~shape_c_1d->module~forcad program~shape_c_2d shape_C_2d program~shape_c_2d->module~forcad program~shape_c_3d shape_C_3d program~shape_c_3d->module~forcad program~shape_circle shape_circle program~shape_circle->module~forcad program~shape_half_circle shape_half_circle program~shape_half_circle->module~forcad program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->module~forcad program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->module~forcad program~shape_hexahedron shape_hexahedron program~shape_hexahedron->module~forcad program~shape_ring_2d shape_ring_2d program~shape_ring_2d->module~forcad program~shape_ring_3d shape_ring_3d program~shape_ring_3d->module~forcad program~shape_tetragon shape_tetragon program~shape_tetragon->module~forcad Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Derived Types type, public :: nurbs_volume Components Type Visibility Attributes Name Initial real(kind=rk), private, allocatable :: Wc (:) Weights for the control points (1D array: [nc(1) nc(2) nc(3)]) real(kind=rk), private, allocatable :: Xc (:,:) Control points (2D array: [nc(1) nc(2) nc(3), dim]) real(kind=rk), private, allocatable :: Xg (:,:) Geometry points (2D array: [ng(1) ng(2) ng(3), dim]) real(kind=rk), private, allocatable :: Xt (:,:) Evaluation parameter values (2D array: [ng(1) ng(2) ng(3), dim] real(kind=rk), private, allocatable :: Xt1 (:) Evaluation parameter values in the first direction (1D array: [ng(1)]) real(kind=rk), private, allocatable :: Xt2 (:) Evaluation parameter values in the second direction (1D array: [ng(2)]) real(kind=rk), private, allocatable :: Xt3 (:) Evaluation parameter values in the third direction (1D array: [ng(3)]) integer, private :: degree (3) Degree (order) of the volume integer, private, allocatable :: elemConn (:,:) IGA element connectivity integer, private, allocatable :: elemConn_Xc_vis (:,:) Connectivity for visualization of control points integer, private, allocatable :: elemConn_Xg_vis (:,:) Connectivity for visualization of geometry points real(kind=rk), private, allocatable :: knot1 (:) Knot vector in the first direction (1D array) real(kind=rk), private, allocatable :: knot2 (:) Knot vector in the second direction (1D array) real(kind=rk), private, allocatable :: knot3 (:) Knot vector in the third direction (1D array) integer, private :: nc (3) Number of control points in each direction integer, private :: ng (3) Number of geometry points in each direction Type-Bound Procedures procedure, public :: basis Compute the basis functions of the NURBS volume Read more… procedure, public :: cmp_degree Compute degree of the NURBS volume Read more… procedure, public :: cmp_elem Generate IGA element connectivity Read more… procedure, public :: cmp_elem_Xc_vis Generate connectivity for control points Read more… procedure, public :: cmp_elem_Xg_vis Generate connectivity for geometry points Read more… procedure, public :: cmp_nc Compute number of required control points Read more… procedure, public :: create Generate geometry points Read more… procedure, public :: derivative Compute the derivative of the NURBS volume Read more… procedure, public :: elevate_degree Elevate the degree of the NURBS volume Read more… procedure, public :: export_Xc Export control points to VTK file Read more… procedure, public :: export_Xg Export geometry points to VTK file Read more… procedure, public :: finalize Finalize the NURBS volume object Read more… generic, public :: get_Wc => get_Wc_all , get_Wci Get weights Read more… generic, public :: get_Xc => get_Xc_all , get_Xci , get_Xcid Get control points Read more… generic, public :: get_Xg => get_Xg_all , get_Xgi , get_Xgid Get geometry points Read more… procedure, public :: get_Xt Get parameter values Read more… procedure, public :: get_continuity Compute and return the continuity of the NURBS volume Read more… generic, public :: get_degree => get_degree_all , get_degree_dir Get degree of the NURBS volume Read more… procedure, public :: get_elem Get IGA element connectivity Read more… procedure, public :: get_elem_Xc_vis Get connectivity for control points Read more… procedure, public :: get_elem_Xg_vis Get connectivity for geometry points Read more… generic, public :: get_knot => get_knoti , get_knot_all Get knot vector Read more… procedure, public :: get_multiplicity Compute and return the multiplicity of the knots Read more… procedure, public :: get_ng Get number of geometry points Read more… procedure, public :: insert_knots Insert knots into the knot vector Read more… procedure, public :: is_rational Check if the NURBS volume is rational Read more… procedure, public :: modify_Wc Modify weights Read more… procedure, public :: modify_Xc Modify control points Read more… procedure, public :: nearest_point Find the nearest point on the NURBS volume Read more… procedure, public :: put_to_nurbs Put a shape to a NURBS volume Read more… procedure, public :: remove_knots Remove knots from the knot vector Read more… procedure, public :: rotate_Xc Rotate control points Read more… procedure, public :: rotate_Xg Rotate geometry points Read more… generic, public :: set => set1 , set2 , set3 Set NURBS volume Read more… procedure, public :: set1 Set knot vectors, control points and weights for the NURBS volume object Read more… procedure, public :: set2 Set NURBS volume using nodes of parameter space, degree, continuity, control points and weights Read more… procedure, public :: set3 Set Bezier or Rational Bezier volume using control points and weights Read more… procedure, public :: set_C Set a C-shape Read more… procedure, public :: set_elem Set IGA element connectivity Read more… procedure, public :: set_elem_Xc_vis Set connectivity for control points Read more… procedure, public :: set_elem_Xg_vis Set connectivity for geometry points Read more… procedure, public :: set_half_ring Set a half ring Read more… procedure, public :: set_hexahedron Set a hexahedron Read more… procedure, public :: set_ring Set a ring Read more… procedure, public :: show Show the NURBS object using PyVista Read more… procedure, public :: translate_Xc Translate control points Read more… procedure, public :: translate_Xg Translate geometry points Read more… procedure, private :: get_Wc_all Get all weights Read more… procedure, private :: get_Wci Get i-th weight Read more… procedure, private :: get_Xc_all Get all control points Read more… procedure, private :: get_Xci Get i-th control point Read more… procedure, private :: get_Xcid Get i-th control point in a specific direction Read more… procedure, private :: get_Xg_all Get all geometry points Read more… procedure, private :: get_Xgi Get i-th geometry point Read more… procedure, private :: get_Xgid Get i-th geometry point in a specific direction Read more… procedure, private :: get_degree_all Get degree of the NURBS volume in all directions Read more… procedure, private :: get_degree_dir Get degree of the NURBS volume in a specific direction Read more… procedure, private :: get_knot_all Get all knot vectors Read more… procedure, private :: get_knoti Get i-th knot value Read more… Functions private pure function cmp_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function cmp_elem_Xc_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) private pure function cmp_elem_Xg_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) private pure function get_Wc_all (this) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) private pure function get_Wci (this, n) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) private pure function get_Xc_all (this) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xci (this, n) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xcid (this, n, dir) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) private pure function get_Xg_all (this) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xgi (this, n) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xgid (this, n, dir) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) private pure function get_Xt (this, dir) result(Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) private pure function get_continuity (this, dir) result(c) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) private pure function get_degree_all (this) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, (3) private pure function get_degree_dir (this, dir) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer private pure function get_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function get_elem_Xc_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function get_elem_Xg_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function get_knot_all (this, dir) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) private pure function get_knoti (this, dir, i) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir integer, intent(in) :: i Return Value real(kind=rk) private pure function get_multiplicity (this, dir) result(m) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) private pure function get_nc (this, dir) result(nc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this integer, intent(in) :: dir Return Value integer private pure function get_ng (this) result(ng) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value integer, (3) private pure function is_rational (this) result(r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this Return Value logical Subroutines private pure subroutine basis (this, res1, res2, res3, Xt1, Xt2, Xt3, Tgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 integer, intent(in), optional :: res3 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt3 (:) real(kind=rk), intent(out), allocatable :: Tgc (:,:) private pure subroutine cmp_degree (this, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: dir private pure subroutine cmp_nc (this, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: dir private pure subroutine create (this, res1, res2, res3, Xt1, Xt2, Xt3, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 integer, intent(in), optional :: res3 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt3 (:) real(kind=rk), intent(in), optional, contiguous :: Xt (:,:) private pure subroutine derivative (this, res1, res2, res3, Xt1, Xt2, Xt3, dTgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 integer, intent(in), optional :: res3 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt3 (:) real(kind=rk), intent(out), allocatable :: dTgc (:,:) private pure subroutine elevate_degree (this, dir, t) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in) :: dir integer, intent(in) :: t private impure subroutine export_Xc (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this character(len=*), intent(in) :: filename private impure subroutine export_Xg (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this character(len=*), intent(in) :: filename private pure subroutine finalize (this) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this private pure subroutine insert_knots (this, dir, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) private pure subroutine modify_Wc (this, W, num) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: W integer, intent(in) :: num private pure subroutine modify_Xc (this, X, num, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: X integer, intent(in) :: num integer, intent(in) :: dir private pure subroutine nearest_point (this, point_Xg, nearest_Xg, nearest_Xt, id) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(in) :: this real(kind=rk), intent(in) :: point_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xt (:) integer, intent(out), optional :: id private pure subroutine put_to_nurbs (this, X, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: X (:,:) integer, intent(in), contiguous :: elemConn (:,:) private pure subroutine remove_knots (this, dir, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) private pure subroutine rotate_Xc (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta private pure subroutine rotate_Xg (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta private pure subroutine set1 (this, knot1, knot2, knot3, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set control points and weights for the NURBS volume object. Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: knot3 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set2 (this, Xth_dir1, Xth_dir2, Xth_dir3, degree, continuity1, continuity2, continuity3, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set control points and weights for the NURBS volume object. Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir1 (:) real(kind=rk), intent(in), contiguous :: Xth_dir2 (:) real(kind=rk), intent(in), contiguous :: Xth_dir3 (:) integer, intent(in), contiguous :: degree (:) integer, intent(in), contiguous :: continuity1 (:) integer, intent(in), contiguous :: continuity2 (:) integer, intent(in), contiguous :: continuity3 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set3 (this, nc, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set Bezier or Rational Bezier volume using control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set_C (this, center, radius1, radius2, length) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 real(kind=rk), intent(in) :: length private pure subroutine set_elem (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) private pure subroutine set_elem_Xc_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) private pure subroutine set_elem_Xg_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) private pure subroutine set_half_ring (this, center, radius1, radius2, length) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 real(kind=rk), intent(in) :: length private pure subroutine set_hexahedron (this, L, nc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: L (:) integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set_ring (this, center, radius1, radius2, length) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 real(kind=rk), intent(in) :: length private impure subroutine show (this, vtkfile_Xc, vtkfile_Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this character(len=*), intent(in) :: vtkfile_Xc character(len=*), intent(in) :: vtkfile_Xg private pure subroutine translate_Xc (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) private pure subroutine translate_Xg (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_volume ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:)","tags":"","loc":"module/forcad_nurbs_volume.html"},{"title":"forcad – ForCAD","text":"Uses forcad_nurbs_curve forcad_nurbs_volume forcad_utils forcad_nurbs_surface module~~forcad~~UsesGraph module~forcad forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Used by module~~forcad~~UsedByGraph module~forcad forcad program~example1_curve example1_curve program~example1_curve->module~forcad program~example3_surface example3_surface program~example3_surface->module~forcad program~example3_volume example3_volume program~example3_volume->module~forcad program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->module~forcad program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->module~forcad program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->module~forcad program~example_ppm1 example_ppm1 program~example_ppm1->module~forcad program~example_ppm2 example_ppm2 program~example_ppm2->module~forcad program~example_ppm3 example_ppm3 program~example_ppm3->module~forcad program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->module~forcad program~nearest_point_1d nearest_point_1d program~nearest_point_1d->module~forcad program~nearest_point_2d nearest_point_2d program~nearest_point_2d->module~forcad program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->module~forcad program~nearest_point_3d nearest_point_3d program~nearest_point_3d->module~forcad program~shape_c_1d shape_C_1d program~shape_c_1d->module~forcad program~shape_c_2d shape_C_2d program~shape_c_2d->module~forcad program~shape_c_3d shape_C_3d program~shape_c_3d->module~forcad program~shape_circle shape_circle program~shape_circle->module~forcad program~shape_half_circle shape_half_circle program~shape_half_circle->module~forcad program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->module~forcad program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->module~forcad program~shape_hexahedron shape_hexahedron program~shape_hexahedron->module~forcad program~shape_ring_2d shape_ring_2d program~shape_ring_2d->module~forcad program~shape_ring_3d shape_ring_3d program~shape_ring_3d->module~forcad program~shape_tetragon shape_tetragon program~shape_tetragon->module~forcad Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs.","tags":"","loc":"module/forcad.html"},{"title":"forcad_utils – ForCAD","text":"This module contains parameters, functions and subroutines that are used in the library. Used by module~~forcad_utils~~UsedByGraph module~forcad_utils forcad_utils module~forcad forcad module~forcad->module~forcad_utils module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils proc~compute_dtgc_bspline_1d compute_dTgc_bspline_1d proc~compute_dtgc_bspline_1d->module~forcad_utils proc~compute_dtgc_bspline_2d compute_dTgc_bspline_2d proc~compute_dtgc_bspline_2d->module~forcad_utils proc~compute_dtgc_bspline_3d compute_dTgc_bspline_3d proc~compute_dtgc_bspline_3d->module~forcad_utils proc~compute_dtgc_nurbs_1d compute_dTgc_nurbs_1d proc~compute_dtgc_nurbs_1d->module~forcad_utils proc~compute_dtgc_nurbs_2d compute_dTgc_nurbs_2d proc~compute_dtgc_nurbs_2d->module~forcad_utils proc~compute_dtgc_nurbs_3d compute_dTgc_nurbs_3d proc~compute_dtgc_nurbs_3d->module~forcad_utils proc~compute_tgc_bspline_1d compute_Tgc_bspline_1d proc~compute_tgc_bspline_1d->module~forcad_utils proc~compute_tgc_bspline_2d compute_Tgc_bspline_2d proc~compute_tgc_bspline_2d->module~forcad_utils proc~compute_tgc_bspline_3d compute_Tgc_bspline_3d proc~compute_tgc_bspline_3d->module~forcad_utils proc~compute_tgc_nurbs_1d compute_Tgc_nurbs_1d proc~compute_tgc_nurbs_1d->module~forcad_utils proc~compute_tgc_nurbs_2d compute_Tgc_nurbs_2d proc~compute_tgc_nurbs_2d->module~forcad_utils proc~compute_tgc_nurbs_3d compute_Tgc_nurbs_3d proc~compute_tgc_nurbs_3d->module~forcad_utils proc~compute_xg_bspline_1d compute_Xg_bspline_1d proc~compute_xg_bspline_1d->module~forcad_utils proc~compute_xg_bspline_2d compute_Xg_bspline_2d proc~compute_xg_bspline_2d->module~forcad_utils proc~compute_xg_bspline_3d compute_Xg_bspline_3d proc~compute_xg_bspline_3d->module~forcad_utils proc~compute_xg_nurbs_1d compute_Xg_nurbs_1d proc~compute_xg_nurbs_1d->module~forcad_utils proc~compute_xg_nurbs_2d compute_Xg_nurbs_2d proc~compute_xg_nurbs_2d->module~forcad_utils proc~compute_xg_nurbs_3d compute_Xg_nurbs_3d proc~compute_xg_nurbs_3d->module~forcad_utils proc~nearest_point_help_1d nearest_point_help_1d proc~nearest_point_help_1d->module~forcad_utils proc~nearest_point_help_2d nearest_point_help_2d proc~nearest_point_help_2d->module~forcad_utils proc~nearest_point_help_3d nearest_point_help_3d proc~nearest_point_help_3d->module~forcad_utils program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->module~forcad_utils program~example_put_to_nurbs->module~forcad program~example1_curve example1_curve program~example1_curve->module~forcad program~example3_surface example3_surface program~example3_surface->module~forcad program~example3_volume example3_volume program~example3_volume->module~forcad program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->module~forcad program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->module~forcad program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->module~forcad program~example_ppm1 example_ppm1 program~example_ppm1->module~forcad program~example_ppm2 example_ppm2 program~example_ppm2->module~forcad program~example_ppm3 example_ppm3 program~example_ppm3->module~forcad program~nearest_point_1d nearest_point_1d program~nearest_point_1d->module~forcad program~nearest_point_2d nearest_point_2d program~nearest_point_2d->module~forcad program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->module~forcad program~nearest_point_3d nearest_point_3d program~nearest_point_3d->module~forcad program~shape_c_1d shape_C_1d program~shape_c_1d->module~forcad program~shape_c_2d shape_C_2d program~shape_c_2d->module~forcad program~shape_c_3d shape_C_3d program~shape_c_3d->module~forcad program~shape_circle shape_circle program~shape_circle->module~forcad program~shape_half_circle shape_half_circle program~shape_half_circle->module~forcad program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->module~forcad program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->module~forcad program~shape_hexahedron shape_hexahedron program~shape_hexahedron->module~forcad program~shape_ring_2d shape_ring_2d program~shape_ring_2d->module~forcad program~shape_ring_3d shape_ring_3d program~shape_ring_3d->module~forcad program~shape_tetragon shape_tetragon program~shape_tetragon->module~forcad Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Visibility Attributes Name Initial integer, public, parameter :: rk = kind(1.0d0) Interfaces public interface compute_multiplicity private pure function compute_multiplicity1 (knot) result(multiplicity) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: knot (:) Return Value integer, allocatable, (:) private pure function compute_multiplicity2 (knot, Xth) result(multiplicity) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: knot (:) real(kind=rk), intent(in) :: Xth Return Value integer public interface elemConn_C0 private pure function cmp_elemConn_C0_L (nnode, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode integer, intent(in) :: p Return Value integer, allocatable, (:,:) private pure function cmp_elemConn_C0_S (nnode1, nnode2, p1, p2) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: p1 integer, intent(in) :: p2 Return Value integer, allocatable, (:,:) private pure function cmp_elemConn_C0_V (nnode1, nnode2, nnode3, p1, p2, p3) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: nnode3 integer, intent(in) :: p1 integer, intent(in) :: p2 integer, intent(in) :: p3 Return Value integer, allocatable, (:,:) public interface elemConn_Cn private pure subroutine cmp_elemConn_Cn_L (nnode, p, Xth, vecKnot_mul, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode integer, intent(in) :: p real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: vecKnot_mul (:) integer, intent(out), allocatable :: elemConn (:,:) private pure subroutine cmp_elemConn_Cn_S (nnode1, nnode2, p1, p2, Xth1, Xth2, vecKnot_mul1, vecKnot_mul2, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: p1 integer, intent(in) :: p2 real(kind=rk), intent(in), contiguous :: Xth1 (:) real(kind=rk), intent(in), contiguous :: Xth2 (:) integer, intent(in), contiguous :: vecKnot_mul1 (:) integer, intent(in), contiguous :: vecKnot_mul2 (:) integer, intent(out), allocatable :: elemConn (:,:) private pure subroutine cmp_elemConn_Cn_V (nnode1, nnode2, nnode3, p1, p2, p3, Xth1, Xth2, Xth3, vecKnot_mul1, vecKnot_mul2, vecKnot_mul3, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: nnode3 integer, intent(in) :: p1 integer, intent(in) :: p2 integer, intent(in) :: p3 real(kind=rk), intent(in), contiguous :: Xth1 (:) real(kind=rk), intent(in), contiguous :: Xth2 (:) real(kind=rk), intent(in), contiguous :: Xth3 (:) integer, intent(in), contiguous :: vecKnot_mul1 (:) integer, intent(in), contiguous :: vecKnot_mul2 (:) integer, intent(in), contiguous :: vecKnot_mul3 (:) integer, intent(out), allocatable :: elemConn (:,:) public interface ndgrid private pure subroutine ndgrid2 (X_dir1, X_dir2, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: X_dir1 (:) real(kind=rk), intent(in), contiguous :: X_dir2 (:) real(kind=rk), intent(out), allocatable :: Xt (:,:) private pure subroutine ndgrid3 (X_dir1, X_dir2, X_dir3, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: X_dir1 (:) real(kind=rk), intent(in), contiguous :: X_dir2 (:) real(kind=rk), intent(in), contiguous :: X_dir3 (:) real(kind=rk), intent(out), allocatable :: Xt (:,:) public interface unique private pure function unique_integer (vec) result(output) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in), dimension(:), contiguous :: vec Return Value integer, dimension(:), allocatable private pure function unique_real (vec) result(output) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), dimension(:), contiguous :: vec Return Value real(kind=rk), dimension(:), allocatable Functions public pure function basis_bernstein (Xt, nc) result(B) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: Xt integer, intent(in) :: nc Return Value real(kind=rk), allocatable, (:) public pure function basis_bspline (Xt, knot, nc, degree) result(B) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: Xt real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: nc integer, intent(in) :: degree Return Value real(kind=rk), allocatable, (:) public pure function basis_bspline_der (Xt, knot, nc, degree) result(dB) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: Xt real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: nc integer, intent(in) :: degree Return Value real(kind=rk), allocatable, (:) public pure function compute_knot_vector (Xth_dir, degree, continuity) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: Xth_dir (:) integer, intent(in) :: degree integer, intent(in), contiguous :: continuity (:) Return Value real(kind=rk), allocatable, (:) public pure function findspan (n, degree, Xth, knot) result(s) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: n integer, intent(in) :: degree real(kind=rk), intent(in) :: Xth real(kind=rk), intent(in), contiguous :: knot (:) Return Value integer public pure function hexahedron_Xc (L, nc) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: L (3) integer, intent(in) :: nc (3) Return Value real(kind=rk), allocatable, (:,:) public pure function kron (u, v) result(w) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: u (:) real(kind=rk), intent(in), contiguous :: v (:) Return Value real(kind=rk), (size(u)*size(v)) public pure function rotation (alpha, beta, theta) result(R) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta Return Value real(kind=rk), dimension(3,3) public pure function tetragon_Xc (L, nc) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: L (2) integer, intent(in) :: nc (2) Return Value real(kind=rk), allocatable, (:,:) private pure function bincoeff (n, k) result(b) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: n integer, intent(in) :: k Return Value real(kind=rk) private pure function cmp_elemConn_C0_L (nnode, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode integer, intent(in) :: p Return Value integer, allocatable, (:,:) private pure function cmp_elemConn_C0_S (nnode1, nnode2, p1, p2) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: p1 integer, intent(in) :: p2 Return Value integer, allocatable, (:,:) private pure function cmp_elemConn_C0_V (nnode1, nnode2, nnode3, p1, p2, p3) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: nnode3 integer, intent(in) :: p1 integer, intent(in) :: p2 integer, intent(in) :: p3 Return Value integer, allocatable, (:,:) private pure function compute_multiplicity1 (knot) result(multiplicity) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: knot (:) Return Value integer, allocatable, (:) private pure function compute_multiplicity2 (knot, Xth) result(multiplicity) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: knot (:) real(kind=rk), intent(in) :: Xth Return Value integer private pure function factln (n) result(f) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: n Return Value real(kind=rk) private pure elemental function isinf (x) result(output) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: x Return Value logical private pure elemental function isnan (x) result(output) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: x Return Value logical private pure function repelem (a, b) result(c) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: a (:) integer, intent(in), contiguous :: b (:) Return Value real(kind=rk), (sum(b)) private pure function unique_integer (vec) result(output) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in), dimension(:), contiguous :: vec Return Value integer, dimension(:), allocatable private pure function unique_real (vec) result(output) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), dimension(:), contiguous :: vec Return Value real(kind=rk), dimension(:), allocatable Subroutines public pure subroutine elevate_degree_A_5_9 (t, knot, degree, Xcw, nc_new, knot_new, Xcw_new) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: t real(kind=rk), intent(in), contiguous :: knot (:) integer, intent(in) :: degree real(kind=rk), intent(in), contiguous :: Xcw (:,:) integer, intent(out) :: nc_new real(kind=rk), intent(out), allocatable :: knot_new (:) real(kind=rk), intent(out), allocatable :: Xcw_new (:,:) public pure subroutine insert_knot_A_5_1 (p, UP, Pw, u, k, s, r, nq, UQ, Qw) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: p real(kind=rk), intent(in), contiguous :: UP (0:) real(kind=rk), intent(in), contiguous :: Pw (0:,:) real(kind=rk), intent(in) :: u integer, intent(in) :: k integer, intent(in) :: s integer, intent(in) :: r integer, intent(out) :: nq real(kind=rk), intent(out), allocatable :: UQ (:) real(kind=rk), intent(out), allocatable :: Qw (:,:) public pure subroutine remove_knots_A_5_8 (p, knot, Pw, u, r, s, num, t, knot_new, Pw_new) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: p real(kind=rk), intent(in), contiguous :: knot (:) real(kind=rk), intent(in), contiguous :: Pw (:,:) real(kind=rk), intent(in) :: u integer, intent(in) :: r integer, intent(in) :: s integer, intent(in) :: num integer, intent(out) :: t real(kind=rk), intent(out), allocatable :: knot_new (:) real(kind=rk), intent(out), allocatable :: Pw_new (:,:) private pure subroutine cmp_elemConn_Cn_L (nnode, p, Xth, vecKnot_mul, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode integer, intent(in) :: p real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: vecKnot_mul (:) integer, intent(out), allocatable :: elemConn (:,:) private pure subroutine cmp_elemConn_Cn_S (nnode1, nnode2, p1, p2, Xth1, Xth2, vecKnot_mul1, vecKnot_mul2, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: p1 integer, intent(in) :: p2 real(kind=rk), intent(in), contiguous :: Xth1 (:) real(kind=rk), intent(in), contiguous :: Xth2 (:) integer, intent(in), contiguous :: vecKnot_mul1 (:) integer, intent(in), contiguous :: vecKnot_mul2 (:) integer, intent(out), allocatable :: elemConn (:,:) private pure subroutine cmp_elemConn_Cn_V (nnode1, nnode2, nnode3, p1, p2, p3, Xth1, Xth2, Xth3, vecKnot_mul1, vecKnot_mul2, vecKnot_mul3, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name integer, intent(in) :: nnode1 integer, intent(in) :: nnode2 integer, intent(in) :: nnode3 integer, intent(in) :: p1 integer, intent(in) :: p2 integer, intent(in) :: p3 real(kind=rk), intent(in), contiguous :: Xth1 (:) real(kind=rk), intent(in), contiguous :: Xth2 (:) real(kind=rk), intent(in), contiguous :: Xth3 (:) integer, intent(in), contiguous :: vecKnot_mul1 (:) integer, intent(in), contiguous :: vecKnot_mul2 (:) integer, intent(in), contiguous :: vecKnot_mul3 (:) integer, intent(out), allocatable :: elemConn (:,:) private pure subroutine ndgrid2 (X_dir1, X_dir2, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: X_dir1 (:) real(kind=rk), intent(in), contiguous :: X_dir2 (:) real(kind=rk), intent(out), allocatable :: Xt (:,:) private pure subroutine ndgrid3 (X_dir1, X_dir2, X_dir3, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in), contiguous :: X_dir1 (:) real(kind=rk), intent(in), contiguous :: X_dir2 (:) real(kind=rk), intent(in), contiguous :: X_dir3 (:) real(kind=rk), intent(out), allocatable :: Xt (:,:)","tags":"","loc":"module/forcad_utils.html"},{"title":"forcad_nurbs_surface – ForCAD","text":"This module defines the 'nurbs_surface' type for representing a Non-Uniform Rational B-Spline (NURBS) surface. Uses forcad_utils module~~forcad_nurbs_surface~~UsesGraph module~forcad_nurbs_surface forcad_nurbs_surface module~forcad_utils forcad_utils module~forcad_nurbs_surface->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Used by module~~forcad_nurbs_surface~~UsedByGraph module~forcad_nurbs_surface forcad_nurbs_surface module~forcad forcad module~forcad->module~forcad_nurbs_surface program~example1_curve example1_curve program~example1_curve->module~forcad program~example3_surface example3_surface program~example3_surface->module~forcad program~example3_volume example3_volume program~example3_volume->module~forcad program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->module~forcad program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->module~forcad program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->module~forcad program~example_ppm1 example_ppm1 program~example_ppm1->module~forcad program~example_ppm2 example_ppm2 program~example_ppm2->module~forcad program~example_ppm3 example_ppm3 program~example_ppm3->module~forcad program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->module~forcad program~nearest_point_1d nearest_point_1d program~nearest_point_1d->module~forcad program~nearest_point_2d nearest_point_2d program~nearest_point_2d->module~forcad program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->module~forcad program~nearest_point_3d nearest_point_3d program~nearest_point_3d->module~forcad program~shape_c_1d shape_C_1d program~shape_c_1d->module~forcad program~shape_c_2d shape_C_2d program~shape_c_2d->module~forcad program~shape_c_3d shape_C_3d program~shape_c_3d->module~forcad program~shape_circle shape_circle program~shape_circle->module~forcad program~shape_half_circle shape_half_circle program~shape_half_circle->module~forcad program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->module~forcad program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->module~forcad program~shape_hexahedron shape_hexahedron program~shape_hexahedron->module~forcad program~shape_ring_2d shape_ring_2d program~shape_ring_2d->module~forcad program~shape_ring_3d shape_ring_3d program~shape_ring_3d->module~forcad program~shape_tetragon shape_tetragon program~shape_tetragon->module~forcad Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Derived Types type, public :: nurbs_surface Components Type Visibility Attributes Name Initial real(kind=rk), private, allocatable :: Wc (:) Weights for control points (1D array: [nc(1)*nc(2)]) real(kind=rk), private, allocatable :: Xc (:,:) Control points (2D array: [nc(1)*nc(2), dim]) real(kind=rk), private, allocatable :: Xg (:,:) Geometry points (2D array: [ng(1)*ng(2), dim]) real(kind=rk), private, allocatable :: Xt (:,:) Evaluation parameter values (2D array: [ng(1)*ng(2), 2]) real(kind=rk), private, allocatable :: Xt1 (:) Evaluation parameter values in the first direction (1D array: [ng(1)]) real(kind=rk), private, allocatable :: Xt2 (:) Evaluation parameter values in the second direction (1D array: [ng(2)]) integer, private :: degree (2) Degree (order) of the surface integer, private, allocatable :: elemConn (:,:) IGA element connectivity integer, private, allocatable :: elemConn_Xc_vis (:,:) Connectivity for visualization of control points integer, private, allocatable :: elemConn_Xg_vis (:,:) Connectivity for visualization of geometry points real(kind=rk), private, allocatable :: knot1 (:) Knot vector in the first direction (1D array) real(kind=rk), private, allocatable :: knot2 (:) Knot vector in the second direction (1D array) integer, private :: nc (2) Number of control points in each direction integer, private :: ng (2) Number of geometry points in each direction Type-Bound Procedures procedure, public :: basis Compute the basis functions of the NURBS surface Read more… procedure, public :: cmp_degree Compute degree of the NURBS surface Read more… procedure, public :: cmp_elem Generate IGA element connectivity Read more… procedure, public :: cmp_elem_Xc_vis Generate connectivity for control points Read more… procedure, public :: cmp_elem_Xg_vis Generate connectivity for geometry points Read more… procedure, public :: cmp_nc Compute number of required control points Read more… procedure, public :: create Generate geometry points Read more… procedure, public :: derivative Compute the derivative of the NURBS surface Read more… procedure, public :: elevate_degree Elevate degree Read more… procedure, public :: export_Xc Export control points to VTK file Read more… procedure, public :: export_Xg Export geometry points to VTK file Read more… procedure, public :: finalize Finalize the NURBS surface object Read more… generic, public :: get_Wc => get_Wc_all , get_Wci Get weights Read more… generic, public :: get_Xc => get_Xc_all , get_Xci , get_Xcid Get control points Read more… generic, public :: get_Xg => get_Xg_all , get_Xgi , get_Xgid Get geometry points Read more… procedure, public :: get_Xt Get parameter values Read more… procedure, public :: get_continuity Compute and return the continuity of the NURBS surface Read more… generic, public :: get_degree => get_degree_all , get_degree_dir Get degree of the NURBS surface Read more… procedure, public :: get_elem Get IGA element connectivity Read more… procedure, public :: get_elem_Xc_vis Get connectivity for control points Read more… procedure, public :: get_elem_Xg_vis Get connectivity for geometry points Read more… generic, public :: get_knot => get_knoti , get_knot_all Get knot vector Read more… procedure, public :: get_multiplicity Compute and return the multiplicity of the knot vector Read more… procedure, public :: get_nc Get number of control points Read more… procedure, public :: get_ng Get number of geometry points Read more… procedure, public :: insert_knots Insert knots into the knot vector Read more… procedure, public :: is_rational Check if the NURBS surface is rational Read more… procedure, public :: modify_Wc Modify weights Read more… procedure, public :: modify_Xc Modify control points Read more… procedure, public :: nearest_point Find the nearest point on the NURBS surface Read more… procedure, public :: remove_knots Remove knots from the knot vector Read more… procedure, public :: rotate_Xc Rotate control points Read more… procedure, public :: rotate_Xg Rotate geometry points Read more… generic, public :: set => set1 , set2 , set3 Set NURBS surface Read more… procedure, public :: set1 Set knot vectors, control points and weights for the NURBS surface object Read more… procedure, public :: set2 Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights Read more… procedure, public :: set3 Set Bezier or Rational Bezier surface using control points and weights Read more… procedure, public :: set_C Set a C-shape Read more… procedure, public :: set_elem Set IGA element connectivity Read more… procedure, public :: set_elem_Xc_vis Set connectivity for control points Read more… procedure, public :: set_elem_Xg_vis Set connectivity for geometry points Read more… procedure, public :: set_half_ring Set a half ring Read more… procedure, public :: set_ring Set a ring Read more… procedure, public :: set_tetragon Set a tetragon Read more… procedure, public :: show Show the NURBS object using PyVista Read more… procedure, public :: translate_Xc Translate control points Read more… procedure, public :: translate_Xg Translate geometry points Read more… procedure, private :: get_Wc_all Get all weights Read more… procedure, private :: get_Wci Get i-th weight Read more… procedure, private :: get_Xc_all Get all control points Read more… procedure, private :: get_Xci Get i-th control point Read more… procedure, private :: get_Xcid Get i-th control point in a specific direction Read more… procedure, private :: get_Xg_all Get all geometry points Read more… procedure, private :: get_Xgi Get i-th geometry point Read more… procedure, private :: get_Xgid Get i-th geometry point in a specific direction Read more… procedure, private :: get_degree_all Get degree of the NURBS surface in both directions Read more… procedure, private :: get_degree_dir Get degree of the NURBS surface in a specific direction Read more… procedure, private :: get_knot_all Get all knot vectors Read more… procedure, private :: get_knoti Get i-th knot value Read more… Functions private pure function cmp_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function cmp_elem_Xc_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) private pure function cmp_elem_Xg_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in), optional, contiguous :: p (:) Return Value integer, allocatable, (:,:) private pure function get_Wc_all (this) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) private pure function get_Wci (this, n) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) private pure function get_Xc_all (this) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xci (this, n) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xcid (this, n, dir) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) private pure function get_Xg_all (this) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xgi (this, n) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xgid (this, n, dir) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) private pure function get_Xt (this, dir) result(Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) private pure function get_continuity (this, dir) result(c) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) private pure function get_degree_all (this) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, (2) private pure function get_degree_dir (this, dir) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer private pure function get_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function get_elem_Xc_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function get_elem_Xg_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function get_knot_all (this, dir) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value real(kind=rk), allocatable, (:) private pure function get_knoti (this, dir, i) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir integer, intent(in) :: i Return Value real(kind=rk) private pure function get_multiplicity (this, dir) result(m) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer, allocatable, (:) private pure function get_nc (this, dir) result(nc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this integer, intent(in) :: dir Return Value integer private pure function get_ng (this) result(ng) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value integer, (2) private pure function is_rational (this) result(r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this Return Value logical Subroutines private pure subroutine basis (this, res1, res2, Xt1, Xt2, Tgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(out), allocatable :: Tgc (:,:) private pure subroutine cmp_degree (this, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: dir private pure subroutine cmp_nc (this, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: dir private pure subroutine create (this, res1, res2, Xt1, Xt2, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(in), optional, contiguous :: Xt (:,:) private pure subroutine derivative (this, res1, res2, Xt1, Xt2, dTgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), optional :: res1 integer, intent(in), optional :: res2 real(kind=rk), intent(in), optional, contiguous :: Xt1 (:) real(kind=rk), intent(in), optional, contiguous :: Xt2 (:) real(kind=rk), intent(out), allocatable :: dTgc (:,:) private pure subroutine elevate_degree (this, dir, t) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in) :: dir integer, intent(in) :: t private impure subroutine export_Xc (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this character(len=*), intent(in) :: filename private impure subroutine export_Xg (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this character(len=*), intent(in) :: filename private pure subroutine finalize (this) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this private pure subroutine insert_knots (this, dir, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) private pure subroutine modify_Wc (this, W, num) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: W integer, intent(in) :: num private pure subroutine modify_Xc (this, X, num, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: X integer, intent(in) :: num integer, intent(in) :: dir private pure subroutine nearest_point (this, point_Xg, nearest_Xg, nearest_Xt, id) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(in) :: this real(kind=rk), intent(in) :: point_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xt (:) integer, intent(out), optional :: id private pure subroutine remove_knots (this, dir, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in) :: dir real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) private pure subroutine rotate_Xc (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta private pure subroutine rotate_Xg (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta private pure subroutine set1 (this, knot1, knot2, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set knot vectors, control points and weights for the NURBS surface object. Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot1 (:) real(kind=rk), intent(in), contiguous :: knot2 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set2 (this, Xth_dir1, Xth_dir2, degree, continuity1, continuity2, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir1 (:) real(kind=rk), intent(in), contiguous :: Xth_dir2 (:) integer, intent(in), contiguous :: degree (:) integer, intent(in), contiguous :: continuity1 (:) integer, intent(in), contiguous :: continuity2 (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set3 (this, nc, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set Bezier or Rational Bezier surface using control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: nc (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set_C (this, center, radius1, radius2) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 private pure subroutine set_elem (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) private pure subroutine set_elem_Xc_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) private pure subroutine set_elem_Xg_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) private pure subroutine set_half_ring (this, center, radius1, radius2) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 private pure subroutine set_ring (this, center, radius1, radius2) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius1 real(kind=rk), intent(in) :: radius2 private pure subroutine set_tetragon (this, L, nc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: L (2) integer, intent(in) :: nc (2) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private impure subroutine show (this, vtkfile_Xc, vtkfile_Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this character(len=*), intent(in) :: vtkfile_Xc character(len=*), intent(in) :: vtkfile_Xg private pure subroutine translate_Xc (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) private pure subroutine translate_Xg (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_surface ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:)","tags":"","loc":"module/forcad_nurbs_surface.html"},{"title":"forcad_nurbs_curve – ForCAD","text":"This module defines the 'nurbs_curve' type for representing a Non-Uniform Rational B-Spline (NURBS) curve. Uses forcad_utils module~~forcad_nurbs_curve~~UsesGraph module~forcad_nurbs_curve forcad_nurbs_curve module~forcad_utils forcad_utils module~forcad_nurbs_curve->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Used by module~~forcad_nurbs_curve~~UsedByGraph module~forcad_nurbs_curve forcad_nurbs_curve module~forcad forcad module~forcad->module~forcad_nurbs_curve program~example1_curve example1_curve program~example1_curve->module~forcad program~example3_surface example3_surface program~example3_surface->module~forcad program~example3_volume example3_volume program~example3_volume->module~forcad program~example_nurbs_curve example_nurbs_curve program~example_nurbs_curve->module~forcad program~example_nurbs_surface example_nurbs_surface program~example_nurbs_surface->module~forcad program~example_nurbs_volume example_nurbs_volume program~example_nurbs_volume->module~forcad program~example_ppm1 example_ppm1 program~example_ppm1->module~forcad program~example_ppm2 example_ppm2 program~example_ppm2->module~forcad program~example_ppm3 example_ppm3 program~example_ppm3->module~forcad program~example_put_to_nurbs example_put_to_nurbs program~example_put_to_nurbs->module~forcad program~nearest_point_1d nearest_point_1d program~nearest_point_1d->module~forcad program~nearest_point_2d nearest_point_2d program~nearest_point_2d->module~forcad program~nearest_point_2d_bench nearest_point_2d_bench program~nearest_point_2d_bench->module~forcad program~nearest_point_3d nearest_point_3d program~nearest_point_3d->module~forcad program~shape_c_1d shape_C_1d program~shape_c_1d->module~forcad program~shape_c_2d shape_C_2d program~shape_c_2d->module~forcad program~shape_c_3d shape_C_3d program~shape_c_3d->module~forcad program~shape_circle shape_circle program~shape_circle->module~forcad program~shape_half_circle shape_half_circle program~shape_half_circle->module~forcad program~shape_half_ring_2d shape_half_ring_2d program~shape_half_ring_2d->module~forcad program~shape_half_ring_3d shape_half_ring_3d program~shape_half_ring_3d->module~forcad program~shape_hexahedron shape_hexahedron program~shape_hexahedron->module~forcad program~shape_ring_2d shape_ring_2d program~shape_ring_2d->module~forcad program~shape_ring_3d shape_ring_3d program~shape_ring_3d->module~forcad program~shape_tetragon shape_tetragon program~shape_tetragon->module~forcad Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Derived Types type, public :: nurbs_curve Components Type Visibility Attributes Name Initial real(kind=rk), private, allocatable :: Wc (:) Weights for control points (1D array: [nc]) real(kind=rk), private, allocatable :: Xc (:,:) Control points (2D array: [nc, dim]) real(kind=rk), private, allocatable :: Xg (:,:) Geometry points (2D array: [ng, dim]) real(kind=rk), private, allocatable :: Xt (:) Evaluation points (1D array: [ng]) integer, private :: degree Degree (order) of the curve integer, private, allocatable :: elemConn (:,:) IGA element connectivity integer, private, allocatable :: elemConn_Xc_vis (:,:) Connectivity for visualization of control points integer, private, allocatable :: elemConn_Xg_vis (:,:) Connectivity for visualization of geometry points real(kind=rk), private, allocatable :: knot (:) Knot vector (1D array) integer, private :: nc Number of control points integer, private :: ng Number of geometry points Type-Bound Procedures procedure, public :: basis Compute the basis functions of the NURBS curve Read more… procedure, public :: cmp_degree Compute degree of the NURBS curve Read more… procedure, public :: cmp_elem Generate IGA element connectivity Read more… procedure, public :: cmp_elem_Xc_vis Generate connectivity for control points Read more… procedure, public :: cmp_elem_Xg_vis Generate connectivity for geometry points Read more… procedure, public :: cmp_nc Compute number of required control points Read more… procedure, public :: create Generate geometry points Read more… procedure, public :: derivative Compute the derivative of the NURBS curve Read more… procedure, public :: elevate_degree Elevate the degree of the curve Read more… procedure, public :: export_Xc Export control points to VTK file Read more… procedure, public :: export_Xg Export geometry points to VTK file Read more… procedure, public :: finalize Finalize the NURBS curve object Read more… generic, public :: get_Wc => get_Wc_all , get_Wci Get weights Read more… generic, public :: get_Xc => get_Xc_all , get_Xci , get_Xcid Get control points Read more… generic, public :: get_Xg => get_Xg_all , get_Xgi , get_Xgid Get geometry points Read more… procedure, public :: get_Xt Get parameter values Read more… procedure, public :: get_continuity Compute and return the continuity of the curve Read more… procedure, public :: get_degree Get degree of the NURBS curve Read more… procedure, public :: get_elem Get IGA element connectivity Read more… procedure, public :: get_elem_Xc_vis Get connectivity for control points Read more… procedure, public :: get_elem_Xg_vis Get connectivity for geometry points Read more… generic, public :: get_knot => get_knoti , get_knot_all Get knot vector Read more… procedure, public :: get_multiplicity Compute and return the multiplicity of the knots Read more… procedure, public :: get_nc Get number of control points Read more… procedure, public :: get_ng Get number of geometry points Read more… procedure, public :: insert_knots Insert knots into the knot vector Read more… procedure, public :: is_rational Check if the NURBS curve is rational Read more… procedure, public :: modify_Wc Modify weights Read more… procedure, public :: modify_Xc Modify control points Read more… procedure, public :: nearest_point Find the nearest point on the NURBS curve Read more… procedure, public :: remove_knots Remove knots from the knot vector Read more… procedure, public :: rotate_Xc Rotate control points Read more… procedure, public :: rotate_Xg Rotate geometry points Read more… generic, public :: set => set1 , set2 , set3 Set NURBS curve Read more… procedure, public :: set1 Set knot vector, control points and weights for the NURBS curve object Read more… procedure, public :: set2 Set NURBS curve using nodes of parameter space, degree, continuity, control points and weights Read more… procedure, public :: set3 Set Bezier or Rational Bezier curve using control points and weights Read more… procedure, public :: set_C Set a C-shape Read more… procedure, public :: set_circle Set a circle Read more… procedure, public :: set_elem Set IGA element connectivity Read more… procedure, public :: set_elem_Xc_vis Set connectivity for control points Read more… procedure, public :: set_elem_Xg_vis Set connectivity for geometry points Read more… procedure, public :: set_half_circle Set a half circle Read more… procedure, public :: show Show the NURBS object using PyVista Read more… procedure, public :: translate_Xc Translate control points Read more… procedure, public :: translate_Xg Translate geometry points Read more… procedure, private :: get_Wc_all Get all weights Read more… procedure, private :: get_Wci Get i-th weight Read more… procedure, private :: get_Xc_all Get all control points Read more… procedure, private :: get_Xci Get i-th control point Read more… procedure, private :: get_Xcid Get i-th control point in a specific direction Read more… procedure, private :: get_Xg_all Get all geometry points Read more… procedure, private :: get_Xgi Get i-th geometry point Read more… procedure, private :: get_Xgid Get i-th geometry point in a specific direction Read more… procedure, private :: get_knot_all Get all knot vectors Read more… procedure, private :: get_knoti Get i-th knot value Read more… Functions private pure function cmp_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function cmp_elem_Xc_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in), optional :: p Return Value integer, allocatable, (:,:) private pure function cmp_elem_Xg_vis (this, p) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in), optional :: p Return Value integer, allocatable, (:,:) private pure function get_Wc_all (this) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) private pure function get_Wci (this, n) result(Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk) private pure function get_Xc_all (this) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xci (this, n) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xcid (this, n, dir) result(Xc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) private pure function get_Xg_all (this) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:,:) private pure function get_Xgi (this, n) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n Return Value real(kind=rk), allocatable, (:) private pure function get_Xgid (this, n, dir) result(Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: n integer, intent(in) :: dir Return Value real(kind=rk) private pure function get_Xt (this) result(Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) private pure function get_continuity (this) result(c) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:) private pure function get_degree (this) result(degree) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer private pure function get_elem (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function get_elem_Xc_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function get_elem_Xg_vis (this) result(elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:,:) private pure function get_knot_all (this) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value real(kind=rk), allocatable, (:) private pure function get_knoti (this, i) result(knot) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this integer, intent(in) :: i Return Value real(kind=rk) private pure function get_multiplicity (this) result(m) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer, allocatable, (:) private pure function get_nc (this) result(nc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer private pure function get_ng (this) result(ng) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value integer private pure function is_rational (this) result(r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this Return Value logical Subroutines private pure subroutine basis (this, res, Xt, Tgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), optional :: res real(kind=rk), intent(in), optional, contiguous :: Xt (:) real(kind=rk), intent(out), allocatable :: Tgc (:,:) private pure subroutine cmp_degree (this) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this private pure subroutine cmp_nc (this) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this private pure subroutine create (this, res, Xt) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), optional :: res real(kind=rk), intent(in), optional, contiguous :: Xt (:) private pure subroutine derivative (this, res, Xt, dTgc) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), optional :: res real(kind=rk), intent(in), optional, contiguous :: Xt (:) real(kind=rk), intent(out), allocatable :: dTgc (:,:) private pure subroutine elevate_degree (this, t) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in) :: t private impure subroutine export_Xc (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this character(len=*), intent(in) :: filename private impure subroutine export_Xg (this, filename) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this character(len=*), intent(in) :: filename private pure subroutine finalize (this) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this private pure subroutine insert_knots (this, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) private pure subroutine modify_Wc (this, W, num) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: W integer, intent(in) :: num private pure subroutine modify_Xc (this, X, num, dir) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: X integer, intent(in) :: num integer, intent(in) :: dir private pure subroutine nearest_point (this, point_Xg, nearest_Xg, nearest_Xt, id) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(in) :: this real(kind=rk), intent(in) :: point_Xg (:) real(kind=rk), intent(out), optional, allocatable :: nearest_Xg (:) real(kind=rk), intent(out), optional :: nearest_Xt integer, intent(out), optional :: id private pure subroutine remove_knots (this, Xth, r) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth (:) integer, intent(in), contiguous :: r (:) private pure subroutine rotate_Xc (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta private pure subroutine rotate_Xg (this, alpha, beta, theta) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: alpha real(kind=rk), intent(in) :: beta real(kind=rk), intent(in) :: theta private pure subroutine set1 (this, knot, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set knot vector, control points and weights for the NURBS curve object. Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: knot (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set2 (this, Xth_dir, degree, continuity, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set NURBS curve using nodes of parameter space (Xth), degree, continuity, control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xth_dir (:) integer, intent(in) :: degree integer, intent(in), contiguous :: continuity (:) real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set3 (this, Xc, Wc) Author Seyed Ali Ghasemi License BSD 3-Clause Set Bezier or Rational Bezier curve using control points and weights. Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: Xc (:,:) real(kind=rk), intent(in), optional, contiguous :: Wc (:) private pure subroutine set_C (this, center, radius) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius private pure subroutine set_circle (this, center, radius) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius private pure subroutine set_elem (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) private pure subroutine set_elem_Xc_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) private pure subroutine set_elem_Xg_vis (this, elemConn) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this integer, intent(in), contiguous :: elemConn (:,:) private pure subroutine set_half_circle (this, center, radius) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in), contiguous :: center (:) real(kind=rk), intent(in) :: radius private impure subroutine show (this, vtkfile_Xc, vtkfile_Xg) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this character(len=*), intent(in) :: vtkfile_Xc character(len=*), intent(in) :: vtkfile_Xg private pure subroutine translate_Xc (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:) private pure subroutine translate_Xg (this, vec) Author Seyed Ali Ghasemi License BSD 3-Clause Arguments Type Intent Optional Attributes Name class( nurbs_curve ), intent(inout) :: this real(kind=rk), intent(in) :: vec (:)","tags":"","loc":"module/forcad_nurbs_curve.html"},{"title":"nearest_point_2d – ForCAD","text":"Uses forcad program~~nearest_point_2d~~UsesGraph program~nearest_point_2d nearest_point_2d module~forcad forcad program~nearest_point_2d->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set a tetragon with lengths of 2.0 and 3.0 and 3 and 4 control points in each direction\nThe weights of the control points (Wc) are optional. Generate the NURBS surface with resolutions of 30 in both dimensions Find the nearest point on the surface to a given point\nFinalize the NURBS surface object Calls program~~nearest_point_2d~~CallsGraph program~nearest_point_2d nearest_point_2d proc~create~2 nurbs_surface%create program~nearest_point_2d->proc~create~2 proc~finalize~2 nurbs_surface%finalize program~nearest_point_2d->proc~finalize~2 proc~nearest_point~2 nurbs_surface%nearest_point program~nearest_point_2d->proc~nearest_point~2 proc~set_tetragon nurbs_surface%set_tetragon program~nearest_point_2d->proc~set_tetragon interface~ndgrid ndgrid proc~create~2->interface~ndgrid proc~is_rational~2 nurbs_surface%is_rational proc~create~2->proc~is_rational~2 none~set~2 nurbs_surface%set proc~set_tetragon->none~set~2 proc~tetragon_xc tetragon_Xc proc~set_tetragon->proc~tetragon_xc proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1~2 nurbs_surface%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_surface%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2->proc~cmp_nc~2 proc~set2~2->proc~cmp_nc~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~2->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial integer :: id id of the nearest point real(kind=rk), allocatable :: nearest_Xg (:) Coordinates of the nearest point on the surface real(kind=rk), allocatable :: nearest_Xt (:) Corresponding parametric coordinates of the nearest point type( nurbs_surface ) :: shape Declare a NURBS surface object","tags":"","loc":"program/nearest_point_2d.html"},{"title":"example3_surface – ForCAD","text":"Uses forcad program~~example3_surface~~UsesGraph program~example3_surface example3_surface module~forcad forcad program~example3_surface->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. This program demonstrates the usage of a NURBS (Non-Uniform Rational B-Spline) surface object to create and finalize a NURBS surface.\nIt sets up control points, weights, and knot vectors for all three dimensions, generates the surface, and exports the control points and the surface to VTK files. Define control points for the NURBS surface Define weights for the control points\nDefine knot vectors for both dimensions\nSet knot vectors, control points, and weights for the NURBS surface object Deallocate local arrays Export the control points to a VTK file Generate the NURBS surface with resolutions of 30 in both dimensions Export the generated surface to a VTK file Show the control geometry and geometry using PyVista Print size of the knot vectors\nInsert knots 0.25, twice and 0.75, once in both directions\nPrint size of the knot vectors after inserting knots\nPrint the degrees Elevate degree by 2 in both directions\nPrint the degrees after elevating Print size of the knot vectors\nRemove knots 0.25, twice and 0.75, once in both directions\nPrint size of the knot vectors after removing knots\nGenerate the refined NURBS surface with resolutions of 30 in both dimensions Export updated control points to a VTK file Export the refined generated surface to a VTK file Show the control geometry and geometry using PyVista Rotate the control points Rotate the generated curve Translate the control points Translate the generated curve Export the transformed control points to a VTK file Export the transformed generated volume to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS surface object Calls program~~example3_surface~~CallsGraph program~example3_surface example3_surface none~get_degree~2 nurbs_surface%get_degree program~example3_surface->none~get_degree~2 none~get_knot~2 nurbs_surface%get_knot program~example3_surface->none~get_knot~2 none~set~2 nurbs_surface%set program~example3_surface->none~set~2 proc~create~2 nurbs_surface%create program~example3_surface->proc~create~2 proc~elevate_degree~2 nurbs_surface%elevate_degree program~example3_surface->proc~elevate_degree~2 proc~export_xc~2 nurbs_surface%export_Xc program~example3_surface->proc~export_xc~2 proc~export_xg~2 nurbs_surface%export_Xg program~example3_surface->proc~export_xg~2 proc~finalize~2 nurbs_surface%finalize program~example3_surface->proc~finalize~2 proc~generate_xc generate_Xc program~example3_surface->proc~generate_xc proc~insert_knots~2 nurbs_surface%insert_knots program~example3_surface->proc~insert_knots~2 proc~remove_knots~2 nurbs_surface%remove_knots program~example3_surface->proc~remove_knots~2 proc~rotate_xc~2 nurbs_surface%rotate_Xc program~example3_surface->proc~rotate_xc~2 proc~rotate_xg~2 nurbs_surface%rotate_Xg program~example3_surface->proc~rotate_xg~2 proc~show~2 nurbs_surface%show program~example3_surface->proc~show~2 proc~translate_xc~2 nurbs_surface%translate_Xc program~example3_surface->proc~translate_xc~2 proc~translate_xg~2 nurbs_surface%translate_Xg program~example3_surface->proc~translate_xg~2 proc~get_degree_all~2 nurbs_surface%get_degree_all none~get_degree~2->proc~get_degree_all~2 proc~get_degree_dir~2 nurbs_surface%get_degree_dir none~get_degree~2->proc~get_degree_dir~2 proc~get_knot_all~2 nurbs_surface%get_knot_all none~get_knot~2->proc~get_knot_all~2 proc~get_knoti~2 nurbs_surface%get_knoti none~get_knot~2->proc~get_knoti~2 proc~set1~2 nurbs_surface%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_surface%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 interface~ndgrid ndgrid proc~create~2->interface~ndgrid proc~is_rational~2 nurbs_surface%is_rational proc~create~2->proc~is_rational~2 proc~elevate_degree~2->none~get_knot~2 proc~elevate_degree~2->none~set~2 proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree~2->proc~elevate_degree_a_5_9 proc~elevate_degree~2->proc~is_rational~2 proc~cmp_elem_xc_vis~2 nurbs_surface%cmp_elem_Xc_vis proc~export_xc~2->proc~cmp_elem_xc_vis~2 proc~cmp_elem_xg_vis~2 nurbs_surface%cmp_elem_Xg_vis proc~export_xg~2->proc~cmp_elem_xg_vis~2 proc~insert_knots~2->none~get_knot~2 proc~insert_knots~2->none~set~2 interface~compute_multiplicity compute_multiplicity proc~insert_knots~2->interface~compute_multiplicity proc~findspan findspan proc~insert_knots~2->proc~findspan proc~insert_knot_a_5_1 insert_knot_A_5_1 proc~insert_knots~2->proc~insert_knot_a_5_1 proc~insert_knots~2->proc~is_rational~2 proc~remove_knots~2->none~get_knot~2 proc~remove_knots~2->none~set~2 proc~remove_knots~2->interface~compute_multiplicity proc~remove_knots~2->proc~findspan proc~remove_knots~2->proc~is_rational~2 proc~remove_knots_a_5_8 remove_knots_A_5_8 proc~remove_knots~2->proc~remove_knots_a_5_8 proc~rotation rotation proc~rotate_xc~2->proc~rotation proc~rotate_xg~2->proc~rotation proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~elevate_degree_a_5_9->interface~compute_multiplicity proc~bincoeff bincoeff proc~elevate_degree_a_5_9->proc~bincoeff cosd cosd proc~rotation->cosd sind sind proc~rotation->sind proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2->proc~cmp_nc~2 proc~set2~2->proc~cmp_nc~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~factln factln proc~bincoeff->proc~factln proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 proc~cmp_nc~2->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial real(kind=rk), allocatable :: Wc (:) Arrays for control points and weights real(kind=rk), allocatable :: Xc (:,:) Arrays for control points and weights real(kind=rk) :: knot1 (6) Arrays for knot vectors in both dimensions real(kind=rk) :: knot2 (6) Arrays for knot vectors in both dimensions type( nurbs_surface ) :: nurbs Declare a NURBS surface object Functions function generate_Xc (num_rows, num_cols, peak_height) result(control_points) Arguments Type Intent Optional Attributes Name integer, intent(in) :: num_rows integer, intent(in) :: num_cols real(kind=rk), intent(in) :: peak_height Return Value real(kind=rk), allocatable, (:,:) Source Code program example3_surface use forcad implicit none type ( nurbs_surface ) :: nurbs !! Declare a NURBS surface object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights real ( rk ) :: knot1 ( 6 ), knot2 ( 6 ) !! Arrays for knot vectors in both dimensions !----------------------------------------------------------------------------- ! Setting up the NURBS surface !----------------------------------------------------------------------------- !> Define control points for the NURBS surface Xc = generate_Xc ( 3 , 3 , 1.0_rk ) !> Define weights for the control points allocate ( Wc ( size ( Xc , 1 ))) Wc = 1.0_rk Wc ( 2 ) = 2.0_rk !> Define knot vectors for both dimensions knot1 = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] knot2 = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] !> Set knot vectors, control points, and weights for the NURBS surface object call nurbs % set ( knot1 , knot2 , Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export the control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_surface_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS surface !----------------------------------------------------------------------------- !> Generate the NURBS surface with resolutions of 30 in both dimensions call nurbs % create ( 30 , 30 ) !> Export the generated surface to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_surface_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_surface_Xc.vtk' , 'vtk/nurbs_surface_Xg.vtk' ) !----------------------------------------------------------------------------- ! Refinements !----------------------------------------------------------------------------- !> Print size of the knot vectors print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) !> Insert knots 0.25, twice and 0.75, once in both directions call nurbs % insert_knots ( 1 , [ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) ! direction 1 call nurbs % insert_knots ( 2 , [ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) ! direction 2 !> Print size of the knot vectors after inserting knots print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) !> Print the degrees print * , nurbs % get_degree () !> Elevate degree by 2 in both directions call nurbs % elevate_degree ( 1 , 2 ) ! direction 1 call nurbs % elevate_degree ( 2 , 2 ) ! direction 2 !> Print the degrees after elevating print * , nurbs % get_degree () !> Print size of the knot vectors print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) !> Remove knots 0.25, twice and 0.75, once in both directions call nurbs % remove_knots ( 1 , [ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) ! direction 1 call nurbs % remove_knots ( 2 , [ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) ! direction 2 !> Print size of the knot vectors after removing knots print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) !> Generate the refined NURBS surface with resolutions of 30 in both dimensions call nurbs % create () !> Export updated control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_surface_Xc2.vtk' ) !> Export the refined generated surface to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_surface_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_surface_Xc2.vtk' , 'vtk/nurbs_surface_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Transformations !----------------------------------------------------------------------------- !> Rotate the control points call nurbs % rotate_Xc ( alpha = 4 5.0_rk , beta = 0.0_rk , theta = 9 0.0_rk ) !> Rotate the generated curve call nurbs % rotate_Xg ( alpha =- 4 5.0_rk , beta = 0.0_rk , theta =- 9 0.0_rk ) !> Translate the control points call nurbs % translate_Xc ([ 1.0_rk , 2.0_rk , - 3.0_rk ]) !> Translate the generated curve call nurbs % translate_Xg ([ - 1.0_rk , - 2.0_rk , 3.0_rk ]) !> Export the transformed control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_surface_Xc3.vtk' ) !> Export the transformed generated volume to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_surface_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_surface_Xc3.vtk' , 'vtk/nurbs_surface_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS surface object call nurbs % finalize () contains !----------------------------------------------------------------------------- function generate_Xc ( num_rows , num_cols , peak_height ) result ( control_points ) integer , intent ( in ) :: num_rows , num_cols real ( rk ), intent ( in ) :: peak_height real ( rk ), allocatable :: control_points (:,:) integer :: i , j real ( rk ) :: x_spacing , y_spacing , x_offset , y_offset x_spacing = 1.0_rk / real ( num_cols - 1 , rk ) y_spacing = 1.0_rk / real ( num_rows - 1 , rk ) x_offset = - 0.5_rk y_offset = - 0.5_rk allocate ( control_points ( num_rows * num_cols , 3 )) do i = 1 , num_rows do j = 1 , num_cols control_points (( i - 1 ) * num_cols + j , 1 ) = x_offset + real ( j - 1 , rk ) * x_spacing control_points (( i - 1 ) * num_cols + j , 2 ) = y_offset + real ( i - 1 , rk ) * y_spacing control_points (( i - 1 ) * num_cols + j , 3 ) = & peak_height * exp ( - (( control_points (( i - 1 ) * num_cols + j , 1 ) ** 2 ) & + ( control_points (( i - 1 ) * num_cols + j , 2 ) ** 2 ))) + 0.5_rk * peak_height * 0.2_rk end do end do end function !----------------------------------------------------------------------------- end program example3_surface","tags":"","loc":"program/example3_surface.html"},{"title":"example1_curve – ForCAD","text":"Uses forcad program~~example1_curve~~UsesGraph program~example1_curve example1_curve module~forcad forcad program~example1_curve->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. This program demonstrates the usage of a NURBS (Non-Uniform Rational B-Spline) curve object to create and finalize a NURBS curve.\nIt sets up control points, weights, and knot vectors for all three dimensions, generates the curve, and exports the control points and the curve to VTK files. Define control points for the NURBS curve\nDefine weights for the control points (optional)\nDefine knot vector Set knot vector, control points, and weights for the NURBS curve object.\nWc is optional Deallocate local arrays Export control points to a VTK file Generate the NURBS curve with a resolution of 20 Export the generated curve to a VTK file Show the control geometry and geometry using PyVista Print size of the knot vector Insert knots 0.25, twice and 0.75, once Print size of the updated knot vector Print the degree of the curve Elevate the degree of the curve (2 times) Print the updated degree of the curve Print size of the knot vector Remove knots 0.25, twice and 0.75, once Print size of the updated knot vector Generate the refined curve with a resolution of 20 Export updated control points to a VTK file Export the refined generated curve to a VTK file Show the control geometry and geometry using PyVista Rotate the control points Rotate the generated curve Translate the control points Translate the generated curve Export the transformed control points to a VTK file Export the transformed generated volume to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS curve object Calls program~~example1_curve~~CallsGraph program~example1_curve example1_curve none~get_knot~3 nurbs_curve%get_knot program~example1_curve->none~get_knot~3 none~set~3 nurbs_curve%set program~example1_curve->none~set~3 proc~create~3 nurbs_curve%create program~example1_curve->proc~create~3 proc~elevate_degree~3 nurbs_curve%elevate_degree program~example1_curve->proc~elevate_degree~3 proc~export_xc~3 nurbs_curve%export_Xc program~example1_curve->proc~export_xc~3 proc~export_xg~3 nurbs_curve%export_Xg program~example1_curve->proc~export_xg~3 proc~finalize~3 nurbs_curve%finalize program~example1_curve->proc~finalize~3 proc~get_degree nurbs_curve%get_degree program~example1_curve->proc~get_degree proc~insert_knots~3 nurbs_curve%insert_knots program~example1_curve->proc~insert_knots~3 proc~remove_knots~3 nurbs_curve%remove_knots program~example1_curve->proc~remove_knots~3 proc~rotate_xc~3 nurbs_curve%rotate_Xc program~example1_curve->proc~rotate_xc~3 proc~rotate_xg~3 nurbs_curve%rotate_Xg program~example1_curve->proc~rotate_xg~3 proc~show~3 nurbs_curve%show program~example1_curve->proc~show~3 proc~translate_xc~3 nurbs_curve%translate_Xc program~example1_curve->proc~translate_xc~3 proc~translate_xg~3 nurbs_curve%translate_Xg program~example1_curve->proc~translate_xg~3 proc~get_knot_all~3 nurbs_curve%get_knot_all none~get_knot~3->proc~get_knot_all~3 proc~get_knoti~3 nurbs_curve%get_knoti none~get_knot~3->proc~get_knoti~3 proc~set1~3 nurbs_curve%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_curve%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_curve%set3 none~set~3->proc~set3~3 proc~is_rational~3 nurbs_curve%is_rational proc~create~3->proc~is_rational~3 proc~elevate_degree~3->none~set~3 proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree~3->proc~elevate_degree_a_5_9 proc~elevate_degree~3->proc~is_rational~3 proc~cmp_elem_xc_vis~3 nurbs_curve%cmp_elem_Xc_vis proc~export_xc~3->proc~cmp_elem_xc_vis~3 proc~cmp_elem_xg_vis~3 nurbs_curve%cmp_elem_Xg_vis proc~export_xg~3->proc~cmp_elem_xg_vis~3 proc~insert_knots~3->none~set~3 interface~compute_multiplicity compute_multiplicity proc~insert_knots~3->interface~compute_multiplicity proc~findspan findspan proc~insert_knots~3->proc~findspan proc~insert_knot_a_5_1 insert_knot_A_5_1 proc~insert_knots~3->proc~insert_knot_a_5_1 proc~insert_knots~3->proc~is_rational~3 proc~remove_knots~3->none~set~3 proc~remove_knots~3->interface~compute_multiplicity proc~remove_knots~3->proc~findspan proc~remove_knots~3->proc~is_rational~3 proc~remove_knots_a_5_8 remove_knots_A_5_8 proc~remove_knots~3->proc~remove_knots_a_5_8 proc~rotation rotation proc~rotate_xc~3->proc~rotation proc~rotate_xg~3->proc~rotation proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~elevate_degree_a_5_9->interface~compute_multiplicity proc~bincoeff bincoeff proc~elevate_degree_a_5_9->proc~bincoeff cosd cosd proc~rotation->cosd sind sind proc~rotation->sind proc~cmp_degree~3 nurbs_curve%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~factln factln proc~bincoeff->proc~factln proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity~3->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial real(kind=rk), allocatable :: Wc (:) Arrays for control points and weights real(kind=rk), allocatable :: Xc (:,:) Arrays for control points and weights real(kind=rk) :: knot (6) Array for knot vector type( nurbs_curve ) :: nurbs Declare a NURBS curve object Source Code program example1_curve use forcad , only : rk , nurbs_curve implicit none type ( nurbs_curve ) :: nurbs !! Declare a NURBS curve object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights real ( rk ) :: knot ( 6 ) !! Array for knot vector !----------------------------------------------------------------------------- ! Setting up the NURBS curve !----------------------------------------------------------------------------- !> Define control points for the NURBS curve allocate ( Xc ( 3 , 3 )) Xc ( 1 ,:) = [ 0.0_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 0.0_rk , 5.0_rk , 0.0_rk ] Xc ( 3 ,:) = [ 5.0_rk , 5.0_rk , 0.0_rk ] !> Define weights for the control points (optional) allocate ( Wc ( 3 )) Wc = [ 1.0_rk , 2.0_rk , 0.3_rk ] !> Define knot vector knot = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] !> Set knot vector, control points, and weights for the NURBS curve object. !> Wc is optional call nurbs % set ( knot , Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_curve_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS curve !----------------------------------------------------------------------------- !> Generate the NURBS curve with a resolution of 20 call nurbs % create ( res = 20 ) !> Export the generated curve to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_curve_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_curve_Xc.vtk' , 'vtk/nurbs_curve_Xg.vtk' ) !----------------------------------------------------------------------------- ! Refinements !----------------------------------------------------------------------------- !> Print size of the knot vector print * , size ( nurbs % get_knot ()) !> Insert knots 0.25, twice and 0.75, once call nurbs % insert_knots ([ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) !> Print size of the updated knot vector print * , size ( nurbs % get_knot ()) !> Print the degree of the curve print * , nurbs % get_degree () !> Elevate the degree of the curve (2 times) call nurbs % elevate_degree ( 2 ) !> Print the updated degree of the curve print * , nurbs % get_degree () !> Print size of the knot vector print * , size ( nurbs % get_knot ()) !> Remove knots 0.25, twice and 0.75, once call nurbs % remove_knots ([ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) !> Print size of the updated knot vector print * , size ( nurbs % get_knot ()) !> Generate the refined curve with a resolution of 20 call nurbs % create () !> Export updated control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_curve_Xc2.vtk' ) !> Export the refined generated curve to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_curve_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_curve_Xc2.vtk' , 'vtk/nurbs_curve_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Transformations !----------------------------------------------------------------------------- !> Rotate the control points call nurbs % rotate_Xc ( alpha = 4 5.0_rk , beta = 0.0_rk , theta = 9 0.0_rk ) !> Rotate the generated curve call nurbs % rotate_Xg ( alpha =- 4 5.0_rk , beta = 0.0_rk , theta =- 9 0.0_rk ) !> Translate the control points call nurbs % translate_Xc ([ 1.0_rk , 2.0_rk , - 3.0_rk ]) !> Translate the generated curve call nurbs % translate_Xg ([ - 1.0_rk , - 2.0_rk , 3.0_rk ]) !> Export the transformed control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_curve_Xc3.vtk' ) !> Export the transformed generated volume to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_curve_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_curve_Xc3.vtk' , 'vtk/nurbs_curve_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS curve object call nurbs % finalize () end program example1_curve","tags":"","loc":"program/example1_curve.html"},{"title":"shape_ring_3d – ForCAD","text":"Uses forcad program~~shape_ring_3d~~UsesGraph program~shape_ring_3d shape_ring_3d module~forcad forcad program~shape_ring_3d->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set up a ring shape centered at 0,0,0 with inner radius 1, outer radius 2, and length 1. Export the control points to a VTK file for visualization. Create the shape using the specified number of elements in each direction. Export the geometry to a VTK file for visualization. Show the control geometry and geometry using PyVista Finalize and clean up the shape object. Calls program~~shape_ring_3d~~CallsGraph program~shape_ring_3d shape_ring_3d proc~create nurbs_volume%create program~shape_ring_3d->proc~create proc~export_xc nurbs_volume%export_Xc program~shape_ring_3d->proc~export_xc proc~export_xg nurbs_volume%export_Xg program~shape_ring_3d->proc~export_xg proc~finalize nurbs_volume%finalize program~shape_ring_3d->proc~finalize proc~set_ring nurbs_volume%set_ring program~shape_ring_3d->proc~set_ring proc~show nurbs_volume%show program~shape_ring_3d->proc~show interface~ndgrid ndgrid proc~create->interface~ndgrid proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~export_xc->proc~cmp_elem_xc_vis proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~export_xg->proc~cmp_elem_xg_vis none~set nurbs_volume%set proc~set_ring->none~set proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_volume ) :: shape","tags":"","loc":"program/shape_ring_3d.html"},{"title":"shape_tetragon – ForCAD","text":"Uses forcad program~~shape_tetragon~~UsesGraph program~shape_tetragon shape_tetragon module~forcad forcad program~shape_tetragon->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set a tetragon with lengths of 2.0 and 3.0 and 3 and 4 control points in each direction\nThe weights of the control points (Wc) are optional. Export the control points to a VTK file Generate the NURBS surface with resolutions of 30 in both dimensions Export the generated surface to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS surface object Calls program~~shape_tetragon~~CallsGraph program~shape_tetragon shape_tetragon proc~create~2 nurbs_surface%create program~shape_tetragon->proc~create~2 proc~export_xc~2 nurbs_surface%export_Xc program~shape_tetragon->proc~export_xc~2 proc~export_xg~2 nurbs_surface%export_Xg program~shape_tetragon->proc~export_xg~2 proc~finalize~2 nurbs_surface%finalize program~shape_tetragon->proc~finalize~2 proc~set_tetragon nurbs_surface%set_tetragon program~shape_tetragon->proc~set_tetragon proc~show~2 nurbs_surface%show program~shape_tetragon->proc~show~2 interface~ndgrid ndgrid proc~create~2->interface~ndgrid proc~is_rational~2 nurbs_surface%is_rational proc~create~2->proc~is_rational~2 proc~cmp_elem_xc_vis~2 nurbs_surface%cmp_elem_Xc_vis proc~export_xc~2->proc~cmp_elem_xc_vis~2 proc~cmp_elem_xg_vis~2 nurbs_surface%cmp_elem_Xg_vis proc~export_xg~2->proc~cmp_elem_xg_vis~2 none~set~2 nurbs_surface%set proc~set_tetragon->none~set~2 proc~tetragon_xc tetragon_Xc proc~set_tetragon->proc~tetragon_xc proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1~2 nurbs_surface%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_surface%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2->proc~cmp_nc~2 proc~set2~2->proc~cmp_nc~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~2->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_surface ) :: shape Declare a NURBS surface object","tags":"","loc":"program/shape_tetragon.html"},{"title":"nearest_point_1d – ForCAD","text":"Uses forcad program~~nearest_point_1d~~UsesGraph program~nearest_point_1d nearest_point_1d module~forcad forcad program~nearest_point_1d->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set a circle with radius 2.0 and center at [0.0, 0.0, 0.0] Generate the NURBS circle with a resolution of 100 Find the nearest point on the curve to a given point\nFinalize the NURBS curve object Calls program~~nearest_point_1d~~CallsGraph program~nearest_point_1d nearest_point_1d proc~create~3 nurbs_curve%create program~nearest_point_1d->proc~create~3 proc~finalize~3 nurbs_curve%finalize program~nearest_point_1d->proc~finalize~3 proc~nearest_point~3 nurbs_curve%nearest_point program~nearest_point_1d->proc~nearest_point~3 proc~set_circle nurbs_curve%set_circle program~nearest_point_1d->proc~set_circle proc~is_rational~3 nurbs_curve%is_rational proc~create~3->proc~is_rational~3 none~set~3 nurbs_curve%set proc~set_circle->none~set~3 proc~set1~3 nurbs_curve%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_curve%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_curve%set3 none~set~3->proc~set3~3 proc~cmp_degree~3 nurbs_curve%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 proc~repelem repelem proc~compute_knot_vector->proc~repelem interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial integer :: id id of the nearest point real(kind=rk), allocatable :: nearest_Xg (:) Coordinates of the nearest point on the curve real(kind=rk) :: nearest_Xt Corresponding parametric coordinates of the nearest point type( nurbs_curve ) :: shape Declare a NURBS curve object","tags":"","loc":"program/nearest_point_1d.html"},{"title":"example_nurbs_curve – ForCAD","text":"Uses forcad program~~example_nurbs_curve~~UsesGraph program~example_nurbs_curve example_nurbs_curve module~forcad forcad program~example_nurbs_curve->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. This program demonstrates the usage of a NURBS curve object to create, and finalize a NURBS curve.\nIt sets up control points and weights, generates the curve, and exports the control points\nand the curve to VTK files at various stages. Define control points for the NURBS curve Define weights for the control points Set control points and weights for the NURBS curve object Deallocate local arrays Export initial control points to a VTK file Generate the NURBS curve with a resolution of 500 Export the generated curve to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS curve object Calls program~~example_nurbs_curve~~CallsGraph program~example_nurbs_curve example_nurbs_curve none~set~3 nurbs_curve%set program~example_nurbs_curve->none~set~3 proc~create~3 nurbs_curve%create program~example_nurbs_curve->proc~create~3 proc~export_xc~3 nurbs_curve%export_Xc program~example_nurbs_curve->proc~export_xc~3 proc~export_xg~3 nurbs_curve%export_Xg program~example_nurbs_curve->proc~export_xg~3 proc~finalize~3 nurbs_curve%finalize program~example_nurbs_curve->proc~finalize~3 proc~generate_xc~2 generate_Xc program~example_nurbs_curve->proc~generate_xc~2 proc~show~3 nurbs_curve%show program~example_nurbs_curve->proc~show~3 proc~set1~3 nurbs_curve%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_curve%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_curve%set3 none~set~3->proc~set3~3 proc~is_rational~3 nurbs_curve%is_rational proc~create~3->proc~is_rational~3 proc~cmp_elem_xc_vis~3 nurbs_curve%cmp_elem_Xc_vis proc~export_xc~3->proc~cmp_elem_xc_vis~3 proc~cmp_elem_xg_vis~3 nurbs_curve%cmp_elem_Xg_vis proc~export_xg~3->proc~cmp_elem_xg_vis~3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~cmp_degree~3 nurbs_curve%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 proc~repelem repelem proc~compute_knot_vector->proc~repelem interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial real(kind=rk), allocatable :: Wc (:) Arrays for control points and weights real(kind=rk), allocatable :: Xc (:,:) Arrays for control points and weights type( nurbs_curve ) :: nurbs Declare a NURBS curve object Functions function generate_Xc (num_coils, radius, height, num_points_per_coil) result(control_points) Arguments Type Intent Optional Attributes Name integer, intent(in) :: num_coils real(kind=rk), intent(in) :: radius real(kind=rk), intent(in) :: height integer, intent(in) :: num_points_per_coil Return Value real(kind=rk), allocatable, (:,:) Source Code program example_nurbs_curve use forcad , only : rk , nurbs_curve implicit none type ( nurbs_curve ) :: nurbs !! Declare a NURBS curve object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights !----------------------------------------------------------------------------- ! Setting up the NURBS curve !----------------------------------------------------------------------------- !> Define control points for the NURBS curve Xc = generate_Xc ( 5 , 1.0_rk , 2.0_rk , 20 ) !> Define weights for the control points allocate ( Wc ( size ( Xc , 1 )), source = 1.0_rk ) !> Set control points and weights for the NURBS curve object call nurbs % set ( Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export initial control points to a VTK file call nurbs % export_Xc ( 'vtk/demo_curve_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS curve !----------------------------------------------------------------------------- !> Generate the NURBS curve with a resolution of 500 call nurbs % create ( res = 500 ) !> Export the generated curve to a VTK file call nurbs % export_Xg ( 'vtk/demo_curve_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/demo_curve_Xc.vtk' , 'vtk/demo_curve_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS curve object call nurbs % finalize () contains !----------------------------------------------------------------------------- function generate_Xc ( num_coils , radius , height , num_points_per_coil ) result ( control_points ) integer , intent ( in ) :: num_coils , num_points_per_coil real ( rk ), intent ( in ) :: radius , height real ( rk ), allocatable :: control_points (:,:) integer :: coil , i real ( rk ) :: theta , coil_height allocate ( control_points ( num_coils * num_points_per_coil , 3 )) do coil = 1 , num_coils coil_height = height * real ( coil - 1 , rk ) / real ( num_coils - 1 , rk ) theta = 0.0_rk do i = 1 , num_points_per_coil theta = theta + 2.0_rk * acos ( - 1.0_rk ) / real ( num_points_per_coil , rk ) control_points (( coil - 1 ) * num_points_per_coil + i , 1 ) = radius * cos ( theta ) control_points (( coil - 1 ) * num_points_per_coil + i , 2 ) = radius * sin ( theta ) control_points (( coil - 1 ) * num_points_per_coil + i , 3 ) = coil_height end do end do end function !----------------------------------------------------------------------------- end program example_nurbs_curve","tags":"","loc":"program/example_nurbs_curve.html"},{"title":"shape_half_ring_2d – ForCAD","text":"Uses forcad program~~shape_half_ring_2d~~UsesGraph program~shape_half_ring_2d shape_half_ring_2d module~forcad forcad program~shape_half_ring_2d->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set up a half ring shape centered at 0,0,0 with inner radius 1 and outer radius 2. Export the control points to a VTK file for visualization. Create the shape using the specified number of elements in each direction. Export the geometry to a VTK file for visualization. Show the control geometry and geometry using PyVista Finalize and clean up the shape object. Calls program~~shape_half_ring_2d~~CallsGraph program~shape_half_ring_2d shape_half_ring_2d proc~create~2 nurbs_surface%create program~shape_half_ring_2d->proc~create~2 proc~export_xc~2 nurbs_surface%export_Xc program~shape_half_ring_2d->proc~export_xc~2 proc~export_xg~2 nurbs_surface%export_Xg program~shape_half_ring_2d->proc~export_xg~2 proc~finalize~2 nurbs_surface%finalize program~shape_half_ring_2d->proc~finalize~2 proc~set_half_ring~2 nurbs_surface%set_half_ring program~shape_half_ring_2d->proc~set_half_ring~2 proc~show~2 nurbs_surface%show program~shape_half_ring_2d->proc~show~2 interface~ndgrid ndgrid proc~create~2->interface~ndgrid proc~is_rational~2 nurbs_surface%is_rational proc~create~2->proc~is_rational~2 proc~cmp_elem_xc_vis~2 nurbs_surface%cmp_elem_Xc_vis proc~export_xc~2->proc~cmp_elem_xc_vis~2 proc~cmp_elem_xg_vis~2 nurbs_surface%cmp_elem_Xg_vis proc~export_xg~2->proc~cmp_elem_xg_vis~2 none~set~2 nurbs_surface%set proc~set_half_ring~2->none~set~2 proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1~2 nurbs_surface%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_surface%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2->proc~cmp_nc~2 proc~set2~2->proc~cmp_nc~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~2->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_surface ) :: shape","tags":"","loc":"program/shape_half_ring_2d.html"},{"title":"shape_circle – ForCAD","text":"Uses forcad program~~shape_circle~~UsesGraph program~shape_circle shape_circle module~forcad forcad program~shape_circle->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set a circle with radius 2.0 and center at [0.0, 0.0, 0.0] Export control points to a VTK file Generate the NURBS circle with a resolution of 100 Export the generated cirlce to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS curve object Calls program~~shape_circle~~CallsGraph program~shape_circle shape_circle proc~create~3 nurbs_curve%create program~shape_circle->proc~create~3 proc~export_xc~3 nurbs_curve%export_Xc program~shape_circle->proc~export_xc~3 proc~export_xg~3 nurbs_curve%export_Xg program~shape_circle->proc~export_xg~3 proc~finalize~3 nurbs_curve%finalize program~shape_circle->proc~finalize~3 proc~set_circle nurbs_curve%set_circle program~shape_circle->proc~set_circle proc~show~3 nurbs_curve%show program~shape_circle->proc~show~3 proc~is_rational~3 nurbs_curve%is_rational proc~create~3->proc~is_rational~3 proc~cmp_elem_xc_vis~3 nurbs_curve%cmp_elem_Xc_vis proc~export_xc~3->proc~cmp_elem_xc_vis~3 proc~cmp_elem_xg_vis~3 nurbs_curve%cmp_elem_Xg_vis proc~export_xg~3->proc~cmp_elem_xg_vis~3 none~set~3 nurbs_curve%set proc~set_circle->none~set~3 proc~set1~3 nurbs_curve%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_curve%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_curve%set3 none~set~3->proc~set3~3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree~3 nurbs_curve%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 proc~repelem repelem proc~compute_knot_vector->proc~repelem interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_curve ) :: shape","tags":"","loc":"program/shape_circle.html"},{"title":"example_ppm1 – ForCAD","text":"Uses forcad fortime forcolormap forimage program~~example_ppm1~~UsesGraph program~example_ppm1 example_ppm1 forcolormap forcolormap program~example_ppm1->forcolormap forimage forimage program~example_ppm1->forimage fortime fortime program~example_ppm1->fortime module~forcad forcad program~example_ppm1->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Visualization of NURBS surfaces using ForCAD, ForImage and ForColorMap libraries\nThis example converts NURBS surfaces (vector) to an image (raster) using ForCAD, ForImage and ForColorMap libraries. Set the shape parameters for a tetragon\nSet the shape parameters for a ring\nSet the shape parameters for a ring\nSet the shape parameters for a ring\nSet the shape parameters for a ring Calls program~~example_ppm1~~CallsGraph program~example_ppm1 example_ppm1 compute_rgb compute_rgb program~example_ppm1->compute_rgb export_pnm export_pnm program~example_ppm1->export_pnm get_b get_b program~example_ppm1->get_b get_g get_g program~example_ppm1->get_g get_r get_r program~example_ppm1->get_r none~get_xg~2 nurbs_surface%get_Xg program~example_ppm1->none~get_xg~2 proc~create~2 nurbs_surface%create program~example_ppm1->proc~create~2 proc~finalize~2 nurbs_surface%finalize program~example_ppm1->proc~finalize~2 proc~get_ng~2 nurbs_surface%get_ng program~example_ppm1->proc~get_ng~2 proc~set_ring~2 nurbs_surface%set_ring program~example_ppm1->proc~set_ring~2 proc~set_tetragon nurbs_surface%set_tetragon program~example_ppm1->proc~set_tetragon set set program~example_ppm1->set set_pnm set_pnm program~example_ppm1->set_pnm timer_start timer_start program~example_ppm1->timer_start timer_stop timer_stop program~example_ppm1->timer_stop proc~get_xg_all~2 nurbs_surface%get_Xg_all none~get_xg~2->proc~get_xg_all~2 proc~get_xgid~2 nurbs_surface%get_Xgid none~get_xg~2->proc~get_xgid~2 proc~get_xgi~2 nurbs_surface%get_Xgi none~get_xg~2->proc~get_xgi~2 interface~ndgrid ndgrid proc~create~2->interface~ndgrid proc~is_rational~2 nurbs_surface%is_rational proc~create~2->proc~is_rational~2 none~set~2 nurbs_surface%set proc~set_ring~2->none~set~2 proc~set_tetragon->none~set~2 proc~tetragon_xc tetragon_Xc proc~set_tetragon->proc~tetragon_xc proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1~2 nurbs_surface%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_surface%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2->proc~cmp_nc~2 proc~set2~2->proc~cmp_nc~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~2->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial real(kind=rk), allocatable :: Xg (:,:) real(kind=rk) :: aspect_ratio type(color) :: background_color integer :: blue real(kind=rk) :: center (3) type(colormap) :: cmap integer :: green integer :: height integer :: i integer, allocatable :: idx (:,:) type(format_pnm) :: image real(kind=rk) :: inner_radius integer :: ng (2) real(kind=rk) :: outer_radius integer(kind=ik), allocatable :: px (:,:) integer :: red integer :: res1 integer :: res2 type( nurbs_surface ) :: shape type(timer) :: t integer :: width real(kind=rk), allocatable :: z_values (:)","tags":"","loc":"program/example_ppm1.html"},{"title":"example_nurbs_volume – ForCAD","text":"Uses forcad program~~example_nurbs_volume~~UsesGraph program~example_nurbs_volume example_nurbs_volume module~forcad forcad program~example_nurbs_volume->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. This program demonstrates the usage of a NURBS volume object to create, and finalize a NURBS volume.\nIt sets up control points and weights, generates the volume, and exports the control points\nand the volume to VTK files at various stages. Define control points for the NURBS volume Define weights for the control points Set control points and weights for the NURBS volume object Deallocate local arrays Export initial control points to a VTK file Generate the NURBS volume with a resolution of 15X15X15 Export the generated volume to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS volume object Calls program~~example_nurbs_volume~~CallsGraph program~example_nurbs_volume example_nurbs_volume none~set nurbs_volume%set program~example_nurbs_volume->none~set proc~create nurbs_volume%create program~example_nurbs_volume->proc~create proc~export_xc nurbs_volume%export_Xc program~example_nurbs_volume->proc~export_xc proc~export_xg nurbs_volume%export_Xg program~example_nurbs_volume->proc~export_xg proc~finalize nurbs_volume%finalize program~example_nurbs_volume->proc~finalize proc~generate_xc~3 generate_Xc program~example_nurbs_volume->proc~generate_xc~3 proc~show nurbs_volume%show program~example_nurbs_volume->proc~show proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 interface~ndgrid ndgrid proc~create->interface~ndgrid proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~export_xc->proc~cmp_elem_xc_vis proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~export_xg->proc~cmp_elem_xg_vis proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial real(kind=rk), allocatable :: Wc (:) Arrays for control points and weights real(kind=rk), allocatable :: Xc (:,:) Arrays for control points and weights type( nurbs_volume ) :: nurbs Declare a NURBS volume object Functions function generate_Xc (L) result(control_points) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: L Return Value real(kind=rk), allocatable, (:,:) Source Code program example_nurbs_volume use forcad , only : rk , nurbs_volume implicit none type ( nurbs_volume ) :: nurbs !! Declare a NURBS volume object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights !----------------------------------------------------------------------------- ! Setting up the NURBS volume !----------------------------------------------------------------------------- !> Define control points for the NURBS volume Xc = generate_Xc ( 1.0_rk ) !> Define weights for the control points allocate ( Wc ( size ( Xc , 1 )), source = 1.0_rk ) !> Set control points and weights for the NURBS volume object call nurbs % set ([ 2 , 2 , 2 ], Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export initial control points to a VTK file call nurbs % export_Xc ( 'vtk/demo_volume_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS volume !----------------------------------------------------------------------------- !> Generate the NURBS volume with a resolution of 15X15X15 call nurbs % create ( 15 , 15 , 15 ) !> Export the generated volume to a VTK file call nurbs % export_Xg ( 'vtk/demo_volume_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/demo_volume_Xc.vtk' , 'vtk/demo_volume_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS volume object call nurbs % finalize () contains !----------------------------------------------------------------------------- function generate_Xc ( L ) result ( control_points ) implicit none real ( rk ), intent ( in ) :: L real ( rk ), allocatable :: control_points (:,:) real ( rk ) :: L2 L2 = L / 2.0_rk allocate ( control_points ( 8 , 3 )) control_points ( 1 ,:) = [ L2 , - L2 , L2 ] control_points ( 2 ,:) = [ L2 , - L2 , - L2 ] control_points ( 3 ,:) = [ - L2 , - L2 , L2 ] control_points ( 4 ,:) = [ - L2 , - L2 , - L2 ] control_points ( 5 ,:) = [ L2 , L2 , L2 ] control_points ( 6 ,:) = [ L2 , L2 , - L2 ] control_points ( 7 ,:) = [ - L2 , L2 , L2 ] control_points ( 8 ,:) = [ - L2 , L2 , - L2 ] end function !----------------------------------------------------------------------------- end program example_nurbs_volume","tags":"","loc":"program/example_nurbs_volume.html"},{"title":"example_ppm3 – ForCAD","text":"Uses forcad fortime forcolormap forimage program~~example_ppm3~~UsesGraph program~example_ppm3 example_ppm3 forcolormap forcolormap program~example_ppm3->forcolormap forimage forimage program~example_ppm3->forimage fortime fortime program~example_ppm3->fortime module~forcad forcad program~example_ppm3->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Visualization of NURBS surfaces using ForCAD, ForImage and ForColorMap libraries\nThis example converts NURBS surfaces (vector) to an image (raster) using ForCAD, ForImage and ForColorMap libraries. Set the shape parameters for a tetragon Calls program~~example_ppm3~~CallsGraph program~example_ppm3 example_ppm3 compute_rgb compute_rgb program~example_ppm3->compute_rgb export_pnm export_pnm program~example_ppm3->export_pnm get_b get_b program~example_ppm3->get_b get_g get_g program~example_ppm3->get_g get_r get_r program~example_ppm3->get_r none~get_xg~2 nurbs_surface%get_Xg program~example_ppm3->none~get_xg~2 proc~create~2 nurbs_surface%create program~example_ppm3->proc~create~2 proc~finalize~2 nurbs_surface%finalize program~example_ppm3->proc~finalize~2 proc~get_ng~2 nurbs_surface%get_ng program~example_ppm3->proc~get_ng~2 proc~modify_xc~2 nurbs_surface%modify_Xc program~example_ppm3->proc~modify_xc~2 proc~set_tetragon nurbs_surface%set_tetragon program~example_ppm3->proc~set_tetragon proc~translate_xc~2 nurbs_surface%translate_Xc program~example_ppm3->proc~translate_xc~2 set set program~example_ppm3->set set_pnm set_pnm program~example_ppm3->set_pnm timer_start timer_start program~example_ppm3->timer_start timer_stop timer_stop program~example_ppm3->timer_stop proc~get_xg_all~2 nurbs_surface%get_Xg_all none~get_xg~2->proc~get_xg_all~2 proc~get_xgid~2 nurbs_surface%get_Xgid none~get_xg~2->proc~get_xgid~2 proc~get_xgi~2 nurbs_surface%get_Xgi none~get_xg~2->proc~get_xgi~2 interface~ndgrid ndgrid proc~create~2->interface~ndgrid proc~is_rational~2 nurbs_surface%is_rational proc~create~2->proc~is_rational~2 none~get_knot~2 nurbs_surface%get_knot proc~modify_xc~2->none~get_knot~2 none~get_wc~2 nurbs_surface%get_Wc proc~modify_xc~2->none~get_wc~2 none~get_xc~2 nurbs_surface%get_Xc proc~modify_xc~2->none~get_xc~2 none~set~2 nurbs_surface%set proc~modify_xc~2->none~set~2 proc~set_tetragon->none~set~2 proc~tetragon_xc tetragon_Xc proc~set_tetragon->proc~tetragon_xc proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~get_knot_all~2 nurbs_surface%get_knot_all none~get_knot~2->proc~get_knot_all~2 proc~get_knoti~2 nurbs_surface%get_knoti none~get_knot~2->proc~get_knoti~2 proc~get_wc_all~2 nurbs_surface%get_Wc_all none~get_wc~2->proc~get_wc_all~2 proc~get_wci~2 nurbs_surface%get_Wci none~get_wc~2->proc~get_wci~2 proc~get_xc_all~2 nurbs_surface%get_Xc_all none~get_xc~2->proc~get_xc_all~2 proc~get_xcid~2 nurbs_surface%get_Xcid none~get_xc~2->proc~get_xcid~2 proc~get_xci~2 nurbs_surface%get_Xci none~get_xc~2->proc~get_xci~2 proc~set1~2 nurbs_surface%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_surface%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2->proc~cmp_nc~2 proc~set2~2->proc~cmp_nc~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~2->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial real(kind=rk), allocatable :: Xg (:,:) real(kind=rk) :: aspect_ratio type(color) :: background_color integer :: blue type(colormap) :: cmap integer :: green integer :: height integer :: i integer, allocatable :: idx (:,:) type(format_pnm) :: image integer :: ng (2) integer(kind=ik), allocatable :: px (:,:) integer :: red integer :: res1 integer :: res2 type( nurbs_surface ) :: shape type(timer) :: t integer :: width real(kind=rk), allocatable :: z_values (:)","tags":"","loc":"program/example_ppm3.html"},{"title":"example3_volume – ForCAD","text":"Uses forcad program~~example3_volume~~UsesGraph program~example3_volume example3_volume module~forcad forcad program~example3_volume->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. This program demonstrates the usage of a NURBS (Non-Uniform Rational B-Spline) volume object to create and finalize a NURBS volume.\nIt sets up control points, weights, and knot vectors for all three dimensions, generates the volume, and exports the control points and the volume to VTK files. Define the control points for the NURBS volume Define weights for the control points (optional)\nDefine knot vectors for all three dimensions\nSet knot vectors, control points, and weights for the NURBS volume object\nWc is optional. Deallocate local arrays Export the control points to a VTK file Generate the NURBS volume with resolutions of 20, 20, and 20 in the three dimensions Export the generated volume to a VTK file Show the control geometry and geometry using PyVista Print size of knot vectors\nInsert knots 0.25 and 0.75 in all three directions\nPrint size of knot vectors after inserting knots\nPrint degrees Elevate degree by 2 in all three directions\nPrint degrees after elevating Print size of knot vectors\nPrint size of knot vectors after removing knots\nGenerate the refined NURBS volume with resolutions of 40, 40, and 40 in the three dimensions Export updated control points to a VTK file Export the refined generated volume to a VTK file Show the control geometry and geometry using PyVista Rotate the control points Rotate the generated curve Translate the control points Translate the generated curve Export the transformed control points to a VTK file Export the transformed generated volume to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS volume object Calls program~~example3_volume~~CallsGraph program~example3_volume example3_volume none~get_degree nurbs_volume%get_degree program~example3_volume->none~get_degree none~get_knot nurbs_volume%get_knot program~example3_volume->none~get_knot none~set nurbs_volume%set program~example3_volume->none~set proc~create nurbs_volume%create program~example3_volume->proc~create proc~elevate_degree nurbs_volume%elevate_degree program~example3_volume->proc~elevate_degree proc~export_xc nurbs_volume%export_Xc program~example3_volume->proc~export_xc proc~export_xg nurbs_volume%export_Xg program~example3_volume->proc~export_xg proc~finalize nurbs_volume%finalize program~example3_volume->proc~finalize proc~generate_xc~4 generate_Xc program~example3_volume->proc~generate_xc~4 proc~insert_knots nurbs_volume%insert_knots program~example3_volume->proc~insert_knots proc~remove_knots nurbs_volume%remove_knots program~example3_volume->proc~remove_knots proc~rotate_xc nurbs_volume%rotate_Xc program~example3_volume->proc~rotate_xc proc~rotate_xg nurbs_volume%rotate_Xg program~example3_volume->proc~rotate_xg proc~show nurbs_volume%show program~example3_volume->proc~show proc~translate_xc nurbs_volume%translate_Xc program~example3_volume->proc~translate_xc proc~translate_xg nurbs_volume%translate_Xg program~example3_volume->proc~translate_xg proc~get_degree_all nurbs_volume%get_degree_all none~get_degree->proc~get_degree_all proc~get_degree_dir nurbs_volume%get_degree_dir none~get_degree->proc~get_degree_dir proc~get_knot_all nurbs_volume%get_knot_all none~get_knot->proc~get_knot_all proc~get_knoti nurbs_volume%get_knoti none~get_knot->proc~get_knoti proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 interface~ndgrid ndgrid proc~create->interface~ndgrid proc~elevate_degree->none~get_knot proc~elevate_degree->none~set proc~elevate_degree_a_5_9 elevate_degree_A_5_9 proc~elevate_degree->proc~elevate_degree_a_5_9 proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~export_xc->proc~cmp_elem_xc_vis proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~export_xg->proc~cmp_elem_xg_vis proc~insert_knots->none~get_knot proc~insert_knots->none~set interface~compute_multiplicity compute_multiplicity proc~insert_knots->interface~compute_multiplicity proc~findspan findspan proc~insert_knots->proc~findspan proc~insert_knot_a_5_1 insert_knot_A_5_1 proc~insert_knots->proc~insert_knot_a_5_1 proc~remove_knots->none~get_knot proc~remove_knots->none~set proc~remove_knots->interface~compute_multiplicity proc~remove_knots->proc~findspan proc~remove_knots_a_5_8 remove_knots_A_5_8 proc~remove_knots->proc~remove_knots_a_5_8 proc~rotation rotation proc~rotate_xc->proc~rotation proc~rotate_xg->proc~rotation proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~elevate_degree_a_5_9->interface~compute_multiplicity proc~bincoeff bincoeff proc~elevate_degree_a_5_9->proc~bincoeff cosd cosd proc~rotation->cosd sind sind proc~rotation->sind proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~factln factln proc~bincoeff->proc~factln proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial real(kind=rk), allocatable :: Wc (:) Arrays for control points and weights real(kind=rk), allocatable :: Xc (:,:) Arrays for control points and weights real(kind=rk) :: knot1 (4) Arrays for knot vectors in all three dimensions real(kind=rk) :: knot2 (4) Arrays for knot vectors in all three dimensions real(kind=rk) :: knot3 (4) Arrays for knot vectors in all three dimensions type( nurbs_volume ) :: nurbs Declare a NURBS volume object Functions function generate_Xc (L) result(control_points) Arguments Type Intent Optional Attributes Name real(kind=rk), intent(in) :: L Return Value real(kind=rk), allocatable, (:,:) Source Code program example3_volume use forcad , only : rk , nurbs_volume implicit none type ( nurbs_volume ) :: nurbs !! Declare a NURBS volume object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights real ( rk ) :: knot1 ( 4 ), knot2 ( 4 ), knot3 ( 4 ) !! Arrays for knot vectors in all three dimensions !----------------------------------------------------------------------------- ! Setting up the NURBS volume !----------------------------------------------------------------------------- !> Define the control points for the NURBS volume Xc = generate_Xc ( 5.0_rk ) !> Define weights for the control points (optional) allocate ( Wc ( size ( Xc , 1 )), source = 1.0_rk ) Wc ( 2 ) = 5.0_rk !> Define knot vectors for all three dimensions knot1 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] knot2 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] knot3 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] !> Set knot vectors, control points, and weights for the NURBS volume object !> Wc is optional. call nurbs % set ( knot1 , knot2 , knot3 , Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export the control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_volume_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS volume !----------------------------------------------------------------------------- !> Generate the NURBS volume with resolutions of 20, 20, and 20 in the three dimensions call nurbs % create ( 20 , 20 , 20 ) !> Export the generated volume to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_volume_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_volume_Xc.vtk' , 'vtk/nurbs_volume_Xg.vtk' ) !----------------------------------------------------------------------------- ! Refinements !----------------------------------------------------------------------------- !> Print size of knot vectors print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) print * , size ( nurbs % get_knot ( 3 )) !> Insert knots 0.25 and 0.75 in all three directions call nurbs % insert_knots ( 1 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 1 call nurbs % insert_knots ( 2 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 2 call nurbs % insert_knots ( 3 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 3 !> Print size of knot vectors after inserting knots print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) print * , size ( nurbs % get_knot ( 3 )) !> Print degrees print * , nurbs % get_degree () !> Elevate degree by 2 in all three directions call nurbs % elevate_degree ( 1 , 2 ) ! direction 1 call nurbs % elevate_degree ( 2 , 2 ) ! direction 2 call nurbs % elevate_degree ( 3 , 2 ) ! direction 3 !> Print degrees after elevating print * , nurbs % get_degree () !> Print size of knot vectors print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) print * , size ( nurbs % get_knot ( 3 )) call nurbs % remove_knots ( 1 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 1 call nurbs % remove_knots ( 2 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 2 call nurbs % remove_knots ( 3 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 3 !> Print size of knot vectors after removing knots print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) print * , size ( nurbs % get_knot ( 3 )) !> Generate the refined NURBS volume with resolutions of 40, 40, and 40 in the three dimensions call nurbs % create () !> Export updated control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_volume_Xc2.vtk' ) !> Export the refined generated volume to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_volume_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_volume_Xc2.vtk' , 'vtk/nurbs_volume_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Transformations !----------------------------------------------------------------------------- !> Rotate the control points call nurbs % rotate_Xc ( alpha =- 4 5.0_rk , beta = 0.0_rk , theta = 9 0.0_rk ) !> Rotate the generated curve call nurbs % rotate_Xg ( alpha =- 4 5.0_rk , beta = 0.0_rk , theta = 9 0.0_rk ) !> Translate the control points call nurbs % translate_Xc ([ 1.0_rk , 2.0_rk , - 3.0_rk ]) !> Translate the generated curve call nurbs % translate_Xg ([ 1.0_rk , 2.0_rk , - 3.0_rk ]) !> Export the transformed control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_volume_Xc3.vtk' ) !> Export the transformed generated volume to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_volume_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_volume_Xc3.vtk' , 'vtk/nurbs_volume_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS volume object call nurbs % finalize () contains !----------------------------------------------------------------------------- function generate_Xc ( L ) result ( control_points ) implicit none real ( rk ), intent ( in ) :: L real ( rk ), allocatable :: control_points (:,:) real ( rk ) :: L2 L2 = L / 2.0_rk allocate ( control_points ( 8 , 3 )) control_points ( 1 ,:) = [ L2 , - L2 , L2 ] control_points ( 2 ,:) = [ L2 , - L2 , - L2 ] control_points ( 3 ,:) = [ - L2 , - L2 , L2 ] control_points ( 4 ,:) = [ - L2 , - L2 , - L2 ] control_points ( 5 ,:) = [ L2 , L2 , L2 ] control_points ( 6 ,:) = [ L2 , L2 , - L2 ] control_points ( 7 ,:) = [ - L2 , L2 , L2 ] control_points ( 8 ,:) = [ - L2 , L2 , - L2 ] end function !----------------------------------------------------------------------------- end program example3_volume","tags":"","loc":"program/example3_volume.html"},{"title":"example_put_to_nurbs – ForCAD","text":"Uses forcad forcad_utils program~~example_put_to_nurbs~~UsesGraph program~example_put_to_nurbs example_put_to_nurbs module~forcad forcad program~example_put_to_nurbs->module~forcad module~forcad_utils forcad_utils program~example_put_to_nurbs->module~forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. You can create your shape or use a predefined one\nRead coordinates from file\nRead element connectivities from file\nSet a control shape that will be used to put the shape into\nThe contol shape is a hexahedron with 100x40x10 with 10x5x3 number of control points\nBy modifying the control shape you can modify the shape Map the shape into the shape Deallocate local variables Export the shape and the control shape to vtk files\nShow the control geometry and geometry using PyVista Finalize the control shape Calls program~~example_put_to_nurbs~~CallsGraph program~example_put_to_nurbs example_put_to_nurbs none~set nurbs_volume%set program~example_put_to_nurbs->none~set proc~export_xc nurbs_volume%export_Xc program~example_put_to_nurbs->proc~export_xc proc~export_xg nurbs_volume%export_Xg program~example_put_to_nurbs->proc~export_xg proc~finalize nurbs_volume%finalize program~example_put_to_nurbs->proc~finalize proc~hexahedron_xc hexahedron_Xc program~example_put_to_nurbs->proc~hexahedron_xc proc~put_to_nurbs nurbs_volume%put_to_nurbs program~example_put_to_nurbs->proc~put_to_nurbs proc~show nurbs_volume%show program~example_put_to_nurbs->proc~show proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~export_xc->proc~cmp_elem_xc_vis proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~export_xg->proc~cmp_elem_xg_vis proc~basis_bspline basis_bspline proc~put_to_nurbs->proc~basis_bspline proc~kron kron proc~put_to_nurbs->proc~kron proc~set_elem_xg_vis nurbs_volume%set_elem_Xg_vis proc~put_to_nurbs->proc~set_elem_xg_vis interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial real(kind=rk), allocatable :: X (:,:) type( nurbs_volume ) :: control_shape integer, allocatable :: elem (:,:) integer :: i integer :: nunit","tags":"","loc":"program/example_put_to_nurbs.html"},{"title":"example_ppm2 – ForCAD","text":"Uses forcad fortime forcolormap forimage program~~example_ppm2~~UsesGraph program~example_ppm2 example_ppm2 forcolormap forcolormap program~example_ppm2->forcolormap forimage forimage program~example_ppm2->forimage fortime fortime program~example_ppm2->fortime module~forcad forcad program~example_ppm2->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Visualization of NURBS surfaces using ForCAD, ForImage and ForColorMap libraries\nThis example converts NURBS surfaces (vector) to an image (raster) using ForCAD, ForImage and ForColorMap libraries. Set the shape parameters for a tetragon\nSet the shape parameters for a ring\nSet the shape parameters for a ring\nSet the shape parameters for a ring\nSet the shape parameters for a ring Calls program~~example_ppm2~~CallsGraph program~example_ppm2 example_ppm2 compute_rgb compute_rgb program~example_ppm2->compute_rgb export_pnm export_pnm program~example_ppm2->export_pnm get_b get_b program~example_ppm2->get_b get_g get_g program~example_ppm2->get_g get_r get_r program~example_ppm2->get_r none~get_xg~2 nurbs_surface%get_Xg program~example_ppm2->none~get_xg~2 proc~create~2 nurbs_surface%create program~example_ppm2->proc~create~2 proc~finalize~2 nurbs_surface%finalize program~example_ppm2->proc~finalize~2 proc~get_ng~2 nurbs_surface%get_ng program~example_ppm2->proc~get_ng~2 proc~rotate_xc~2 nurbs_surface%rotate_Xc program~example_ppm2->proc~rotate_xc~2 proc~set_half_ring~2 nurbs_surface%set_half_ring program~example_ppm2->proc~set_half_ring~2 proc~set_tetragon nurbs_surface%set_tetragon program~example_ppm2->proc~set_tetragon proc~translate_xc~2 nurbs_surface%translate_Xc program~example_ppm2->proc~translate_xc~2 set set program~example_ppm2->set set_pnm set_pnm program~example_ppm2->set_pnm timer_start timer_start program~example_ppm2->timer_start timer_stop timer_stop program~example_ppm2->timer_stop proc~get_xg_all~2 nurbs_surface%get_Xg_all none~get_xg~2->proc~get_xg_all~2 proc~get_xgid~2 nurbs_surface%get_Xgid none~get_xg~2->proc~get_xgid~2 proc~get_xgi~2 nurbs_surface%get_Xgi none~get_xg~2->proc~get_xgi~2 interface~ndgrid ndgrid proc~create~2->interface~ndgrid proc~is_rational~2 nurbs_surface%is_rational proc~create~2->proc~is_rational~2 proc~rotation rotation proc~rotate_xc~2->proc~rotation none~set~2 nurbs_surface%set proc~set_half_ring~2->none~set~2 proc~set_tetragon->none~set~2 proc~tetragon_xc tetragon_Xc proc~set_tetragon->proc~tetragon_xc proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1~2 nurbs_surface%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_surface%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 cosd cosd proc~rotation->cosd sind sind proc~rotation->sind proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2->proc~cmp_nc~2 proc~set2~2->proc~cmp_nc~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~2->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial real(kind=rk), allocatable :: Xg (:,:) real(kind=rk) :: aspect_ratio type(color) :: background_color integer :: blue real(kind=rk) :: center (3) type(colormap) :: cmap integer :: green integer :: height integer :: i integer, allocatable :: idx (:,:) type(format_pnm) :: image real(kind=rk) :: inner_radius integer :: ng (2) real(kind=rk) :: outer_radius integer(kind=ik), allocatable :: px (:,:) integer :: red integer :: res1 integer :: res2 type( nurbs_surface ) :: shape type(timer) :: t integer :: width real(kind=rk), allocatable :: z_values (:)","tags":"","loc":"program/example_ppm2.html"},{"title":"shape_ring_2d – ForCAD","text":"Uses forcad program~~shape_ring_2d~~UsesGraph program~shape_ring_2d shape_ring_2d module~forcad forcad program~shape_ring_2d->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set up a ring shape with inner radius 1.0 and outer radius 2.0. Export the control points to a VTK file for visualization. Create the shape using the specified number of elements in each direction. Export the geometry to a VTK file for visualization. Show the control geometry and geometry using PyVista Finalize and clean up the shape object. Calls program~~shape_ring_2d~~CallsGraph program~shape_ring_2d shape_ring_2d proc~create~2 nurbs_surface%create program~shape_ring_2d->proc~create~2 proc~export_xc~2 nurbs_surface%export_Xc program~shape_ring_2d->proc~export_xc~2 proc~export_xg~2 nurbs_surface%export_Xg program~shape_ring_2d->proc~export_xg~2 proc~finalize~2 nurbs_surface%finalize program~shape_ring_2d->proc~finalize~2 proc~set_ring~2 nurbs_surface%set_ring program~shape_ring_2d->proc~set_ring~2 proc~show~2 nurbs_surface%show program~shape_ring_2d->proc~show~2 interface~ndgrid ndgrid proc~create~2->interface~ndgrid proc~is_rational~2 nurbs_surface%is_rational proc~create~2->proc~is_rational~2 proc~cmp_elem_xc_vis~2 nurbs_surface%cmp_elem_Xc_vis proc~export_xc~2->proc~cmp_elem_xc_vis~2 proc~cmp_elem_xg_vis~2 nurbs_surface%cmp_elem_Xg_vis proc~export_xg~2->proc~cmp_elem_xg_vis~2 none~set~2 nurbs_surface%set proc~set_ring~2->none~set~2 proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1~2 nurbs_surface%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_surface%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2->proc~cmp_nc~2 proc~set2~2->proc~cmp_nc~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~2->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_surface ) :: shape","tags":"","loc":"program/shape_ring_2d.html"},{"title":"shape_C_2d – ForCAD","text":"Uses forcad program~~shape_c_2d~~UsesGraph program~shape_c_2d shape_C_2d module~forcad forcad program~shape_c_2d->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set a C-shape with radius 2.0 and center at [0.0, 0.0, 0.0] Export control points to a VTK file Generate the NURBS C-shape with a resolution of 100 Export the generated cirlce to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS curve object Calls program~~shape_c_2d~~CallsGraph program~shape_c_2d shape_C_2d proc~create~2 nurbs_surface%create program~shape_c_2d->proc~create~2 proc~export_xc~2 nurbs_surface%export_Xc program~shape_c_2d->proc~export_xc~2 proc~export_xg~2 nurbs_surface%export_Xg program~shape_c_2d->proc~export_xg~2 proc~finalize~2 nurbs_surface%finalize program~shape_c_2d->proc~finalize~2 proc~set_c~2 nurbs_surface%set_C program~shape_c_2d->proc~set_c~2 proc~show~2 nurbs_surface%show program~shape_c_2d->proc~show~2 interface~ndgrid ndgrid proc~create~2->interface~ndgrid proc~is_rational~2 nurbs_surface%is_rational proc~create~2->proc~is_rational~2 proc~cmp_elem_xc_vis~2 nurbs_surface%cmp_elem_Xc_vis proc~export_xc~2->proc~cmp_elem_xc_vis~2 proc~cmp_elem_xg_vis~2 nurbs_surface%cmp_elem_Xg_vis proc~export_xg~2->proc~cmp_elem_xg_vis~2 none~set~2 nurbs_surface%set proc~set_c~2->none~set~2 proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1~2 nurbs_surface%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_surface%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2->proc~cmp_nc~2 proc~set2~2->proc~cmp_nc~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~2->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_surface ) :: shape","tags":"","loc":"program/shape_c_2d.html"},{"title":"example_nurbs_surface – ForCAD","text":"Uses forcad program~~example_nurbs_surface~~UsesGraph program~example_nurbs_surface example_nurbs_surface module~forcad forcad program~example_nurbs_surface->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. This program demonstrates the usage of a NURBS surface object to create, and finalize a NURBS surface.\nIt sets up control points and weights, generates the surface, and exports the control points\nand the surface to VTK files at various stages. Define control points for the NURBS surface Define weights for the control points Set control points and weights for the NURBS surface object Deallocate local arrays Export initial control points to a VTK file Generate the NURBS surface with a resolution of 30x30 Export the generated surface to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS surface object Calls program~~example_nurbs_surface~~CallsGraph program~example_nurbs_surface example_nurbs_surface none~set~2 nurbs_surface%set program~example_nurbs_surface->none~set~2 proc~create~2 nurbs_surface%create program~example_nurbs_surface->proc~create~2 proc~export_xc~2 nurbs_surface%export_Xc program~example_nurbs_surface->proc~export_xc~2 proc~export_xg~2 nurbs_surface%export_Xg program~example_nurbs_surface->proc~export_xg~2 proc~finalize~2 nurbs_surface%finalize program~example_nurbs_surface->proc~finalize~2 proc~generate_xc~5 generate_Xc program~example_nurbs_surface->proc~generate_xc~5 proc~show~2 nurbs_surface%show program~example_nurbs_surface->proc~show~2 proc~set1~2 nurbs_surface%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_surface%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 interface~ndgrid ndgrid proc~create~2->interface~ndgrid proc~is_rational~2 nurbs_surface%is_rational proc~create~2->proc~is_rational~2 proc~cmp_elem_xc_vis~2 nurbs_surface%cmp_elem_Xc_vis proc~export_xc~2->proc~cmp_elem_xc_vis~2 proc~cmp_elem_xg_vis~2 nurbs_surface%cmp_elem_Xg_vis proc~export_xg~2->proc~cmp_elem_xg_vis~2 proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~2->interface~elemconn_c0 proc~cmp_elem_xg_vis~2->interface~elemconn_c0 proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2->proc~cmp_nc~2 proc~set2~2->proc~cmp_nc~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~2->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial real(kind=rk), allocatable :: Wc (:) Arrays for control points and weights real(kind=rk), allocatable :: Xc (:,:) Arrays for control points and weights type( nurbs_surface ) :: nurbs Declare a NURBS surface object Functions function generate_Xc (num_rows, num_cols, peak_height) result(control_points) Arguments Type Intent Optional Attributes Name integer, intent(in) :: num_rows integer, intent(in) :: num_cols real(kind=rk), intent(in) :: peak_height Return Value real(kind=rk), allocatable, (:,:) Source Code program example_nurbs_surface use forcad , only : rk , nurbs_surface implicit none type ( nurbs_surface ) :: nurbs !! Declare a NURBS surface object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights !----------------------------------------------------------------------------- ! Setting up the NURBS surface !----------------------------------------------------------------------------- !> Define control points for the NURBS surface Xc = generate_Xc ( 10 , 10 , 1.5_rk ) !> Define weights for the control points allocate ( Wc ( size ( Xc , 1 )), source = 1.0_rk ) !> Set control points and weights for the NURBS surface object call nurbs % set ([ 10 , 10 ], Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export initial control points to a VTK file call nurbs % export_Xc ( 'vtk/demo_surface_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS surface !----------------------------------------------------------------------------- !> Generate the NURBS surface with a resolution of 30x30 call nurbs % create ( res1 = 30 , res2 = 30 ) !> Export the generated surface to a VTK file call nurbs % export_Xg ( 'vtk/demo_surface_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/demo_surface_Xc.vtk' , 'vtk/demo_surface_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS surface object call nurbs % finalize () contains !----------------------------------------------------------------------------- function generate_Xc ( num_rows , num_cols , peak_height ) result ( control_points ) integer , intent ( in ) :: num_rows , num_cols real ( rk ), intent ( in ) :: peak_height real ( rk ), allocatable :: control_points (:,:) integer :: i , j real ( rk ) :: x_spacing , y_spacing , x_offset , y_offset x_spacing = 1.0_rk / real ( num_cols - 1 , rk ) y_spacing = 1.0_rk / real ( num_rows - 1 , rk ) x_offset = - 0.5_rk y_offset = - 0.5_rk allocate ( control_points ( num_rows * num_cols , 3 )) do i = 1 , num_rows do j = 1 , num_cols control_points (( i - 1 ) * num_cols + j , 1 ) = x_offset + real ( j - 1 , rk ) * x_spacing control_points (( i - 1 ) * num_cols + j , 2 ) = y_offset + real ( i - 1 , rk ) * y_spacing control_points (( i - 1 ) * num_cols + j , 3 ) = & peak_height * exp ( - (( control_points (( i - 1 ) * num_cols + j , 1 ) ** 2 ) & + ( control_points (( i - 1 ) * num_cols + j , 2 ) ** 2 ))) + 0.5_rk * peak_height * 0.2_rk end do end do end function !----------------------------------------------------------------------------- end program example_nurbs_surface","tags":"","loc":"program/example_nurbs_surface.html"},{"title":"nearest_point_2d_bench – ForCAD","text":"Uses forcad fortime program~~nearest_point_2d_bench~~UsesGraph program~nearest_point_2d_bench nearest_point_2d_bench fortime fortime program~nearest_point_2d_bench->fortime module~forcad forcad program~nearest_point_2d_bench->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set a tetragon with lengths of 2.0 and 3.0 and 3 and 4 control points in each direction\nThe weights of the control points (Wc) are optional. Generate the NURBS surface with resolutions of 30 in both dimensions Find the nearest point on the surface to a given point\nFinalize the NURBS surface object Calls program~~nearest_point_2d_bench~~CallsGraph program~nearest_point_2d_bench nearest_point_2d_bench proc~create~2 nurbs_surface%create program~nearest_point_2d_bench->proc~create~2 proc~finalize~2 nurbs_surface%finalize program~nearest_point_2d_bench->proc~finalize~2 proc~nearest_point~2 nurbs_surface%nearest_point program~nearest_point_2d_bench->proc~nearest_point~2 proc~set_tetragon nurbs_surface%set_tetragon program~nearest_point_2d_bench->proc~set_tetragon timer_start timer_start program~nearest_point_2d_bench->timer_start timer_stop timer_stop program~nearest_point_2d_bench->timer_stop interface~ndgrid ndgrid proc~create~2->interface~ndgrid proc~is_rational~2 nurbs_surface%is_rational proc~create~2->proc~is_rational~2 none~set~2 nurbs_surface%set proc~set_tetragon->none~set~2 proc~tetragon_xc tetragon_Xc proc~set_tetragon->proc~tetragon_xc proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1~2 nurbs_surface%set1 none~set~2->proc~set1~2 proc~set2~2 nurbs_surface%set2 none~set~2->proc~set2~2 proc~set3~2 nurbs_surface%set3 none~set~2->proc~set3~2 proc~cmp_degree~2 nurbs_surface%cmp_degree proc~set1~2->proc~cmp_degree~2 proc~cmp_nc~2 nurbs_surface%cmp_nc proc~set1~2->proc~cmp_nc~2 proc~set2~2->proc~cmp_nc~2 proc~compute_knot_vector compute_knot_vector proc~set2~2->proc~compute_knot_vector proc~set3~2->proc~cmp_degree~2 proc~get_multiplicity~2 nurbs_surface%get_multiplicity proc~cmp_degree~2->proc~get_multiplicity~2 interface~compute_multiplicity compute_multiplicity proc~cmp_nc~2->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity~2->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial integer :: i integer :: id id of the nearest point integer :: j real(kind=rk), allocatable :: nearest_Xg (:) Coordinates of the nearest point on the surface real(kind=rk), allocatable :: nearest_Xt (:) Corresponding parametric coordinates of the nearest point real(kind=rk), allocatable :: points (:,:) type( nurbs_surface ) :: shape Declare a NURBS surface object type(timer) :: t","tags":"","loc":"program/nearest_point_2d_bench.html"},{"title":"shape_C_3d – ForCAD","text":"Uses forcad program~~shape_c_3d~~UsesGraph program~shape_c_3d shape_C_3d module~forcad forcad program~shape_c_3d->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set a C-shape with radius 2.0 and center at [0.0, 0.0, 0.0] Export control points to a VTK file Generate the NURBS C-shape with a resolution of 100 Export the generated cirlce to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS curve object Calls program~~shape_c_3d~~CallsGraph program~shape_c_3d shape_C_3d proc~create nurbs_volume%create program~shape_c_3d->proc~create proc~export_xc nurbs_volume%export_Xc program~shape_c_3d->proc~export_xc proc~export_xg nurbs_volume%export_Xg program~shape_c_3d->proc~export_xg proc~finalize nurbs_volume%finalize program~shape_c_3d->proc~finalize proc~set_c nurbs_volume%set_C program~shape_c_3d->proc~set_c proc~show nurbs_volume%show program~shape_c_3d->proc~show interface~ndgrid ndgrid proc~create->interface~ndgrid proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~export_xc->proc~cmp_elem_xc_vis proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~export_xg->proc~cmp_elem_xg_vis none~set nurbs_volume%set proc~set_c->none~set proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_volume ) :: shape","tags":"","loc":"program/shape_c_3d.html"},{"title":"shape_half_circle – ForCAD","text":"Uses forcad program~~shape_half_circle~~UsesGraph program~shape_half_circle shape_half_circle module~forcad forcad program~shape_half_circle->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set up a half circle shape centered at the 0,0,0 with a radius of 1 Export the control points to a VTK file for visualization. Create the shape using the specified number of elements in each direction. Export the geometry to a VTK file for visualization. Show the control geometry and geometry using PyVista Finalize and clean up the shape object. Calls program~~shape_half_circle~~CallsGraph program~shape_half_circle shape_half_circle proc~create~3 nurbs_curve%create program~shape_half_circle->proc~create~3 proc~export_xc~3 nurbs_curve%export_Xc program~shape_half_circle->proc~export_xc~3 proc~export_xg~3 nurbs_curve%export_Xg program~shape_half_circle->proc~export_xg~3 proc~finalize~3 nurbs_curve%finalize program~shape_half_circle->proc~finalize~3 proc~set_half_circle nurbs_curve%set_half_circle program~shape_half_circle->proc~set_half_circle proc~show~3 nurbs_curve%show program~shape_half_circle->proc~show~3 proc~is_rational~3 nurbs_curve%is_rational proc~create~3->proc~is_rational~3 proc~cmp_elem_xc_vis~3 nurbs_curve%cmp_elem_Xc_vis proc~export_xc~3->proc~cmp_elem_xc_vis~3 proc~cmp_elem_xg_vis~3 nurbs_curve%cmp_elem_Xg_vis proc~export_xg~3->proc~cmp_elem_xg_vis~3 none~set~3 nurbs_curve%set proc~set_half_circle->none~set~3 proc~set1~3 nurbs_curve%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_curve%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_curve%set3 none~set~3->proc~set3~3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree~3 nurbs_curve%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 proc~repelem repelem proc~compute_knot_vector->proc~repelem interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_curve ) :: shape","tags":"","loc":"program/shape_half_circle.html"},{"title":"shape_C_1d – ForCAD","text":"Uses forcad program~~shape_c_1d~~UsesGraph program~shape_c_1d shape_C_1d module~forcad forcad program~shape_c_1d->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set a C-shape with radius 2.0 and center at [0.0, 0.0, 0.0] Export control points to a VTK file Generate the NURBS C-shape with a resolution of 100 Export the generated cirlce to a VTK file Show the control geometry and geometry using PyVista Finalize the NURBS curve object Calls program~~shape_c_1d~~CallsGraph program~shape_c_1d shape_C_1d proc~create~3 nurbs_curve%create program~shape_c_1d->proc~create~3 proc~export_xc~3 nurbs_curve%export_Xc program~shape_c_1d->proc~export_xc~3 proc~export_xg~3 nurbs_curve%export_Xg program~shape_c_1d->proc~export_xg~3 proc~finalize~3 nurbs_curve%finalize program~shape_c_1d->proc~finalize~3 proc~set_c~3 nurbs_curve%set_C program~shape_c_1d->proc~set_c~3 proc~show~3 nurbs_curve%show program~shape_c_1d->proc~show~3 proc~is_rational~3 nurbs_curve%is_rational proc~create~3->proc~is_rational~3 proc~cmp_elem_xc_vis~3 nurbs_curve%cmp_elem_Xc_vis proc~export_xc~3->proc~cmp_elem_xc_vis~3 proc~cmp_elem_xg_vis~3 nurbs_curve%cmp_elem_Xg_vis proc~export_xg~3->proc~cmp_elem_xg_vis~3 none~set~3 nurbs_curve%set proc~set_c~3->none~set~3 proc~set1~3 nurbs_curve%set1 none~set~3->proc~set1~3 proc~set2~3 nurbs_curve%set2 none~set~3->proc~set2~3 proc~set3~3 nurbs_curve%set3 none~set~3->proc~set3~3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis~3->interface~elemconn_c0 proc~cmp_elem_xg_vis~3->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree~3 nurbs_curve%cmp_degree proc~set1~3->proc~cmp_degree~3 proc~compute_knot_vector compute_knot_vector proc~set2~3->proc~compute_knot_vector proc~set3~3->proc~cmp_degree~3 proc~get_multiplicity~3 nurbs_curve%get_multiplicity proc~cmp_degree~3->proc~get_multiplicity~3 proc~repelem repelem proc~compute_knot_vector->proc~repelem interface~compute_multiplicity compute_multiplicity proc~get_multiplicity~3->interface~compute_multiplicity proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_curve ) :: shape","tags":"","loc":"program/shape_c_1d.html"},{"title":"nearest_point_3d – ForCAD","text":"Uses forcad program~~nearest_point_3d~~UsesGraph program~nearest_point_3d nearest_point_3d module~forcad forcad program~nearest_point_3d->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set up a hexahedron shape with dimensions L = [2.0, 4.0, 8.0] and a specified number of control points nc = [4, 6, 8].\nThe weights of the control points (Wc) are optional. Generate the NURBS volume with resolutions of 8, 16 and 32 Find the nearest point on the volume to a given point\nFinalize the NURBS volume object Calls program~~nearest_point_3d~~CallsGraph program~nearest_point_3d nearest_point_3d proc~create nurbs_volume%create program~nearest_point_3d->proc~create proc~finalize nurbs_volume%finalize program~nearest_point_3d->proc~finalize proc~nearest_point nurbs_volume%nearest_point program~nearest_point_3d->proc~nearest_point proc~set_hexahedron nurbs_volume%set_hexahedron program~nearest_point_3d->proc~set_hexahedron interface~ndgrid ndgrid proc~create->interface~ndgrid none~set nurbs_volume%set proc~set_hexahedron->none~set proc~hexahedron_xc hexahedron_Xc proc~set_hexahedron->proc~hexahedron_xc proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial integer :: id id of the nearest point real(kind=rk), allocatable :: nearest_Xg (:) Coordinates of the nearest point on the volume real(kind=rk), allocatable :: nearest_Xt (:) Corresponding parametric coordinates of the nearest point type( nurbs_volume ) :: shape Declare a NURBS volume object","tags":"","loc":"program/nearest_point_3d.html"},{"title":"shape_half_ring_3d – ForCAD","text":"Uses forcad program~~shape_half_ring_3d~~UsesGraph program~shape_half_ring_3d shape_half_ring_3d module~forcad forcad program~shape_half_ring_3d->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set up a half ring centered at 0,0,0 with inner radius 1, outer radius 2, and length 1. Export the control points to a VTK file for visualization. Create the shape using the specified number of elements in each direction. Export the geometry to a VTK file for visualization. Show the control geometry and geometry using PyVista Finalize and clean up the shape object. Calls program~~shape_half_ring_3d~~CallsGraph program~shape_half_ring_3d shape_half_ring_3d proc~create nurbs_volume%create program~shape_half_ring_3d->proc~create proc~export_xc nurbs_volume%export_Xc program~shape_half_ring_3d->proc~export_xc proc~export_xg nurbs_volume%export_Xg program~shape_half_ring_3d->proc~export_xg proc~finalize nurbs_volume%finalize program~shape_half_ring_3d->proc~finalize proc~set_half_ring nurbs_volume%set_half_ring program~shape_half_ring_3d->proc~set_half_ring proc~show nurbs_volume%show program~shape_half_ring_3d->proc~show interface~ndgrid ndgrid proc~create->interface~ndgrid proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~export_xc->proc~cmp_elem_xc_vis proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~export_xg->proc~cmp_elem_xg_vis none~set nurbs_volume%set proc~set_half_ring->none~set proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_volume ) :: shape","tags":"","loc":"program/shape_half_ring_3d.html"},{"title":"shape_hexahedron – ForCAD","text":"Uses forcad program~~shape_hexahedron~~UsesGraph program~shape_hexahedron shape_hexahedron module~forcad forcad program~shape_hexahedron->module~forcad module~forcad_nurbs_curve forcad_nurbs_curve module~forcad->module~forcad_nurbs_curve module~forcad_nurbs_surface forcad_nurbs_surface module~forcad->module~forcad_nurbs_surface module~forcad_nurbs_volume forcad_nurbs_volume module~forcad->module~forcad_nurbs_volume module~forcad_utils forcad_utils module~forcad->module~forcad_utils module~forcad_nurbs_curve->module~forcad_utils module~forcad_nurbs_surface->module~forcad_utils module~forcad_nurbs_volume->module~forcad_utils Help Graph Key Nodes of different colours represent the following: Graph Key Module Module Submodule Submodule Subroutine Subroutine Function Function Program Program This Page's Entity This Page's Entity Solid arrows point from a submodule to the (sub)module which it is\ndescended from. Dashed arrows point from a module or program unit to \nmodules which it uses. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Set up a hexahedron shape with dimensions L = [2.0, 4.0, 8.0] and a specified number of control points nc = [4, 6, 8].\nThe weights of the control points (Wc) are optional. Export the control points to a VTK file for visualization. Create the shape using the specified number of elements in each direction. Export the geometry to a VTK file for visualization. Show the control geometry and geometry using PyVista Finalize and clean up the shape object. Calls program~~shape_hexahedron~~CallsGraph program~shape_hexahedron shape_hexahedron proc~create nurbs_volume%create program~shape_hexahedron->proc~create proc~export_xc nurbs_volume%export_Xc program~shape_hexahedron->proc~export_xc proc~export_xg nurbs_volume%export_Xg program~shape_hexahedron->proc~export_xg proc~finalize nurbs_volume%finalize program~shape_hexahedron->proc~finalize proc~set_hexahedron nurbs_volume%set_hexahedron program~shape_hexahedron->proc~set_hexahedron proc~show nurbs_volume%show program~shape_hexahedron->proc~show interface~ndgrid ndgrid proc~create->interface~ndgrid proc~cmp_elem_xc_vis nurbs_volume%cmp_elem_Xc_vis proc~export_xc->proc~cmp_elem_xc_vis proc~cmp_elem_xg_vis nurbs_volume%cmp_elem_Xg_vis proc~export_xg->proc~cmp_elem_xg_vis none~set nurbs_volume%set proc~set_hexahedron->none~set proc~hexahedron_xc hexahedron_Xc proc~set_hexahedron->proc~hexahedron_xc proc~ndgrid2 ndgrid2 interface~ndgrid->proc~ndgrid2 proc~ndgrid3 ndgrid3 interface~ndgrid->proc~ndgrid3 proc~set1 nurbs_volume%set1 none~set->proc~set1 proc~set2 nurbs_volume%set2 none~set->proc~set2 proc~set3 nurbs_volume%set3 none~set->proc~set3 interface~elemconn_c0 elemConn_C0 proc~cmp_elem_xc_vis->interface~elemconn_c0 proc~cmp_elem_xg_vis->interface~elemconn_c0 proc~cmp_elemconn_c0_l cmp_elemConn_C0_L interface~elemconn_c0->proc~cmp_elemconn_c0_l proc~cmp_elemconn_c0_s cmp_elemConn_C0_S interface~elemconn_c0->proc~cmp_elemconn_c0_s proc~cmp_elemconn_c0_v cmp_elemConn_C0_V interface~elemconn_c0->proc~cmp_elemconn_c0_v proc~cmp_degree nurbs_volume%cmp_degree proc~set1->proc~cmp_degree proc~cmp_nc nurbs_volume%cmp_nc proc~set1->proc~cmp_nc proc~set2->proc~cmp_nc proc~compute_knot_vector compute_knot_vector proc~set2->proc~compute_knot_vector proc~set3->proc~cmp_degree proc~get_multiplicity nurbs_volume%get_multiplicity proc~cmp_degree->proc~get_multiplicity interface~compute_multiplicity compute_multiplicity proc~cmp_nc->interface~compute_multiplicity proc~repelem repelem proc~compute_knot_vector->proc~repelem proc~compute_multiplicity1 compute_multiplicity1 interface~compute_multiplicity->proc~compute_multiplicity1 proc~compute_multiplicity2 compute_multiplicity2 interface~compute_multiplicity->proc~compute_multiplicity2 proc~get_multiplicity->interface~compute_multiplicity Help Graph Key Nodes of different colours represent the following: Graph Key Subroutine Subroutine Function Function Interface Interface Type Bound Procedure Type Bound Procedure Unknown Procedure Type Unknown Procedure Type Program Program This Page's Entity This Page's Entity Solid arrows point from a procedure to one which it calls. Dashed \narrows point from an interface to procedures which implement that interface.\nThis could include the module procedures in a generic interface or the\nimplementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Variables Type Attributes Name Initial type( nurbs_volume ) :: shape","tags":"","loc":"program/shape_hexahedron.html"},{"title":"nearest_point_2d.f90 – ForCAD","text":"This file depends on sourcefile~~nearest_point_2d.f90~~EfferentGraph sourcefile~nearest_point_2d.f90 nearest_point_2d.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~nearest_point_2d.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program nearest_point_2d use forcad , only : rk , nurbs_surface implicit none type ( nurbs_surface ) :: shape !! Declare a NURBS surface object real ( rk ), allocatable :: nearest_Xg (:) !! Coordinates of the nearest point on the surface real ( rk ), allocatable :: nearest_Xt (:) !! Corresponding parametric coordinates of the nearest point integer :: id !! id of the nearest point !----------------------------------------------------------------------------- ! Setting up the NURBS tetrangon !----------------------------------------------------------------------------- !> Set a tetragon with lengths of 2.0 and 3.0 and 3 and 4 control points in each direction !> The weights of the control points (Wc) are optional. call shape % set_tetragon ( L = [ 2.0_rk , 3.0_rk ], nc = [ 3 , 4 ]) !----------------------------------------------------------------------------- ! Creating the NURBS surface !----------------------------------------------------------------------------- !> Generate the NURBS surface with resolutions of 30 in both dimensions call shape % create ( 30 , 30 ) !----------------------------------------------------------------------------- ! Nearest point on the surface !----------------------------------------------------------------------------- !> Find the nearest point on the surface to a given point ! nearest_Xg: Coordinates of the nearest point on the surface (optional) ! nearest_Xt: Corresponding parametric coordinates of the nearest point (optional) ! id: id of the nearest point (optional) call shape % nearest_point ([ 2.0_rk , 3.0_rk , 5.0_rk ], nearest_Xg , nearest_Xt , id ) print * , 'Nearest point on the surface:' , nearest_Xg , 'with parametric coordinates:' , nearest_Xt , 'and id:' , id !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS surface object call shape % finalize () deallocate ( nearest_Xg , nearest_Xt ) end program","tags":"","loc":"sourcefile/nearest_point_2d.f90.html"},{"title":"example_surface_1.f90 – ForCAD","text":"This file depends on sourcefile~~example_surface_1.f90~~EfferentGraph sourcefile~example_surface_1.f90 example_surface_1.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~example_surface_1.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> This program demonstrates the usage of a NURBS (Non-Uniform Rational B-Spline) surface object to create and finalize a NURBS surface. !> It sets up control points, weights, and knot vectors for all three dimensions, generates the surface, and exports the control points and the surface to VTK files. program example3_surface use forcad implicit none type ( nurbs_surface ) :: nurbs !! Declare a NURBS surface object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights real ( rk ) :: knot1 ( 6 ), knot2 ( 6 ) !! Arrays for knot vectors in both dimensions !----------------------------------------------------------------------------- ! Setting up the NURBS surface !----------------------------------------------------------------------------- !> Define control points for the NURBS surface Xc = generate_Xc ( 3 , 3 , 1.0_rk ) !> Define weights for the control points allocate ( Wc ( size ( Xc , 1 ))) Wc = 1.0_rk Wc ( 2 ) = 2.0_rk !> Define knot vectors for both dimensions knot1 = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] knot2 = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] !> Set knot vectors, control points, and weights for the NURBS surface object call nurbs % set ( knot1 , knot2 , Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export the control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_surface_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS surface !----------------------------------------------------------------------------- !> Generate the NURBS surface with resolutions of 30 in both dimensions call nurbs % create ( 30 , 30 ) !> Export the generated surface to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_surface_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_surface_Xc.vtk' , 'vtk/nurbs_surface_Xg.vtk' ) !----------------------------------------------------------------------------- ! Refinements !----------------------------------------------------------------------------- !> Print size of the knot vectors print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) !> Insert knots 0.25, twice and 0.75, once in both directions call nurbs % insert_knots ( 1 , [ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) ! direction 1 call nurbs % insert_knots ( 2 , [ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) ! direction 2 !> Print size of the knot vectors after inserting knots print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) !> Print the degrees print * , nurbs % get_degree () !> Elevate degree by 2 in both directions call nurbs % elevate_degree ( 1 , 2 ) ! direction 1 call nurbs % elevate_degree ( 2 , 2 ) ! direction 2 !> Print the degrees after elevating print * , nurbs % get_degree () !> Print size of the knot vectors print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) !> Remove knots 0.25, twice and 0.75, once in both directions call nurbs % remove_knots ( 1 , [ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) ! direction 1 call nurbs % remove_knots ( 2 , [ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) ! direction 2 !> Print size of the knot vectors after removing knots print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) !> Generate the refined NURBS surface with resolutions of 30 in both dimensions call nurbs % create () !> Export updated control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_surface_Xc2.vtk' ) !> Export the refined generated surface to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_surface_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_surface_Xc2.vtk' , 'vtk/nurbs_surface_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Transformations !----------------------------------------------------------------------------- !> Rotate the control points call nurbs % rotate_Xc ( alpha = 4 5.0_rk , beta = 0.0_rk , theta = 9 0.0_rk ) !> Rotate the generated curve call nurbs % rotate_Xg ( alpha =- 4 5.0_rk , beta = 0.0_rk , theta =- 9 0.0_rk ) !> Translate the control points call nurbs % translate_Xc ([ 1.0_rk , 2.0_rk , - 3.0_rk ]) !> Translate the generated curve call nurbs % translate_Xg ([ - 1.0_rk , - 2.0_rk , 3.0_rk ]) !> Export the transformed control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_surface_Xc3.vtk' ) !> Export the transformed generated volume to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_surface_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_surface_Xc3.vtk' , 'vtk/nurbs_surface_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS surface object call nurbs % finalize () contains !----------------------------------------------------------------------------- function generate_Xc ( num_rows , num_cols , peak_height ) result ( control_points ) integer , intent ( in ) :: num_rows , num_cols real ( rk ), intent ( in ) :: peak_height real ( rk ), allocatable :: control_points (:,:) integer :: i , j real ( rk ) :: x_spacing , y_spacing , x_offset , y_offset x_spacing = 1.0_rk / real ( num_cols - 1 , rk ) y_spacing = 1.0_rk / real ( num_rows - 1 , rk ) x_offset = - 0.5_rk y_offset = - 0.5_rk allocate ( control_points ( num_rows * num_cols , 3 )) do i = 1 , num_rows do j = 1 , num_cols control_points (( i - 1 ) * num_cols + j , 1 ) = x_offset + real ( j - 1 , rk ) * x_spacing control_points (( i - 1 ) * num_cols + j , 2 ) = y_offset + real ( i - 1 , rk ) * y_spacing control_points (( i - 1 ) * num_cols + j , 3 ) = & peak_height * exp ( - (( control_points (( i - 1 ) * num_cols + j , 1 ) ** 2 ) & + ( control_points (( i - 1 ) * num_cols + j , 2 ) ** 2 ))) + 0.5_rk * peak_height * 0.2_rk end do end do end function !----------------------------------------------------------------------------- end program example3_surface","tags":"","loc":"sourcefile/example_surface_1.f90.html"},{"title":"example_curve_1.f90 – ForCAD","text":"This file depends on sourcefile~~example_curve_1.f90~~EfferentGraph sourcefile~example_curve_1.f90 example_curve_1.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~example_curve_1.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> This program demonstrates the usage of a NURBS (Non-Uniform Rational B-Spline) curve object to create and finalize a NURBS curve. !> It sets up control points, weights, and knot vectors for all three dimensions, generates the curve, and exports the control points and the curve to VTK files. program example1_curve use forcad , only : rk , nurbs_curve implicit none type ( nurbs_curve ) :: nurbs !! Declare a NURBS curve object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights real ( rk ) :: knot ( 6 ) !! Array for knot vector !----------------------------------------------------------------------------- ! Setting up the NURBS curve !----------------------------------------------------------------------------- !> Define control points for the NURBS curve allocate ( Xc ( 3 , 3 )) Xc ( 1 ,:) = [ 0.0_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 0.0_rk , 5.0_rk , 0.0_rk ] Xc ( 3 ,:) = [ 5.0_rk , 5.0_rk , 0.0_rk ] !> Define weights for the control points (optional) allocate ( Wc ( 3 )) Wc = [ 1.0_rk , 2.0_rk , 0.3_rk ] !> Define knot vector knot = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] !> Set knot vector, control points, and weights for the NURBS curve object. !> Wc is optional call nurbs % set ( knot , Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_curve_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS curve !----------------------------------------------------------------------------- !> Generate the NURBS curve with a resolution of 20 call nurbs % create ( res = 20 ) !> Export the generated curve to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_curve_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_curve_Xc.vtk' , 'vtk/nurbs_curve_Xg.vtk' ) !----------------------------------------------------------------------------- ! Refinements !----------------------------------------------------------------------------- !> Print size of the knot vector print * , size ( nurbs % get_knot ()) !> Insert knots 0.25, twice and 0.75, once call nurbs % insert_knots ([ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) !> Print size of the updated knot vector print * , size ( nurbs % get_knot ()) !> Print the degree of the curve print * , nurbs % get_degree () !> Elevate the degree of the curve (2 times) call nurbs % elevate_degree ( 2 ) !> Print the updated degree of the curve print * , nurbs % get_degree () !> Print size of the knot vector print * , size ( nurbs % get_knot ()) !> Remove knots 0.25, twice and 0.75, once call nurbs % remove_knots ([ 0.25_rk , 0.75_rk ], [ 2 , 1 ]) !> Print size of the updated knot vector print * , size ( nurbs % get_knot ()) !> Generate the refined curve with a resolution of 20 call nurbs % create () !> Export updated control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_curve_Xc2.vtk' ) !> Export the refined generated curve to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_curve_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_curve_Xc2.vtk' , 'vtk/nurbs_curve_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Transformations !----------------------------------------------------------------------------- !> Rotate the control points call nurbs % rotate_Xc ( alpha = 4 5.0_rk , beta = 0.0_rk , theta = 9 0.0_rk ) !> Rotate the generated curve call nurbs % rotate_Xg ( alpha =- 4 5.0_rk , beta = 0.0_rk , theta =- 9 0.0_rk ) !> Translate the control points call nurbs % translate_Xc ([ 1.0_rk , 2.0_rk , - 3.0_rk ]) !> Translate the generated curve call nurbs % translate_Xg ([ - 1.0_rk , - 2.0_rk , 3.0_rk ]) !> Export the transformed control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_curve_Xc3.vtk' ) !> Export the transformed generated volume to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_curve_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_curve_Xc3.vtk' , 'vtk/nurbs_curve_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS curve object call nurbs % finalize () end program example1_curve","tags":"","loc":"sourcefile/example_curve_1.f90.html"},{"title":"forcad_nurbs_volume.f90 – ForCAD","text":"This file depends on sourcefile~~forcad_nurbs_volume.f90~~EfferentGraph sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Files dependent on this one sourcefile~~forcad_nurbs_volume.f90~~AfferentGraph sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~demo_curve.f90 demo_curve.f90 sourcefile~demo_curve.f90->sourcefile~forcad.f90 sourcefile~demo_surface.f90 demo_surface.f90 sourcefile~demo_surface.f90->sourcefile~forcad.f90 sourcefile~demo_volume.f90 demo_volume.f90 sourcefile~demo_volume.f90->sourcefile~forcad.f90 sourcefile~example_curve_1.f90 example_curve_1.f90 sourcefile~example_curve_1.f90->sourcefile~forcad.f90 sourcefile~example_ppm1.f90 example_ppm1.f90 sourcefile~example_ppm1.f90->sourcefile~forcad.f90 sourcefile~example_ppm2.f90 example_ppm2.f90 sourcefile~example_ppm2.f90->sourcefile~forcad.f90 sourcefile~example_ppm3.f90 example_ppm3.f90 sourcefile~example_ppm3.f90->sourcefile~forcad.f90 sourcefile~example_surface_1.f90 example_surface_1.f90 sourcefile~example_surface_1.f90->sourcefile~forcad.f90 sourcefile~example_volume_1.f90 example_volume_1.f90 sourcefile~example_volume_1.f90->sourcefile~forcad.f90 sourcefile~nearest_point_1d.f90 nearest_point_1d.f90 sourcefile~nearest_point_1d.f90->sourcefile~forcad.f90 sourcefile~nearest_point_2d.f90 nearest_point_2d.f90 sourcefile~nearest_point_2d.f90->sourcefile~forcad.f90 sourcefile~nearest_point_2d_bench.f90 nearest_point_2d_bench.f90 sourcefile~nearest_point_2d_bench.f90->sourcefile~forcad.f90 sourcefile~nearest_point_3d.f90 nearest_point_3d.f90 sourcefile~nearest_point_3d.f90->sourcefile~forcad.f90 sourcefile~put_to_nurbs.f90 put_to_nurbs.f90 sourcefile~put_to_nurbs.f90->sourcefile~forcad.f90 sourcefile~shape_c_1d.f90 shape_C_1d.f90 sourcefile~shape_c_1d.f90->sourcefile~forcad.f90 sourcefile~shape_c_2d.f90 shape_C_2d.f90 sourcefile~shape_c_2d.f90->sourcefile~forcad.f90 sourcefile~shape_c_3d.f90 shape_C_3d.f90 sourcefile~shape_c_3d.f90->sourcefile~forcad.f90 sourcefile~shape_circle.f90 shape_circle.f90 sourcefile~shape_circle.f90->sourcefile~forcad.f90 sourcefile~shape_half_circle.f90 shape_half_circle.f90 sourcefile~shape_half_circle.f90->sourcefile~forcad.f90 sourcefile~shape_half_ring_2d.f90 shape_half_ring_2d.f90 sourcefile~shape_half_ring_2d.f90->sourcefile~forcad.f90 sourcefile~shape_half_ring_3d.f90 shape_half_ring_3d.f90 sourcefile~shape_half_ring_3d.f90->sourcefile~forcad.f90 sourcefile~shape_hexahedron.f90 shape_hexahedron.f90 sourcefile~shape_hexahedron.f90->sourcefile~forcad.f90 sourcefile~shape_ring_2d.f90 shape_ring_2d.f90 sourcefile~shape_ring_2d.f90->sourcefile~forcad.f90 sourcefile~shape_ring_3d.f90 shape_ring_3d.f90 sourcefile~shape_ring_3d.f90->sourcefile~forcad.f90 sourcefile~shape_tetragon.f90 shape_tetragon.f90 sourcefile~shape_tetragon.f90->sourcefile~forcad.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> This module defines the 'nurbs_volume' type for representing a Non-Uniform Rational B-Spline (NURBS) volume. module forcad_nurbs_volume use forcad_utils , only : rk , basis_bspline , elemConn_C0 , kron , ndgrid , compute_multiplicity , compute_knot_vector , & basis_bspline_der , insert_knot_A_5_1 , findspan , elevate_degree_A_5_9 , hexahedron_Xc , remove_knots_A_5_8 , & elemConn_Cn , unique , rotation implicit none private public nurbs_volume !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause type nurbs_volume real ( rk ), allocatable , private :: Xc (:,:) !! Control points (2D array: [nc(1)*nc(2)*nc(3), dim]) real ( rk ), allocatable , private :: Xg (:,:) !! Geometry points (2D array: [ng(1)*ng(2)*ng(3), dim]) real ( rk ), allocatable , private :: Wc (:) !! Weights for the control points (1D array: [nc(1)*nc(2)*nc(3)]) real ( rk ), allocatable , private :: Xt1 (:) !! Evaluation parameter values in the first direction (1D array: [ng(1)]) real ( rk ), allocatable , private :: Xt2 (:) !! Evaluation parameter values in the second direction (1D array: [ng(2)]) real ( rk ), allocatable , private :: Xt3 (:) !! Evaluation parameter values in the third direction (1D array: [ng(3)]) real ( rk ), allocatable , private :: Xt (:,:) !! Evaluation parameter values (2D array: [ng(1)*ng(2)*ng(3), dim] real ( rk ), allocatable , private :: knot1 (:) !! Knot vector in the first direction (1D array) real ( rk ), allocatable , private :: knot2 (:) !! Knot vector in the second direction (1D array) real ( rk ), allocatable , private :: knot3 (:) !! Knot vector in the third direction (1D array) integer , private :: degree ( 3 ) !! Degree (order) of the volume integer , private :: nc ( 3 ) !! Number of control points in each direction integer , private :: ng ( 3 ) !! Number of geometry points in each direction integer , allocatable , private :: elemConn_Xc_vis (:,:) !! Connectivity for visualization of control points integer , allocatable , private :: elemConn_Xg_vis (:,:) !! Connectivity for visualization of geometry points integer , allocatable , private :: elemConn (:,:) !! IGA element connectivity contains procedure :: set1 !!> Set knot vectors, control points and weights for the NURBS volume object procedure :: set2 !!> Set NURBS volume using nodes of parameter space, degree, continuity, control points and weights procedure :: set3 !!> Set Bezier or Rational Bezier volume using control points and weights generic :: set => set1 , set2 , set3 !!> Set NURBS volume procedure :: create !!> Generate geometry points procedure , private :: get_Xc_all !!> Get all control points procedure , private :: get_Xci !!> Get i-th control point procedure , private :: get_Xcid !!> Get i-th control point in a specific direction generic :: get_Xc => get_Xc_all , get_Xci , get_Xcid !!> Get control points procedure , private :: get_Xg_all !!> Get all geometry points procedure , private :: get_Xgi !!> Get i-th geometry point procedure , private :: get_Xgid !!> Get i-th geometry point in a specific direction generic :: get_Xg => get_Xg_all , get_Xgi , get_Xgid !!> Get geometry points procedure , private :: get_Wc_all !!> Get all weights procedure , private :: get_Wci !!> Get i-th weight generic :: get_Wc => get_Wc_all , get_Wci !!> Get weights procedure :: get_Xt !!> Get parameter values procedure , private :: get_knot_all !!> Get all knot vectors procedure , private :: get_knoti !!> Get i-th knot value generic :: get_knot => get_knoti , get_knot_all !!> Get knot vector procedure :: get_ng !!> Get number of geometry points procedure :: cmp_degree !!> Compute degree of the NURBS volume procedure , private :: get_degree_all !!> Get degree of the NURBS volume in all directions procedure , private :: get_degree_dir !!> Get degree of the NURBS volume in a specific direction generic :: get_degree => get_degree_all , get_degree_dir !!> Get degree of the NURBS volume procedure :: finalize !!> Finalize the NURBS volume object procedure :: cmp_elem_Xc_vis !!> Generate connectivity for control points procedure :: cmp_elem_Xg_vis !!> Generate connectivity for geometry points procedure :: cmp_elem !!> Generate IGA element connectivity procedure :: get_elem_Xc_vis !!> Get connectivity for control points procedure :: get_elem_Xg_vis !!> Get connectivity for geometry points procedure :: get_elem !!> Get IGA element connectivity procedure :: set_elem_Xc_vis !!> Set connectivity for control points procedure :: set_elem_Xg_vis !!> Set connectivity for geometry points procedure :: set_elem !!> Set IGA element connectivity procedure :: export_Xc !!> Export control points to VTK file procedure :: export_Xg !!> Export geometry points to VTK file procedure :: modify_Xc !!> Modify control points procedure :: modify_Wc !!> Modify weights procedure :: get_multiplicity !!> Compute and return the multiplicity of the knots procedure :: get_continuity !!> Compute and return the continuity of the NURBS volume procedure :: cmp_nc !!> Compute number of required control points procedure :: derivative !!> Compute the derivative of the NURBS volume procedure :: basis !!> Compute the basis functions of the NURBS volume procedure :: insert_knots !!> Insert knots into the knot vector procedure :: elevate_degree !!> Elevate the degree of the NURBS volume procedure :: is_rational !!> Check if the NURBS volume is rational procedure :: put_to_nurbs !!> Put a shape to a NURBS volume procedure :: remove_knots !!> Remove knots from the knot vector procedure :: rotate_Xc !!> Rotate control points procedure :: rotate_Xg !!> Rotate geometry points procedure :: translate_Xc !!> Translate control points procedure :: translate_Xg !!> Translate geometry points procedure :: show !!> Show the NURBS object using PyVista procedure :: nearest_point !!> Find the nearest point on the NURBS volume ! Shapes procedure :: set_hexahedron !!> Set a hexahedron procedure :: set_ring !!> Set a ring procedure :: set_half_ring !!> Set a half ring procedure :: set_C !!> Set a C-shape end type !=============================================================================== contains !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> Set control points and weights for the NURBS volume object. pure subroutine set1 ( this , knot1 , knot2 , knot3 , Xc , Wc ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:), knot3 (:) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) if ( allocated ( this % knot1 )) deallocate ( this % knot1 ) if ( allocated ( this % knot2 )) deallocate ( this % knot2 ) if ( allocated ( this % knot3 )) deallocate ( this % knot3 ) if ( allocated ( this % Xc )) deallocate ( this % Xc ) this % knot1 = knot1 this % knot2 = knot2 this % knot3 = knot3 call this % cmp_degree () call this % cmp_nc () this % Xc = Xc if ( present ( Wc )) then if ( size ( Wc ) /= this % nc ( 1 ) * this % nc ( 2 ) * this % nc ( 3 )) then error stop 'Number of weights does not match the number of control points.' else if ( allocated ( this % Wc )) deallocate ( this % Wc ) this % Wc = Wc end if end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> Set control points and weights for the NURBS volume object. pure subroutine set2 ( this , Xth_dir1 , Xth_dir2 , Xth_dir3 , degree , continuity1 , continuity2 , continuity3 , Xc , Wc ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: Xth_dir1 (:), Xth_dir2 (:), Xth_dir3 (:) integer , intent ( in ), contiguous :: degree (:) integer , intent ( in ), contiguous :: continuity1 (:), continuity2 (:), continuity3 (:) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) this % knot1 = compute_knot_vector ( Xth_dir1 , degree ( 1 ), continuity1 ) this % knot2 = compute_knot_vector ( Xth_dir2 , degree ( 2 ), continuity2 ) this % knot3 = compute_knot_vector ( Xth_dir3 , degree ( 3 ), continuity3 ) this % degree ( 1 ) = degree ( 1 ) this % degree ( 2 ) = degree ( 2 ) this % degree ( 3 ) = degree ( 3 ) call this % cmp_nc () this % Xc = Xc if ( present ( Wc )) this % Wc = Wc end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> Set Bezier or Rational Bezier volume using control points and weights. pure subroutine set3 ( this , nc , Xc , Wc ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ), contiguous :: nc (:) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) if ( allocated ( this % Xc )) deallocate ( this % Xc ) this % Xc = Xc this % nc = nc if ( allocated ( this % knot1 )) deallocate ( this % knot1 ) allocate ( this % knot1 ( 2 * this % nc ( 1 ))) this % knot1 ( 1 : this % nc ( 1 )) = 0.0_rk this % knot1 ( this % nc ( 1 ) + 1 : 2 * this % nc ( 1 )) = 1.0_rk if ( allocated ( this % knot2 )) deallocate ( this % knot2 ) allocate ( this % knot2 ( 2 * this % nc ( 2 ))) this % knot2 ( 1 : this % nc ( 2 )) = 0.0_rk this % knot2 ( this % nc ( 2 ) + 1 : 2 * this % nc ( 2 )) = 1.0_rk if ( allocated ( this % knot3 )) deallocate ( this % knot3 ) allocate ( this % knot3 ( 2 * this % nc ( 3 ))) this % knot3 ( 1 : this % nc ( 3 )) = 0.0_rk this % knot3 ( this % nc ( 3 ) + 1 : 2 * this % nc ( 3 )) = 1.0_rk call this % cmp_degree () if ( present ( Wc )) then if ( size ( Wc ) /= this % nc ( 1 ) * this % nc ( 2 ) * this % nc ( 3 )) then error stop 'Number of weights does not match the number of control points.' else if ( allocated ( this % Wc )) deallocate ( this % Wc ) this % Wc = Wc end if end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine create ( this , res1 , res2 , res3 , Xt1 , Xt2 , Xt3 , Xt ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ), optional :: res1 , res2 , res3 real ( rk ), intent ( in ), contiguous , optional :: Xt1 (:), Xt2 (:), Xt3 (:) real ( rk ), intent ( in ), contiguous , optional :: Xt (:,:) integer :: i interface pure function compute_Xg_nurbs_3d ( f_Xt , f_knot1 , f_knot2 , f_knot3 , f_degree , f_nc , f_ng , f_Xc , f_Wc ) result ( f_Xg ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:), f_knot3 (:) integer , intent ( in ) :: f_degree ( 3 ) integer , intent ( in ) :: f_nc ( 3 ) integer , intent ( in ) :: f_ng ( 3 ) real ( rk ), intent ( in ), contiguous :: f_Xc (:,:) real ( rk ), intent ( in ), contiguous :: f_Wc (:) real ( rk ), allocatable :: f_Xg (:,:) end function end interface interface pure function compute_Xg_bspline_3d ( f_Xt , f_knot1 , f_knot2 , f_knot3 , f_degree , f_nc , f_ng , f_Xc ) result ( f_Xg ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:), f_knot3 (:) integer , intent ( in ) :: f_degree ( 3 ) integer , intent ( in ) :: f_nc ( 3 ) integer , intent ( in ) :: f_ng ( 3 ) real ( rk ), intent ( in ), contiguous :: f_Xc (:,:) real ( rk ), allocatable :: f_Xg (:,:) end function end interface ! check if (. not . allocated ( this % Xc )) then error stop 'Control points are not set.' end if if (. not . allocated ( this % knot1 ) . or . . not . allocated ( this % knot2 ) . or . . not . allocated ( this % knot3 )) then error stop 'Knot vector(s) is/are not set.' end if ! Set parameter values if ( present ( Xt1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) this % Xt1 = Xt1 elseif ( present ( res1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) allocate ( this % Xt1 ( res1 )) this % Xt1 = [( real ( i - 1 , rk ) / real ( res1 - 1 , rk ), i = 1 , res1 )] ! else ! this%Xt1 = this%Xt1 end if ! Set parameter values if ( present ( Xt2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) this % Xt2 = Xt2 elseif ( present ( res2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) allocate ( this % Xt2 ( res2 )) this % Xt2 = [( real ( i - 1 , rk ) / real ( res2 - 1 , rk ), i = 1 , res2 )] ! else ! this%Xt2 = this%Xt2 end if ! Set parameter values if ( present ( Xt3 )) then if ( allocated ( this % Xt3 )) deallocate ( this % Xt3 ) this % Xt3 = Xt3 elseif ( present ( res3 )) then if ( allocated ( this % Xt3 )) deallocate ( this % Xt3 ) allocate ( this % Xt3 ( res3 )) this % Xt3 = [( real ( i - 1 , rk ) / real ( res3 - 1 , rk ), i = 1 , res3 )] ! else ! this%Xt3 = this%Xt3 end if if ( present ( Xt )) then this % Xt = Xt else ! Set number of geometry points this % ng ( 1 ) = size ( this % Xt1 , 1 ) this % ng ( 2 ) = size ( this % Xt2 , 1 ) this % ng ( 3 ) = size ( this % Xt3 , 1 ) call ndgrid ( this % Xt1 , this % Xt2 , this % Xt3 , this % Xt ) end if if ( allocated ( this % Xg )) deallocate ( this % Xg ) allocate ( this % Xg ( this % ng ( 1 ) * this % ng ( 2 ) * this % ng ( 3 ), size ( this % Xc , 2 ))) if ( allocated ( this % Wc )) then ! NURBS volume this % Xg = compute_Xg_nurbs_3d (& this % Xt , this % knot1 , this % knot2 , this % knot3 , this % degree , this % nc , this % ng , this % Xc , this % Wc ) else this % Xg = compute_Xg_bspline_3d (& this % Xt , this % knot1 , this % knot2 , this % knot3 , this % degree , this % nc , this % ng , this % Xc ) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xc_all ( this ) result ( Xc ) class ( nurbs_volume ), intent ( in ) :: this real ( rk ), allocatable :: Xc (:,:) if ( allocated ( this % Xc )) then Xc = this % Xc else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xci ( this , n ) result ( Xc ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: n real ( rk ), allocatable :: Xc (:) if ( allocated ( this % Xc )) then if ( n < lbound ( this % Xc , 1 ) . or . n > ubound ( this % Xc , 1 )) then error stop 'Invalid index for control points.' end if Xc = this % Xc ( n ,:) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xcid ( this , n , dir ) result ( Xc ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: n integer , intent ( in ) :: dir real ( rk ) :: Xc if ( allocated ( this % Xc )) then if ( n < lbound ( this % Xc , 1 ) . or . n > ubound ( this % Xc , 1 )) then error stop 'Invalid index for control points.' end if if ( dir < lbound ( this % Xc , 2 ) . or . dir > ubound ( this % Xc , 2 )) then error stop 'Invalid direction for control points.' end if Xc = this % Xc ( n , dir ) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xg_all ( this ) result ( Xg ) class ( nurbs_volume ), intent ( in ) :: this real ( rk ), allocatable :: Xg (:,:) if ( allocated ( this % Xg )) then Xg = this % Xg else error stop 'Geometry points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xgi ( this , n ) result ( Xg ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: n real ( rk ), allocatable :: Xg (:) if ( allocated ( this % Xg )) then if ( n < lbound ( this % Xg , 1 ) . or . n > ubound ( this % Xg , 1 )) then error stop 'Invalid index for geometry points.' end if Xg = this % Xg ( n ,:) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xgid ( this , n , dir ) result ( Xg ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: n integer , intent ( in ) :: dir real ( rk ) :: Xg if ( allocated ( this % Xg )) then if ( n < lbound ( this % Xg , 1 ) . or . n > ubound ( this % Xg , 1 )) then error stop 'Invalid index for geometry points.' end if if ( dir < lbound ( this % Xg , 2 ) . or . dir > ubound ( this % Xg , 2 )) then error stop 'Invalid direction for geometry points.' end if Xg = this % Xg ( n , dir ) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Wc_all ( this ) result ( Wc ) class ( nurbs_volume ), intent ( in ) :: this real ( rk ), allocatable :: Wc (:) if ( allocated ( this % Wc )) then Wc = this % Wc else error stop 'The NURBS volume is not rational or weights are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Wci ( this , n ) result ( Wc ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: n real ( rk ) :: Wc if ( allocated ( this % Wc )) then if ( n < lbound ( this % Wc , 1 ) . or . n > ubound ( this % Wc , 1 )) then error stop 'Invalid index for weights.' end if Wc = this % Wc ( n ) else error stop 'The NURBS volume is not rational or weights are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xt ( this , dir ) result ( Xt ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: dir real ( rk ), allocatable :: Xt (:) if ( dir == 1 ) then if ( allocated ( this % Xt1 )) then Xt = this % Xt1 else error stop 'Parameter values are not set.' end if elseif ( dir == 2 ) then if ( allocated ( this % Xt2 )) then Xt = this % Xt2 else error stop 'Parameter values are not set.' end if elseif ( dir == 3 ) then if ( allocated ( this % Xt3 )) then Xt = this % Xt3 else error stop 'Parameter values are not set.' end if else error stop 'Invalid direction for parameter values.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_ng ( this ) result ( ng ) class ( nurbs_volume ), intent ( in ) :: this integer :: ng ( 3 ) ng = this % ng end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine cmp_degree ( this , dir ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ), optional :: dir integer , allocatable :: m1 (:), m2 (:), m3 (:) if ( present ( dir )) then if ( dir == 1 ) then m1 = this % get_multiplicity ( 1 ) this % degree ( 1 ) = m1 ( 1 ) - 1 else if ( dir == 2 ) then m2 = this % get_multiplicity ( 2 ) this % degree ( 2 ) = m2 ( 1 ) - 1 else if ( dir == 3 ) then m3 = this % get_multiplicity ( 3 ) this % degree ( 3 ) = m3 ( 1 ) - 1 else error stop 'Invalid direction for degree.' end if else m1 = this % get_multiplicity ( 1 ) this % degree ( 1 ) = m1 ( 1 ) - 1 m2 = this % get_multiplicity ( 2 ) this % degree ( 2 ) = m2 ( 1 ) - 1 m3 = this % get_multiplicity ( 3 ) this % degree ( 3 ) = m3 ( 1 ) - 1 end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_degree_all ( this ) result ( degree ) class ( nurbs_volume ), intent ( in ) :: this integer :: degree ( 3 ) degree ( 1 ) = this % degree ( 1 ) degree ( 2 ) = this % degree ( 2 ) degree ( 3 ) = this % degree ( 3 ) end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_degree_dir ( this , dir ) result ( degree ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: dir integer :: degree if ( dir == 1 ) then degree = this % degree ( 1 ) else if ( dir == 2 ) then degree = this % degree ( 2 ) else if ( dir == 3 ) then degree = this % degree ( 3 ) else error stop 'Invalid direction for degree.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_knot_all ( this , dir ) result ( knot ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: dir real ( rk ), allocatable :: knot (:) if ( dir == 1 ) then if ( allocated ( this % knot1 )) then knot = this % knot1 else error stop 'Knot vector is not set.' end if elseif ( dir == 2 ) then if ( allocated ( this % knot2 )) then knot = this % knot2 else error stop 'Knot vector is not set.' end if elseif ( dir == 3 ) then if ( allocated ( this % knot3 )) then knot = this % knot3 else error stop 'Knot vector is not set.' end if else error stop 'Invalid direction for knot vector.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_knoti ( this , dir , i ) result ( knot ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: dir integer , intent ( in ) :: i real ( rk ) :: knot if ( dir == 1 ) then if ( allocated ( this % knot1 )) then if ( i < 1 . or . i > size ( this % knot1 )) then error stop 'Invalid index for knot vector.' else knot = this % knot1 ( i ) end if else error stop 'Knot vector is not set.' end if elseif ( dir == 2 ) then if ( allocated ( this % knot2 )) then if ( i < 1 . or . i > size ( this % knot2 )) then error stop 'Invalid index for knot vector.' else knot = this % knot2 ( i ) end if else error stop 'Knot vector is not set.' end if elseif ( dir == 3 ) then if ( allocated ( this % knot3 )) then if ( i < 1 . or . i > size ( this % knot3 )) then error stop 'Invalid index for knot vector.' else knot = this % knot3 ( i ) end if else error stop 'Knot vector is not set.' end if else error stop 'Invalid direction for knot vector.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine finalize ( this ) class ( nurbs_volume ), intent ( inout ) :: this if ( allocated ( this % Xc )) deallocate ( this % Xc ) if ( allocated ( this % Xg )) deallocate ( this % Xg ) if ( allocated ( this % Wc )) deallocate ( this % Wc ) if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) if ( allocated ( this % Xt3 )) deallocate ( this % Xt3 ) if ( allocated ( this % Xt )) deallocate ( this % Xt ) if ( allocated ( this % knot1 )) deallocate ( this % knot1 ) if ( allocated ( this % knot2 )) deallocate ( this % knot2 ) if ( allocated ( this % knot3 )) deallocate ( this % knot3 ) if ( allocated ( this % elemConn_Xc_vis )) deallocate ( this % elemConn_Xc_vis ) if ( allocated ( this % elemConn_Xg_vis )) deallocate ( this % elemConn_Xg_vis ) if ( allocated ( this % elemConn )) deallocate ( this % elemConn ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elem_Xc_vis ( this , p ) result ( elemConn ) class ( nurbs_volume ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) integer , intent ( in ), contiguous , optional :: p (:) if ( present ( p )) then elemConn = elemConn_C0 ( this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), p ( 1 ), p ( 2 ), p ( 3 )) else elemConn = elemConn_C0 ( this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), 1 , 1 , 1 ) end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elem_Xg_vis ( this , p ) result ( elemConn ) class ( nurbs_volume ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) integer , intent ( in ), contiguous , optional :: p (:) if ( present ( p )) then elemConn = elemConn_C0 ( this % ng ( 1 ), this % ng ( 2 ), this % ng ( 3 ), p ( 1 ), p ( 2 ), p ( 3 )) else elemConn = elemConn_C0 ( this % ng ( 1 ), this % ng ( 2 ), this % ng ( 3 ), 1 , 1 , 1 ) end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure subroutine export_Xc ( this , filename ) class ( nurbs_volume ), intent ( in ) :: this character ( len =* ), intent ( in ) :: filename integer :: i , nc , nunit integer , allocatable :: elemConn (:,:) ! check if (. not . allocated ( this % Xc )) then error stop 'Control points are not set.' end if if (. not . allocated ( this % elemConn_Xc_vis )) then elemConn = this % cmp_elem_Xc_vis () else elemConn = this % elemConn_Xc_vis end if nc = size ( this % Xc , 1 ) open ( newunit = nunit , file = filename , action = 'write' ) write ( nunit , '(a)' ) '# vtk DataFile Version 2.0' write ( nunit , '(a)' ) 'Generated by ForCAD' write ( nunit , '(a)' ) 'ASCII' write ( nunit , '(a)' ) 'DATASET UNSTRUCTURED_GRID' write ( nunit , '(a,\" \",g0,\" \",a)' ) 'POINTS' , nc , 'double' if ( size ( this % Xc , 2 ) == 2 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xc ( i , 1 ), this % Xc ( i , 2 ), 0.0_rk , i = 1 , nc ) elseif ( size ( this % Xc , 2 ) == 3 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xc ( i , 1 ), this % Xc ( i , 2 ), this % Xc ( i , 3 ) , i = 1 , nc ) else error stop 'Invalid dimension for control points.' end if write ( nunit , '(a,\" \",g0,\" \",g0)' ) 'CELLS' , size ( elemConn , 1 ), size ( elemConn , 1 ) * ( size ( elemConn , 2 ) + 1 ) write ( nunit , '(g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0)' )& ( 8 , elemConn ( i , 1 ) - 1 , elemConn ( i , 2 ) - 1 , elemConn ( i , 4 ) - 1 , elemConn ( i , 3 ) - 1 ,& elemConn ( i , 5 ) - 1 , elemConn ( i , 6 ) - 1 , elemConn ( i , 8 ) - 1 , elemConn ( i , 7 ) - 1 , i = 1 , size ( elemConn , 1 )) write ( nunit , '(a,\" \",g0)' ) 'CELL_TYPES' , size ( elemConn , 1 ) write ( nunit , '(g0)' ) ( 12 , i = 1 , size ( elemConn , 1 )) close ( nunit ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure subroutine export_Xg ( this , filename ) class ( nurbs_volume ), intent ( in ) :: this character ( len =* ), intent ( in ) :: filename integer :: i , ng , nunit integer , allocatable :: elemConn (:,:) ! check if (. not . allocated ( this % Xg )) then error stop 'Geometry points are not set.' end if if (. not . allocated ( this % elemConn_Xg_vis )) then elemConn = this % cmp_elem_Xg_vis () else elemConn = this % elemConn_Xg_vis end if ng = size ( this % Xg , 1 ) open ( newunit = nunit , file = filename , action = 'write' ) write ( nunit , '(a)' ) '# vtk DataFile Version 2.0' write ( nunit , '(a)' ) 'Generated by ForCAD' write ( nunit , '(a)' ) 'ASCII' write ( nunit , '(a)' ) 'DATASET UNSTRUCTURED_GRID' write ( nunit , '(a,\" \",g0,\" \",a)' ) 'POINTS' , ng , 'double' if ( size ( this % Xg , 2 ) == 2 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xg ( i , 1 ), this % Xg ( i , 2 ), 0.0_rk , i = 1 , ng ) elseif ( size ( this % Xg , 2 ) == 3 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xg ( i , 1 ), this % Xg ( i , 2 ), this % Xg ( i , 3 ) , i = 1 , ng ) else error stop 'Invalid dimension for geometry points.' end if write ( nunit , '(a,\" \",g0,\" \",g0)' ) 'CELLS' , size ( elemConn , 1 ), size ( elemConn , 1 ) * ( size ( elemConn , 2 ) + 1 ) write ( nunit , '(g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0)' )& ( 8 , elemConn ( i , 1 ) - 1 , elemConn ( i , 2 ) - 1 , elemConn ( i , 4 ) - 1 , elemConn ( i , 3 ) - 1 ,& elemConn ( i , 5 ) - 1 , elemConn ( i , 6 ) - 1 , elemConn ( i , 8 ) - 1 , elemConn ( i , 7 ) - 1 , i = 1 , size ( elemConn , 1 )) write ( nunit , '(a,\" \",g0)' ) 'CELL_TYPES' , size ( elemConn , 1 ) write ( nunit , '(g0)' ) ( 12 , i = 1 , size ( elemConn , 1 )) close ( nunit ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine modify_Xc ( this , X , num , dir ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ) :: X integer , intent ( in ) :: num integer , intent ( in ) :: dir if ( allocated ( this % Xc )) then this % Xc ( num , dir ) = X if ( allocated ( this % Wc )) then call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), knot3 = this % get_knot ( 3 ),& Xc = this % get_Xc (), Wc = this % get_Wc ()) else call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), knot3 = this % get_knot ( 3 ),& Xc = this % get_Xc ()) end if else error stop 'Control points are not set.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine modify_Wc ( this , W , num ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ) :: W integer , intent ( in ) :: num if ( allocated ( this % Wc )) then this % Wc ( num ) = W if ( allocated ( this % knot1 ) . and . allocated ( this % knot2 ) . and . allocated ( this % knot3 )) then call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), knot3 = this % get_knot ( 3 ),& Xc = this % get_Xc (), Wc = this % get_Wc ()) else call this % set ( nc = this % nc , Xc = this % get_Xc (), Wc = this % get_Wc ()) end if else error stop 'The NURBS volume is not rational.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_multiplicity ( this , dir ) result ( m ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: dir integer , allocatable :: m (:) if ( dir == 1 ) then ! check if (. not . allocated ( this % knot1 )) then error stop 'Knot vector is not set.' else m = compute_multiplicity ( this % knot1 ) end if elseif ( dir == 2 ) then ! check if (. not . allocated ( this % knot2 )) then error stop 'Knot vector is not set.' else m = compute_multiplicity ( this % knot2 ) end if elseif ( dir == 3 ) then ! check if (. not . allocated ( this % knot3 )) then error stop 'Knot vector is not set.' else m = compute_multiplicity ( this % knot3 ) end if else error stop 'Invalid direction.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_continuity ( this , dir ) result ( c ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: dir integer , allocatable :: c (:) if ( dir == 1 ) then ! check if (. not . allocated ( this % knot1 )) then error stop 'Knot vector is not set.' else c = this % degree ( 1 ) - compute_multiplicity ( this % knot1 ) end if elseif ( dir == 2 ) then ! check if (. not . allocated ( this % knot2 )) then error stop 'Knot vector is not set.' else c = this % degree ( 2 ) - compute_multiplicity ( this % knot2 ) end if elseif ( dir == 3 ) then ! check if (. not . allocated ( this % knot3 )) then error stop 'Knot vector is not set.' else c = this % degree ( 3 ) - compute_multiplicity ( this % knot3 ) end if else error stop 'Invalid direction.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine cmp_nc ( this , dir ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ), optional :: dir if ( present ( dir )) then if ( dir == 1 ) then ! check if (. not . allocated ( this % knot1 )) then error stop 'Knot vector is not set.' else this % nc ( 1 ) = sum ( compute_multiplicity ( this % knot1 )) - this % degree ( 1 ) - 1 end if elseif ( dir == 2 ) then ! check if (. not . allocated ( this % knot2 )) then error stop 'Knot vector is not set.' else this % nc ( 2 ) = sum ( compute_multiplicity ( this % knot2 )) - this % degree ( 2 ) - 1 end if elseif ( dir == 3 ) then ! check if (. not . allocated ( this % knot3 )) then error stop 'Knot vector is not set.' else this % nc ( 3 ) = sum ( compute_multiplicity ( this % knot3 )) - this % degree ( 3 ) - 1 end if else error stop 'Invalid direction.' end if else ! check if (. not . allocated ( this % knot1 )) then error stop 'Knot vector is not set.' else this % nc ( 1 ) = sum ( compute_multiplicity ( this % knot1 )) - this % degree ( 1 ) - 1 end if ! check if (. not . allocated ( this % knot2 )) then error stop 'Knot vector is not set.' else this % nc ( 2 ) = sum ( compute_multiplicity ( this % knot2 )) - this % degree ( 2 ) - 1 end if ! check if (. not . allocated ( this % knot3 )) then error stop 'Knot vector is not set.' else this % nc ( 3 ) = sum ( compute_multiplicity ( this % knot3 )) - this % degree ( 3 ) - 1 end if end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_nc ( this , dir ) result ( nc ) class ( nurbs_volume ), intent ( in ) :: this integer , intent ( in ) :: dir integer :: nc if ( dir == 1 ) then ! check if (. not . allocated ( this % knot1 )) then error stop 'Knot vector is not set.' else nc = sum ( compute_multiplicity ( this % knot1 )) - this % degree ( 1 ) - 1 end if elseif ( dir == 2 ) then ! check if (. not . allocated ( this % knot2 )) then error stop 'Knot vector is not set.' else nc = sum ( compute_multiplicity ( this % knot2 )) - this % degree ( 2 ) - 1 end if elseif ( dir == 3 ) then ! check if (. not . allocated ( this % knot3 )) then error stop 'Knot vector is not set.' else nc = sum ( compute_multiplicity ( this % knot3 )) - this % degree ( 3 ) - 1 end if else error stop 'Invalid direction.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine derivative ( this , res1 , res2 , res3 , Xt1 , Xt2 , Xt3 , dTgc ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ), optional :: res1 , res2 , res3 real ( rk ), intent ( in ), contiguous , optional :: Xt1 (:), Xt2 (:), Xt3 (:) real ( rk ), allocatable , intent ( out ) :: dTgc (:,:) integer :: i real ( rk ), allocatable :: Xt (:,:) interface pure function compute_dTgc_nurbs_3d ( f_Xt , f_knot1 , f_knot2 , f_knot3 , f_degree , f_nc , f_ng , f_Wc ) result ( f_dTgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:), f_knot3 (:) integer , intent ( in ) :: f_degree ( 3 ) integer , intent ( in ) :: f_nc ( 3 ) integer , intent ( in ) :: f_ng ( 3 ) real ( rk ), intent ( in ), contiguous :: f_Wc (:) real ( rk ), allocatable :: f_dTgc (:,:) end function end interface interface pure function compute_dTgc_bspline_3d ( f_Xt , f_knot1 , f_knot2 , f_knot3 , f_degree , f_nc , f_ng ) result ( f_dTgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:), f_knot3 (:) integer , intent ( in ) :: f_degree ( 3 ) integer , intent ( in ) :: f_nc ( 3 ) integer , intent ( in ) :: f_ng ( 3 ) real ( rk ), allocatable :: f_dTgc (:,:) end function end interface ! Set parameter values if ( present ( Xt1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) this % Xt1 = Xt1 elseif ( present ( res1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) allocate ( this % Xt1 ( res1 )) this % Xt1 = [( real ( i - 1 , rk ) / real ( res1 - 1 , rk ), i = 1 , res1 )] ! else ! this%Xt1 = this%Xt1 end if ! Set parameter values if ( present ( Xt2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) this % Xt2 = Xt2 elseif ( present ( res2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) allocate ( this % Xt2 ( res2 )) this % Xt2 = [( real ( i - 1 , rk ) / real ( res2 - 1 , rk ), i = 1 , res2 )] ! else ! this%Xt2 = this%Xt2 end if ! Set parameter values if ( present ( Xt3 )) then if ( allocated ( this % Xt3 )) deallocate ( this % Xt3 ) this % Xt3 = Xt3 elseif ( present ( res3 )) then if ( allocated ( this % Xt3 )) deallocate ( this % Xt3 ) allocate ( this % Xt3 ( res3 )) this % Xt3 = [( real ( i - 1 , rk ) / real ( res3 - 1 , rk ), i = 1 , res3 )] ! else ! this%Xt3 = this%Xt3 end if ! Set number of geometry points this % ng ( 1 ) = size ( this % Xt1 , 1 ) this % ng ( 2 ) = size ( this % Xt2 , 1 ) this % ng ( 3 ) = size ( this % Xt3 , 1 ) call ndgrid ( this % Xt1 , this % Xt2 , this % Xt3 , Xt ) if ( this % is_rational ()) then ! NURBS dTgc = compute_dTgc_nurbs_3d ( Xt , this % knot1 , this % knot2 , this % knot3 , this % degree , this % nc , this % ng , this % Wc ) else dTgc = compute_dTgc_bspline_3d ( Xt , this % knot1 , this % knot2 , this % knot3 , this % degree , this % nc , this % ng ) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine basis ( this , res1 , res2 , res3 , Xt1 , Xt2 , Xt3 , Tgc ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ), optional :: res1 , res2 , res3 real ( rk ), intent ( in ), contiguous , optional :: Xt1 (:), Xt2 (:), Xt3 (:) real ( rk ), allocatable , intent ( out ) :: Tgc (:,:) integer :: i real ( rk ), allocatable :: Xt (:,:) interface pure function compute_Tgc_nurbs_3d ( f_Xt , f_knot1 , f_knot2 , f_knot3 , f_degree , f_nc , f_ng , f_Wc ) result ( f_Tgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:), f_knot3 (:) integer , intent ( in ) :: f_degree ( 3 ) integer , intent ( in ) :: f_nc ( 3 ) integer , intent ( in ) :: f_ng ( 3 ) real ( rk ), intent ( in ), contiguous :: f_Wc (:) real ( rk ), allocatable :: f_Tgc (:,:) end function end interface interface pure function compute_Tgc_bspline_3d ( f_Xt , f_knot1 , f_knot2 , f_knot3 , f_degree , f_nc , f_ng ) result ( f_Tgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:), f_knot3 (:) integer , intent ( in ) :: f_degree ( 3 ) integer , intent ( in ) :: f_nc ( 3 ) integer , intent ( in ) :: f_ng ( 3 ) real ( rk ), allocatable :: f_Tgc (:,:) end function end interface ! Set parameter values if ( present ( Xt1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) this % Xt1 = Xt1 elseif ( present ( res1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) allocate ( this % Xt1 ( res1 )) this % Xt1 = [( real ( i - 1 , rk ) / real ( res1 - 1 , rk ), i = 1 , res1 )] ! else ! this%Xt1 = this%Xt1 end if ! Set parameter values if ( present ( Xt2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) this % Xt2 = Xt2 elseif ( present ( res2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) allocate ( this % Xt2 ( res2 )) this % Xt2 = [( real ( i - 1 , rk ) / real ( res2 - 1 , rk ), i = 1 , res2 )] ! else ! this%Xt2 = this%Xt2 end if ! Set parameter values if ( present ( Xt3 )) then if ( allocated ( this % Xt3 )) deallocate ( this % Xt3 ) this % Xt3 = Xt3 elseif ( present ( res3 )) then if ( allocated ( this % Xt3 )) deallocate ( this % Xt3 ) allocate ( this % Xt3 ( res3 )) this % Xt3 = [( real ( i - 1 , rk ) / real ( res3 - 1 , rk ), i = 1 , res3 )] ! else ! this%Xt3 = this%Xt3 end if ! Set number of geometry points this % ng ( 1 ) = size ( this % Xt1 , 1 ) this % ng ( 2 ) = size ( this % Xt2 , 1 ) this % ng ( 3 ) = size ( this % Xt3 , 1 ) call ndgrid ( this % Xt1 , this % Xt2 , this % Xt3 , Xt ) if ( allocated ( this % Wc )) then ! NURBS volume Tgc = compute_Tgc_nurbs_3d ( Xt , this % knot1 , this % knot2 , this % knot3 , this % degree , this % nc , this % ng , this % Wc ) else Tgc = compute_Tgc_bspline_3d ( Xt , this % knot1 , this % knot2 , this % knot3 , this % degree , this % nc , this % ng ) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine insert_knots ( this , dir , Xth , r ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ) :: dir real ( rk ), intent ( in ), contiguous :: Xth (:) integer , intent ( in ), contiguous :: r (:) integer :: k , i , s , dim , j , n_new real ( rk ), allocatable :: Xc (:,:), Xcw (:,:), Xcw_new (:,:), Xc_new (:,:), Wc_new (:), knot_new (:) real ( rk ), allocatable :: Xc4 (:,:,:,:) if ( dir == 1 ) then ! direction 1 if ( allocated ( this % Wc )) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc ( 1 ) - 1 , this % degree ( 1 ), Xth ( i ), this % knot1 ) if ( this % knot1 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot1 , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xcw = reshape ( Xcw ,[ this % nc ( 1 ), this % nc ( 2 ) * this % nc ( 3 ) * ( dim + 1 )]) call insert_knot_A_5_1 (& this % degree ( 1 ),& this % knot1 ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xcw_new ) Xcw_new = reshape ( Xcw_new ,[( n_new + 1 ) * this % nc ( 2 ) * this % nc ( 3 ), dim + 1 ]) allocate ( Xc_new ( 1 :( n_new + 1 ) * this % nc ( 2 ) * this % nc ( 3 ), 1 : dim )) allocate ( Wc_new ( 1 :( n_new + 1 ) * this % nc ( 2 ) * this % nc ( 3 ))) do j = 1 , ( n_new + 1 ) * this % nc ( 2 ) * this % nc ( 3 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), knot3 = this % get_knot ( 3 ), Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc ( 1 ) - 1 , this % degree ( 1 ), Xth ( i ), this % knot1 ) if ( this % knot1 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot1 , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) Xc = reshape ( this % Xc ,[ this % nc ( 1 ), this % nc ( 2 ) * this % nc ( 3 ) * dim ]) call insert_knot_A_5_1 (& this % degree ( 1 ),& this % knot1 ,& Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xc_new ) Xc_new = reshape ( Xc_new ,[( n_new + 1 ) * this % nc ( 2 ) * this % nc ( 3 ), dim ]) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), knot3 = this % get_knot ( 3 ), Xc = Xc_new ) end do end if elseif ( dir == 2 ) then ! direction 2 if ( allocated ( this % Wc )) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc ( 2 ) - 1 , this % degree ( 2 ), Xth ( i ), this % knot2 ) if ( this % knot2 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot2 , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xc4 = reshape ( Xcw , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 2 ), this % nc ( 1 ), this % nc ( 3 ), dim + 1 ], order = [ 2 , 1 , 3 , 4 ]) Xcw = reshape ( Xc4 ,[ this % nc ( 2 ), this % nc ( 1 ) * this % nc ( 3 ) * ( dim + 1 )]) call insert_knot_A_5_1 (& this % degree ( 2 ),& this % knot2 ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xcw_new ) Xc4 = reshape ( Xcw_new , [ n_new + 1 , this % nc ( 1 ), this % nc ( 3 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), n_new + 1 , this % nc ( 3 ), dim + 1 ], order = [ 2 , 1 , 3 , 4 ]) Xcw_new = reshape ( Xc4 ,[ this % nc ( 1 ) * ( n_new + 1 ) * this % nc ( 3 ), dim + 1 ]) allocate ( Xc_new ( 1 : this % nc ( 1 ) * ( n_new + 1 ) * this % nc ( 3 ), 1 : dim )) allocate ( Wc_new ( 1 : this % nc ( 1 ) * ( n_new + 1 ) * this % nc ( 3 ))) do j = 1 , this % nc ( 1 ) * ( n_new + 1 ) * this % nc ( 3 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , knot3 = this % get_knot ( 3 ), Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc ( 2 ) - 1 , this % degree ( 2 ), Xth ( i ), this % knot2 ) if ( this % knot2 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot2 , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) Xc4 = reshape ( this % Xc , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 2 ), this % nc ( 1 ), this % nc ( 3 ), dim ], order = [ 2 , 1 , 3 , 4 ]) Xc = reshape ( Xc4 ,[ this % nc ( 2 ), this % nc ( 1 ) * this % nc ( 3 ) * dim ]) call insert_knot_A_5_1 (& this % degree ( 2 ),& this % knot2 ,& Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xc_new ) Xc4 = reshape ( Xc_new , [ n_new + 1 , this % nc ( 1 ), this % nc ( 3 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), n_new + 1 , this % nc ( 3 ), dim ], order = [ 2 , 1 , 3 , 4 ]) Xc_new = reshape ( Xc4 ,[ this % nc ( 1 ) * ( n_new + 1 ) * this % nc ( 3 ), dim ]) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , knot3 = this % get_knot ( 3 ), Xc = Xc_new ) end do end if elseif ( dir == 3 ) then ! direction 3 if ( allocated ( this % Wc )) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc ( 3 ) - 1 , this % degree ( 3 ), Xth ( i ), this % knot3 ) if ( this % knot3 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot3 , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xc4 = reshape ( Xcw , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 3 ), this % nc ( 2 ), this % nc ( 1 ), dim + 1 ], order = [ 3 , 2 , 1 , 4 ]) Xcw = reshape ( Xc4 ,[ this % nc ( 3 ), this % nc ( 2 ) * this % nc ( 1 ) * ( dim + 1 )]) call insert_knot_A_5_1 (& this % degree ( 3 ),& this % knot3 ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xcw_new ) Xc4 = reshape ( Xcw_new , [ n_new + 1 , this % nc ( 2 ), this % nc ( 1 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), this % nc ( 2 ), n_new + 1 , dim + 1 ], order = [ 3 , 2 , 1 , 4 ]) Xcw_new = reshape ( Xc4 ,[ this % nc ( 1 ) * this % nc ( 2 ) * ( n_new + 1 ), dim + 1 ]) allocate ( Xc_new ( 1 : this % nc ( 1 ) * this % nc ( 2 ) * ( n_new + 1 ), 1 : dim )) allocate ( Wc_new ( 1 : this % nc ( 1 ) * this % nc ( 2 ) * ( n_new + 1 ))) do j = 1 , this % nc ( 1 ) * this % nc ( 2 ) * ( n_new + 1 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), knot3 = knot_new , Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc ( 3 ) - 1 , this % degree ( 3 ), Xth ( i ), this % knot3 ) if ( this % knot3 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot3 , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) Xc4 = reshape ( this % Xc , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 3 ), this % nc ( 2 ), this % nc ( 1 ), dim ], order = [ 3 , 2 , 1 , 4 ]) Xc = reshape ( Xc4 ,[ this % nc ( 3 ), this % nc ( 2 ) * this % nc ( 1 ) * dim ]) call insert_knot_A_5_1 (& this % degree ( 3 ),& this % knot3 ,& Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xc_new ) Xc4 = reshape ( Xc_new , [ n_new + 1 , this % nc ( 2 ), this % nc ( 1 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), this % nc ( 2 ), n_new + 1 , dim ], order = [ 3 , 2 , 1 , 4 ]) Xc_new = reshape ( Xc4 , [ this % nc ( 1 ) * this % nc ( 2 ) * ( n_new + 1 ), dim ]) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), knot3 = knot_new , Xc = Xc_new ) end do end if else error stop 'Invalid direction.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine elevate_degree ( this , dir , t ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ) :: dir integer , intent ( in ) :: t real ( rk ), allocatable :: Xc (:,:), Xcw (:,:), Xcw_new (:,:), Xc_new (:,:), Wc_new (:), knot_new (:) integer :: nc_new , dim , j real ( rk ), allocatable :: Xc4 (:,:,:,:) if ( dir == 1 ) then ! direction 1 if ( allocated ( this % Wc )) then ! NURBS dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xcw = reshape ( Xcw ,[ this % nc ( 1 ), this % nc ( 2 ) * this % nc ( 3 ) * ( dim + 1 )], order = [ 1 , 2 ]) call elevate_degree_A_5_9 ( t , this % knot1 , this % degree ( 1 ), Xcw , nc_new , knot_new , Xcw_new ) Xcw_new = reshape ( Xcw_new ,[ nc_new * this % nc ( 2 ) * this % nc ( 3 ), dim + 1 ], order = [ 1 , 2 ]) allocate ( Xc_new ( 1 : nc_new * this % nc ( 2 ) * this % nc ( 3 ), 1 : dim )) allocate ( Wc_new ( 1 : nc_new * this % nc ( 2 ) * this % nc ( 3 ))) do j = 1 , nc_new * this % nc ( 2 ) * this % nc ( 3 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), knot3 = this % get_knot ( 3 ), Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) else ! B-Spline dim = size ( this % Xc , 2 ) Xc = reshape ( this % Xc ,[ this % nc ( 1 ), this % nc ( 2 ) * this % nc ( 3 ) * dim ], order = [ 1 , 2 ]) call elevate_degree_A_5_9 ( t , this % knot1 , this % degree ( 1 ), Xc , nc_new , knot_new , Xc_new ) Xc_new = reshape ( Xc_new ,[ nc_new * this % nc ( 2 ) * this % nc ( 3 ), dim ], order = [ 1 , 2 ]) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), knot3 = this % get_knot ( 3 ), Xc = Xc_new ) end if elseif ( dir == 2 ) then ! direction 2 if ( allocated ( this % Wc )) then ! NURBS dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xc4 = reshape ( Xcw , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 2 ), this % nc ( 1 ), this % nc ( 3 ), dim + 1 ], order = [ 2 , 1 , 3 , 4 ]) Xcw = reshape ( Xc4 ,[ this % nc ( 2 ), this % nc ( 1 ) * this % nc ( 3 ) * ( dim + 1 )]) call elevate_degree_A_5_9 ( t , this % knot2 , this % degree ( 2 ), Xcw , nc_new , knot_new , Xcw_new ) Xc4 = reshape ( Xcw_new , [ nc_new , this % nc ( 1 ), this % nc ( 3 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), nc_new , this % nc ( 3 ), dim + 1 ], order = [ 2 , 1 , 3 , 4 ]) Xcw_new = reshape ( Xc4 ,[ this % nc ( 1 ) * nc_new * this % nc ( 3 ), dim + 1 ]) allocate ( Xc_new ( 1 : this % nc ( 1 ) * nc_new * this % nc ( 3 ), 1 : dim )) allocate ( Wc_new ( 1 : this % nc ( 1 ) * nc_new * this % nc ( 3 ))) do j = 1 , this % nc ( 1 ) * nc_new * this % nc ( 3 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , knot3 = this % get_knot ( 3 ), Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) else ! B-Spline dim = size ( this % Xc , 2 ) Xc4 = reshape ( this % Xc , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 2 ), this % nc ( 1 ), this % nc ( 3 ), dim ], order = [ 2 , 1 , 3 , 4 ]) Xc = reshape ( Xc4 ,[ this % nc ( 2 ), this % nc ( 1 ) * this % nc ( 3 ) * dim ]) call elevate_degree_A_5_9 ( t , this % knot2 , this % degree ( 2 ), Xc , nc_new , knot_new , Xc_new ) Xc4 = reshape ( Xc_new , [ nc_new , this % nc ( 1 ), this % nc ( 3 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), nc_new , this % nc ( 3 ), dim ], order = [ 2 , 1 , 3 , 4 ]) Xc_new = reshape ( Xc4 ,[ this % nc ( 1 ) * nc_new * this % nc ( 3 ), dim ]) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , knot3 = this % get_knot ( 3 ), Xc = Xc_new ) end if elseif ( dir == 3 ) then ! direction 3 if ( allocated ( this % Wc )) then ! NURBS dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xc4 = reshape ( Xcw , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 3 ), this % nc ( 2 ), this % nc ( 1 ), dim + 1 ], order = [ 3 , 2 , 1 , 4 ]) Xcw = reshape ( Xc4 ,[ this % nc ( 3 ), this % nc ( 2 ) * this % nc ( 1 ) * ( dim + 1 )]) call elevate_degree_A_5_9 ( t , this % knot3 , this % degree ( 3 ), Xcw , nc_new , knot_new , Xcw_new ) Xc4 = reshape ( Xcw_new , [ nc_new , this % nc ( 2 ), this % nc ( 1 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), this % nc ( 2 ), nc_new , dim + 1 ], order = [ 3 , 2 , 1 , 4 ]) Xcw_new = reshape ( Xc4 ,[ this % nc ( 1 ) * this % nc ( 2 ) * nc_new , dim + 1 ]) allocate ( Xc_new ( 1 : this % nc ( 1 ) * this % nc ( 2 ) * nc_new , 1 : dim )) allocate ( Wc_new ( 1 : this % nc ( 1 ) * this % nc ( 2 ) * nc_new )) do j = 1 , this % nc ( 1 ) * this % nc ( 2 ) * nc_new Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), knot3 = knot_new , Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) else ! B-Spline dim = size ( this % Xc , 2 ) Xc4 = reshape ( this % Xc , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 3 ), this % nc ( 2 ), this % nc ( 1 ), dim ], order = [ 3 , 2 , 1 , 4 ]) Xc = reshape ( Xc4 ,[ this % nc ( 3 ), this % nc ( 2 ) * this % nc ( 1 ) * dim ]) call elevate_degree_A_5_9 ( t , this % knot3 , this % degree ( 3 ), Xc , nc_new , knot_new , Xc_new ) Xc4 = reshape ( Xc_new , [ nc_new , this % nc ( 2 ), this % nc ( 1 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), this % nc ( 2 ), nc_new , dim ], order = [ 3 , 2 , 1 , 4 ]) Xc_new = reshape ( Xc4 ,[ this % nc ( 1 ) * this % nc ( 2 ) * nc_new , dim ]) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), knot3 = knot_new , Xc = Xc_new ) end if else error stop 'Invalid direction.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function is_rational ( this ) result ( r ) class ( nurbs_volume ), intent ( in ) :: this logical :: r r = . false . if ( allocated ( this % Wc )) then if ( any ( this % Wc /= this % Wc ( 1 ))) then r = . true . end if end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_elem_Xc_vis ( this , elemConn ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ), contiguous :: elemConn (:,:) if ( allocated ( this % elemConn_Xc_vis )) deallocate ( this % elemConn_Xc_vis ) this % elemConn_Xc_vis = elemConn end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_elem_Xg_vis ( this , elemConn ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ), contiguous :: elemConn (:,:) if ( allocated ( this % elemConn_Xg_vis )) deallocate ( this % elemConn_Xg_vis ) this % elemConn_Xg_vis = elemConn end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_elem ( this , elemConn ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ), contiguous :: elemConn (:,:) if ( allocated ( this % elemConn )) deallocate ( this % elemConn ) this % elemConn = elemConn end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_elem_Xc_vis ( this ) result ( elemConn ) class ( nurbs_volume ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) elemConn = this % elemConn_Xc_vis end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_elem_Xg_vis ( this ) result ( elemConn ) class ( nurbs_volume ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) elemConn = this % elemConn_Xg_vis end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_elem ( this ) result ( elemConn ) class ( nurbs_volume ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) elemConn = this % elemConn end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_hexahedron ( this , L , nc , Wc ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: L (:) integer , intent ( in ), contiguous :: nc (:) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) if ( present ( Wc )) then call this % set ( nc , hexahedron_Xc ( L , nc ), Wc ) else call this % set ( nc , hexahedron_Xc ( L , nc )) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine put_to_nurbs ( this , X , elemConn ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: X (:,:) integer , intent ( in ), contiguous :: elemConn (:,:) integer :: i real ( rk ), allocatable :: Tgc1 (:), Tgc2 (:), Tgc3 (:), Tgc (:) real ( rk ), allocatable :: Xt (:,:) real ( rk ) :: min_X1 , max_X1 , min_X2 , max_X2 , min_X3 , max_X3 ! Assuming knot vectors are in the range [0,1] ! Normalize the X coordinates to the range [0,1] allocate ( Xt ( size ( X , 1 ), size ( X , 2 ))) min_X1 = minval ( X (:, 1 )) max_X1 = maxval ( X (:, 1 )) min_X2 = minval ( X (:, 2 )) max_X2 = maxval ( X (:, 2 )) min_X3 = minval ( X (:, 3 )) max_X3 = maxval ( X (:, 3 )) Xt (:, 1 ) = ( X (:, 1 ) - min_X1 ) / ( max_X1 - min_X1 ) Xt (:, 2 ) = ( X (:, 2 ) - min_X2 ) / ( max_X2 - min_X2 ) Xt (:, 3 ) = ( X (:, 3 ) - min_X3 ) / ( max_X3 - min_X3 ) allocate ( this % Xg ( size ( Xt , 1 ), size ( this % Xc , 2 ))) allocate ( Tgc ( this % nc ( 1 ) * this % nc ( 2 ) * this % nc ( 3 ))) if ( allocated ( this % Wc )) then ! NURBS volume do i = 1 , size ( Xt , 1 ) Tgc1 = basis_bspline ( Xt ( i , 1 ), this % knot1 , this % nc ( 1 ), this % degree ( 1 )) Tgc2 = basis_bspline ( Xt ( i , 2 ), this % knot2 , this % nc ( 2 ), this % degree ( 2 )) Tgc3 = basis_bspline ( Xt ( i , 3 ), this % knot3 , this % nc ( 3 ), this % degree ( 3 )) Tgc = kron ( Tgc3 , kron ( Tgc2 , Tgc1 )) Tgc = Tgc * ( this % Wc / ( dot_product ( Tgc , this % Wc ))) this % Xg ( i ,:) = matmul ( Tgc , this % Xc ) end do else ! B-Spline volume do i = 1 , size ( Xt , 1 ) Tgc1 = basis_bspline ( Xt ( i , 1 ), this % knot1 , this % nc ( 1 ), this % degree ( 1 )) Tgc2 = basis_bspline ( Xt ( i , 2 ), this % knot2 , this % nc ( 2 ), this % degree ( 2 )) Tgc3 = basis_bspline ( Xt ( i , 3 ), this % knot3 , this % nc ( 3 ), this % degree ( 3 )) Tgc = kron ( Tgc3 , kron ( Tgc2 , Tgc1 )) this % Xg ( i ,:) = matmul ( Tgc , this % Xc ) end do end if call this % set_elem_Xg_vis ( elemConn ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine remove_knots ( this , dir , Xth , r ) class ( nurbs_volume ), intent ( inout ) :: this integer , intent ( in ) :: dir real ( rk ), intent ( in ), contiguous :: Xth (:) integer , intent ( in ), contiguous :: r (:) integer :: k , i , s , dim , j , nc_new , t real ( rk ), allocatable :: Xc (:,:), Xcw (:,:), Xcw_new (:,:), Xc_new (:,:), Wc_new (:), knot_new (:) real ( rk ), allocatable :: Xc4 (:,:,:,:) if ( dir == 1 ) then ! direction 1 if ( allocated ( this % Wc )) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc ( 1 ) - 1 , this % degree ( 1 ), Xth ( i ), this % knot1 ) if ( this % knot1 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot1 , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xcw = reshape ( Xcw ,[ this % nc ( 1 ), this % nc ( 2 ) * this % nc ( 3 ) * ( dim + 1 )], order = [ 1 , 2 ]) call remove_knots_A_5_8 (& this % degree ( 1 ),& this % knot1 ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xcw_new ) if ( allocated ( Xcw )) deallocate ( Xcw ) if ( t == 0 ) then ! no change else nc_new = size ( Xcw_new , 1 ) Xcw_new = reshape ( Xcw_new ,[( nc_new ) * this % nc ( 2 ) * this % nc ( 3 ), dim + 1 ], order = [ 1 , 2 ]) allocate ( Xc_new ( 1 :( nc_new ) * this % nc ( 2 ) * this % nc ( 3 ), 1 : dim )) allocate ( Wc_new ( 1 :( nc_new ) * this % nc ( 2 ) * this % nc ( 3 ))) do j = 1 , ( nc_new ) * this % nc ( 2 ) * this % nc ( 3 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), knot3 = this % get_knot ( 3 ), Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw_new , Xc_new , Wc_new ) end if end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc ( 1 ) - 1 , this % degree ( 1 ), Xth ( i ), this % knot1 ) if ( this % knot1 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot1 , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) Xc = reshape ( this % Xc ,[ this % nc ( 1 ), this % nc ( 2 ) * this % nc ( 3 ) * dim ]) call remove_knots_A_5_8 (& this % degree ( 1 ),& this % knot1 ,& Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xc_new ) if ( allocated ( Xc )) deallocate ( Xc ) if ( t == 0 ) then ! no change else nc_new = size ( Xcw_new , 1 ) Xc_new = reshape ( Xc_new ,[( nc_new ) * this % nc ( 2 ) * this % nc ( 3 ), dim ]) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), knot3 = this % get_knot ( 3 ), Xc = Xc_new ) end if end do end if elseif ( dir == 2 ) then ! direction 2 if ( allocated ( this % Wc )) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc ( 2 ) - 1 , this % degree ( 2 ), Xth ( i ), this % knot2 ) if ( this % knot2 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot2 , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xc4 = reshape ( Xcw , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 2 ), this % nc ( 1 ), this % nc ( 3 ), dim + 1 ], order = [ 2 , 1 , 3 , 4 ]) Xcw = reshape ( Xc4 ,[ this % nc ( 2 ), this % nc ( 1 ) * this % nc ( 3 ) * ( dim + 1 )]) call remove_knots_A_5_8 (& this % degree ( 2 ),& this % knot2 ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xcw_new ) if ( allocated ( Xcw )) deallocate ( Xcw ) if ( t == 0 ) then ! no change else nc_new = size ( Xcw_new , 1 ) Xc4 = reshape ( Xcw_new , [ nc_new , this % nc ( 1 ), this % nc ( 3 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), nc_new , this % nc ( 3 ), dim + 1 ], order = [ 2 , 1 , 3 , 4 ]) Xcw_new = reshape ( Xc4 ,[ this % nc ( 1 ) * ( nc_new ) * this % nc ( 3 ), dim + 1 ]) allocate ( Xc_new ( 1 : this % nc ( 1 ) * ( nc_new ) * this % nc ( 3 ), 1 : dim )) allocate ( Wc_new ( 1 : this % nc ( 1 ) * ( nc_new ) * this % nc ( 3 ))) do j = 1 , this % nc ( 1 ) * ( nc_new ) * this % nc ( 3 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , knot3 = this % get_knot ( 3 ), Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw_new , Xc_new , Wc_new ) end if end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc ( 2 ) - 1 , this % degree ( 2 ), Xth ( i ), this % knot2 ) if ( this % knot2 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot2 , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) Xc4 = reshape ( this % Xc , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 2 ), this % nc ( 1 ), this % nc ( 3 ), dim ], order = [ 2 , 1 , 3 , 4 ]) Xc = reshape ( Xc4 , [ this % nc ( 2 ), this % nc ( 1 ) * this % nc ( 3 ) * dim ]) call remove_knots_A_5_8 (& this % degree ( 2 ),& this % knot2 ,& Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xc_new ) if ( allocated ( Xc )) deallocate ( Xc ) if ( t == 0 ) then ! no change else nc_new = size ( Xcw_new , 1 ) Xc4 = reshape ( Xc_new , [ nc_new , this % nc ( 1 ), this % nc ( 3 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), nc_new , this % nc ( 3 ), dim ], order = [ 2 , 1 , 3 , 4 ]) Xc_new = reshape ( Xc4 , [ this % nc ( 1 ) * ( nc_new ) * this % nc ( 3 ), dim ]) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , knot3 = this % get_knot ( 3 ), Xc = Xc_new ) end if end do end if elseif ( dir == 3 ) then ! direction 3 if ( allocated ( this % Wc )) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc ( 3 ) - 1 , this % degree ( 3 ), Xth ( i ), this % knot3 ) if ( this % knot3 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot3 , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xc4 = reshape ( Xcw , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 3 ), this % nc ( 2 ), this % nc ( 1 ), dim + 1 ], order = [ 3 , 2 , 1 , 4 ]) Xcw = reshape ( Xc4 , [ this % nc ( 3 ), this % nc ( 2 ) * this % nc ( 1 ) * ( dim + 1 )]) call remove_knots_A_5_8 (& this % degree ( 3 ),& this % knot3 ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xcw_new ) if ( allocated ( Xcw )) deallocate ( Xcw ) if ( t == 0 ) then ! no change else nc_new = size ( Xcw_new , 1 ) Xc4 = reshape ( Xcw_new , [ nc_new , this % nc ( 2 ), this % nc ( 1 ), dim + 1 ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), this % nc ( 2 ), nc_new , dim + 1 ], order = [ 3 , 2 , 1 , 4 ]) Xcw_new = reshape ( Xc4 , [ this % nc ( 1 ) * this % nc ( 2 ) * ( nc_new ), dim + 1 ]) allocate ( Xc_new ( 1 : this % nc ( 1 ) * this % nc ( 2 ) * ( nc_new ), 1 : dim )) allocate ( Wc_new ( 1 : this % nc ( 1 ) * this % nc ( 2 ) * ( nc_new ))) do j = 1 , this % nc ( 1 ) * this % nc ( 2 ) * ( nc_new ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), knot3 = knot_new , Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw_new , Xc_new , Wc_new ) end if end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc ( 3 ) - 1 , this % degree ( 3 ), Xth ( i ), this % knot3 ) if ( this % knot3 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot3 , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) Xc4 = reshape ( this % Xc , [ this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 3 ), this % nc ( 2 ), this % nc ( 1 ), dim ], order = [ 3 , 2 , 1 , 4 ]) Xc = reshape ( Xc4 , [ this % nc ( 3 ), this % nc ( 2 ) * this % nc ( 1 ) * dim ]) call remove_knots_A_5_8 (& this % degree ( 3 ),& this % knot3 ,& Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xc_new ) if ( allocated ( Xc )) deallocate ( Xc ) if ( t == 0 ) then ! no change else nc_new = size ( Xcw_new , 1 ) Xc4 = reshape ( Xc_new , [ nc_new , this % nc ( 2 ), this % nc ( 1 ), dim ]) Xc4 = reshape ( Xc4 , [ this % nc ( 1 ), this % nc ( 2 ), nc_new , dim ], order = [ 3 , 2 , 1 , 4 ]) Xc_new = reshape ( Xc4 , [ this % nc ( 1 ) * this % nc ( 2 ) * ( nc_new ), dim ]) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), knot3 = knot_new , Xc = Xc_new ) end if end do end if else error stop 'Invalid direction.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elem ( this ) result ( elemConn ) class ( nurbs_volume ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) call elemConn_Cn ( this % nc ( 1 ), this % nc ( 2 ), this % nc ( 3 ),& this % degree ( 1 ), this % degree ( 2 ), this % degree ( 3 ),& unique ( this % knot1 ), unique ( this % knot2 ), unique ( this % knot3 ),& this % get_multiplicity ( 1 ), this % get_multiplicity ( 2 ), this % get_multiplicity ( 3 ),& elemConn ) end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine rotate_Xc ( this , alpha , beta , theta ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ) :: alpha , beta , theta integer :: i do i = 1 , this % nc ( 1 ) * this % nc ( 2 ) * this % nc ( 3 ) this % Xc ( i , :) = matmul ( rotation ( alpha , beta , theta ), this % Xc ( i , :)) end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine rotate_Xg ( this , alpha , beta , theta ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ) :: alpha , beta , theta integer :: i do i = 1 , this % ng ( 1 ) * this % ng ( 2 ) * this % ng ( 3 ) this % Xg ( i , :) = matmul ( rotation ( alpha , beta , theta ), this % Xg ( i , :)) end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine translate_Xc ( this , vec ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ) :: vec (:) integer :: i do i = 1 , this % nc ( 1 ) * this % nc ( 2 ) * this % nc ( 3 ) this % Xc ( i , :) = this % Xc ( i , :) + vec end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine translate_Xg ( this , vec ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ) :: vec (:) integer :: i do i = 1 , this % ng ( 1 ) * this % ng ( 2 ) * this % ng ( 3 ) this % Xg ( i , :) = this % Xg ( i , :) + vec end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure subroutine show ( this , vtkfile_Xc , vtkfile_Xg ) class ( nurbs_volume ), intent ( inout ) :: this character ( len =* ), intent ( in ) :: vtkfile_Xc , vtkfile_Xg character ( len = 3000 ) :: pyvista_script pyvista_script = & \"import pyvista as pv\" // achar ( 10 ) // & \"pv.global_theme.color = 'white'\" // achar ( 10 ) // & \"Xc = pv.read('\" // trim ( vtkfile_Xc ) // \"')\" // achar ( 10 ) // & \"Xg = pv.read('\" // trim ( vtkfile_Xg ) // \"')\" // achar ( 10 ) // & \"p = pv.Plotter(lighting='light kit')\" // achar ( 10 ) // & \"actor_Xcp = p.add_mesh(\" // achar ( 10 ) // & \" Xc,\" // achar ( 10 ) // & \" style='points',\" // achar ( 10 ) // & \" point_size=10,\" // achar ( 10 ) // & \" color='red',\" // achar ( 10 ) // & \" render_points_as_spheres=True,\" // achar ( 10 ) // & \" opacity=0.5,\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"actor_Xcw = p.add_mesh(\" // achar ( 10 ) // & \" Xc,\" // achar ( 10 ) // & \" show_edges=True,\" // achar ( 10 ) // & \" color='yellow',\" // achar ( 10 ) // & \" line_width=3,\" // achar ( 10 ) // & \" style='wireframe',\" // achar ( 10 ) // & \" opacity=0.2\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"actor_Xg = p.add_mesh(\" // achar ( 10 ) // & \" Xg,\" // achar ( 10 ) // & \" show_edges=False,\" // achar ( 10 ) // & \" color='cyan',\" // achar ( 10 ) // & \" line_width=7,\" // achar ( 10 ) // & \" metallic=0.6,\" // achar ( 10 ) // & \" pbr=True,\" // achar ( 10 ) // & \" split_sharp_edges=True,\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_axes(interactive=False)\" // achar ( 10 ) // & \"def point_picker_callback(point):\" // achar ( 10 ) // & \" mesh = Xc\" // achar ( 10 ) // & \" point_id = mesh.find_closest_point(point)\" // achar ( 10 ) // & \" point_coords = mesh.points[point_id]\" // achar ( 10 ) // & \" label = f'ID: {point_id + 1}\\n({point_coords[0]:.3f}, {point_coords[1]:.3f}, {point_coords[2]:.3f})'\" // achar ( 10 ) // & \" p.add_point_labels(\" // achar ( 10 ) // & \" [point_coords],\" // achar ( 10 ) // & \" [label],\" // achar ( 10 ) // & \" font_size=14,\" // achar ( 10 ) // & \" text_color='black',\" // achar ( 10 ) // & \" show_points=False,\" // achar ( 10 ) // & \" fill_shape=False,\" // achar ( 10 ) // & \" shape=None,\" // achar ( 10 ) // & \" )\" // achar ( 10 ) // & \"picker = p.enable_point_picking(callback=point_picker_callback, show_message=False)\" // achar ( 10 ) // & \"window_size = p.window_size\" // achar ( 10 ) // & \"y_pos = window_size[1]\" // achar ( 10 ) // & \"def Xcp_toggle_vis(flag):\" // achar ( 10 ) // & \" actor_Xcp.SetVisibility(flag)\" // achar ( 10 ) // & \"def Xcw_toggle_vis(flag):\" // achar ( 10 ) // & \" actor_Xcw.SetVisibility(flag)\" // achar ( 10 ) // & \"def Xg_toggle_vis(flag):\" // achar ( 10 ) // & \" actor_Xg.SetVisibility(flag)\" // achar ( 10 ) // & \"p.add_checkbox_button_widget(\" // achar ( 10 ) // & \" Xcp_toggle_vis,\" // achar ( 10 ) // & \" value=True,\" // achar ( 10 ) // & \" color_on='red',\" // achar ( 10 ) // & \" size=25,\" // achar ( 10 ) // & \" position=(0, y_pos - 1 * 25),\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_checkbox_button_widget(\" // achar ( 10 ) // & \" Xcw_toggle_vis,\" // achar ( 10 ) // & \" value=True,\" // achar ( 10 ) // & \" color_on='yellow',\" // achar ( 10 ) // & \" size=25,\" // achar ( 10 ) // & \" position=(0, y_pos - 2 * 25),\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_checkbox_button_widget(\" // achar ( 10 ) // & \" Xg_toggle_vis,\" // achar ( 10 ) // & \" value=True,\" // achar ( 10 ) // & \" color_on='cyan',\" // achar ( 10 ) // & \" size=25,\" // achar ( 10 ) // & \" position=(0, y_pos - 3 * 25),\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'Xc (Points)',\" // achar ( 10 ) // & \" position=(25 + 3, y_pos - 1 * 25),\" // achar ( 10 ) // & \" font_size=8,\" // achar ( 10 ) // & \" color='black',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'Xc (Control geometry)',\" // achar ( 10 ) // & \" position=(25 + 3, y_pos - 2 * 25),\" // achar ( 10 ) // & \" font_size=8,\" // achar ( 10 ) // & \" color='black',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'Xg (Geometry)',\" // achar ( 10 ) // & \" position=(25 + 3, y_pos - 3 * 25),\" // achar ( 10 ) // & \" font_size=8,\" // achar ( 10 ) // & \" color='black',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text('ForCAD', position=(0.0, 10.0), font_size=14, color='black', font='times')\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'https://github.com/gha3mi/forcad',\" // achar ( 10 ) // & \" position=(0.0, 0.0),\" // achar ( 10 ) // & \" font_size=7,\" // achar ( 10 ) // & \" color='blue',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.show(title='ForCAD', interactive=True)\" call execute_command_line ( 'python -c \"' // trim ( adjustl ( pyvista_script )) // '\"' ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_ring ( this , center , radius1 , radius2 , length ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: center (:) real ( rk ), intent ( in ) :: radius1 , radius2 , length real ( rk ), allocatable :: Xc (:,:), Wc (:), knot1 (:), knot2 (:), knot3 (:) integer :: i ! Define control points for ring allocate ( Xc ( 28 , 3 )) Xc ( 1 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 3 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 4 ,:) = [ - 2.0_rk , 0.0_rk , 0.0_rk ] Xc ( 5 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 6 ,:) = [ 1.0_rk , - sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 7 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 1 : 7 , 1 : 2 ) = Xc ( 1 : 7 , 1 : 2 ) * radius1 Xc ( 8 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 9 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 10 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 11 ,:) = [ - 2.0_rk , 0.0_rk , 0.0_rk ] Xc ( 12 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 13 ,:) = [ 1.0_rk , - sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 14 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 8 : 14 , 1 : 2 ) = Xc ( 8 : 14 , 1 : 2 ) * radius2 Xc ( 15 ,:) = [ 1.0_rk , 0.0_rk , length ] Xc ( 16 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), length ] Xc ( 17 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , length ] Xc ( 18 ,:) = [ - 2.0_rk , 0.0_rk , length ] Xc ( 19 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , length ] Xc ( 20 ,:) = [ 1.0_rk , - sqrt ( 3.0_rk ), length ] Xc ( 21 ,:) = [ 1.0_rk , 0.0_rk , length ] Xc ( 15 : 21 , 1 : 2 ) = Xc ( 15 : 21 , 1 : 2 ) * radius1 Xc ( 22 ,:) = [ 1.0_rk , 0.0_rk , length ] Xc ( 23 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), length ] Xc ( 24 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , length ] Xc ( 25 ,:) = [ - 2.0_rk , 0.0_rk , length ] Xc ( 26 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , length ] Xc ( 27 ,:) = [ 1.0_rk , - sqrt ( 3.0_rk ), length ] Xc ( 28 ,:) = [ 1.0_rk , 0.0_rk , length ] Xc ( 22 : 28 , 1 : 2 ) = Xc ( 22 : 28 , 1 : 2 ) * radius2 ! Translate the control points do i = 1 , size ( Xc , 1 ) Xc ( i ,:) = center + Xc ( i ,:) end do ! Define weights for the control points Wc = [ 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ,& 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ,& 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ,& 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ] ! Define knot vector knot1 = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk / 3.0_rk , 1.0_rk / 3.0_rk , 2.0_rk / 3.0_rk , 2.0_rk / 3.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] knot2 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] knot3 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] ! Set knot vector, control points, and weights call this % set ( knot1 , knot2 , knot3 , Xc , Wc ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_C ( this , center , radius1 , radius2 , length ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: center (:) real ( rk ), intent ( in ) :: radius1 , radius2 , length real ( rk ), allocatable :: Xc (:,:), Wc (:), knot1 (:), knot2 (:), knot3 (:) integer :: i ! Define control points for C-shape allocate ( Xc ( 20 , 3 )) Xc ( 1 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 3 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 4 ,:) = [ - 2.0_rk , 0.0_rk , 0.0_rk ] Xc ( 5 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 1 : 5 , 1 : 2 ) = Xc ( 1 : 5 , 1 : 2 ) * radius1 Xc ( 6 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 7 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 8 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 9 ,:) = [ - 2.0_rk , 0.0_rk , 0.0_rk ] Xc ( 10 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 6 : 10 , 1 : 2 ) = Xc ( 6 : 10 , 1 : 2 ) * radius2 Xc ( 11 ,:) = [ 1.0_rk , 0.0_rk , length ] Xc ( 12 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), length ] Xc ( 13 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , length ] Xc ( 14 ,:) = [ - 2.0_rk , 0.0_rk , length ] Xc ( 15 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , length ] Xc ( 11 : 15 , 1 : 2 ) = Xc ( 11 : 15 , 1 : 2 ) * radius1 Xc ( 16 ,:) = [ 1.0_rk , 0.0_rk , length ] Xc ( 17 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), length ] Xc ( 18 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , length ] Xc ( 19 ,:) = [ - 2.0_rk , 0.0_rk , length ] Xc ( 20 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , length ] Xc ( 16 : 20 , 1 : 2 ) = Xc ( 16 : 20 , 1 : 2 ) * radius2 ! Translate the control points do i = 1 , size ( Xc , 1 ) Xc ( i ,:) = center + Xc ( i ,:) end do ! Define weights for the control points Wc = [ 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ,& 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ,& 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ,& 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ] ! Define knot vector knot1 = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk / 2.0_rk , 1.0_rk / 2.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] knot2 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] knot3 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] ! Set knot vector, control points, and weights call this % set ( knot1 , knot2 , knot3 , Xc , Wc ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_half_ring ( this , center , radius1 , radius2 , length ) class ( nurbs_volume ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: center (:) real ( rk ), intent ( in ) :: radius1 , radius2 , length real ( rk ), allocatable :: Xc (:,:), Wc (:), knot1 (:), knot2 (:), knot3 (:) integer :: i ! Define control points for half ring allocate ( Xc ( 20 , 3 )) Xc ( 1 ,:) = [ 0.5_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 0.5_rk , 0.5_rk , 0.0_rk ] Xc ( 3 ,:) = [ 0.0_rk , 0.5_rk , 0.0_rk ] Xc ( 4 ,:) = [ - 0.5_rk , 0.5_rk , 0.0_rk ] Xc ( 5 ,:) = [ - 0.5_rk , 0.0_rk , 0.0_rk ] Xc ( 1 : 5 , 1 : 2 ) = Xc ( 1 : 5 , 1 : 2 ) * radius1 Xc ( 6 ,:) = [ 0.5_rk , 0.0_rk , 0.0_rk ] Xc ( 7 ,:) = [ 0.5_rk , 0.5_rk , 0.0_rk ] Xc ( 8 ,:) = [ 0.0_rk , 0.5_rk , 0.0_rk ] Xc ( 9 ,:) = [ - 0.5_rk , 0.5_rk , 0.0_rk ] Xc ( 10 ,:) = [ - 0.5_rk , 0.0_rk , 0.0_rk ] Xc ( 6 : 10 , 1 : 2 ) = Xc ( 6 : 10 , 1 : 2 ) * radius2 Xc ( 11 ,:) = [ 0.5_rk , 0.0_rk , length ] Xc ( 12 ,:) = [ 0.5_rk , 0.5_rk , length ] Xc ( 13 ,:) = [ 0.0_rk , 0.5_rk , length ] Xc ( 14 ,:) = [ - 0.5_rk , 0.5_rk , length ] Xc ( 15 ,:) = [ - 0.5_rk , 0.0_rk , length ] Xc ( 11 : 15 , 1 : 2 ) = Xc ( 11 : 15 , 1 : 2 ) * radius1 Xc ( 16 ,:) = [ 0.5_rk , 0.0_rk , length ] Xc ( 17 ,:) = [ 0.5_rk , 0.5_rk , length ] Xc ( 18 ,:) = [ 0.0_rk , 0.5_rk , length ] Xc ( 19 ,:) = [ - 0.5_rk , 0.5_rk , length ] Xc ( 20 ,:) = [ - 0.5_rk , 0.0_rk , length ] Xc ( 16 : 20 , 1 : 2 ) = Xc ( 16 : 20 , 1 : 2 ) * radius2 ! Translate the control points do i = 1 , size ( Xc , 1 ) Xc ( i ,:) = center + Xc ( i ,:) end do ! Define weights for the control points Wc = [ 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk ,& 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk ,& 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk ,& 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk ] ! Define knot vector knot1 = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk / 2.0_rk , & 1.0_rk / 2.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] knot2 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] knot3 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] ! Set knot vector, control points, and weights call this % set ( knot1 , knot2 , knot3 , Xc , Wc ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine nearest_point ( this , point_Xg , nearest_Xg , nearest_Xt , id ) class ( nurbs_volume ), intent ( in ) :: this real ( rk ), intent ( in ) :: point_Xg (:) real ( rk ), intent ( out ), allocatable , optional :: nearest_Xg (:) real ( rk ), intent ( out ), allocatable , optional :: nearest_Xt (:) integer , intent ( out ), optional :: id integer :: id_ real ( rk ), allocatable :: distances (:) interface pure function nearest_point_help_3d ( f_ng , f_Xg , f_point_Xg ) result ( f_distances ) import :: rk integer , intent ( in ) :: f_ng ( 3 ) real ( rk ), intent ( in ), contiguous :: f_Xg (:,:) real ( rk ), intent ( in ), contiguous :: f_point_Xg (:) real ( rk ), allocatable :: f_distances (:) end function end interface allocate ( distances ( this % ng ( 1 ) * this % ng ( 2 ) * this % ng ( 3 ))) distances = nearest_point_help_3d ( this % ng , this % Xg , point_Xg ) id_ = minloc ( distances , dim = 1 ) if ( present ( id )) id = id_ if ( present ( nearest_Xg )) nearest_Xg = this % Xg ( id_ ,:) if ( present ( nearest_Xt )) nearest_Xt = this % Xt ( id_ ,:) end subroutine !=============================================================================== end module forcad_nurbs_volume !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Xg_nurbs_3d ( Xt , knot1 , knot2 , knot3 , degree , nc , ng , Xc , Wc ) result ( Xg ) use forcad_utils , only : rk , basis_bspline , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:), knot3 (:) integer , intent ( in ) :: degree ( 3 ) integer , intent ( in ) :: nc ( 3 ) integer , intent ( in ) :: ng ( 3 ) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous :: Wc (:) real ( rk ), allocatable :: Xg (:,:) real ( rk ), allocatable :: Tgc (:) integer :: i allocate ( Xg ( ng ( 1 ) * ng ( 2 ) * ng ( 3 ), size ( Xc , 2 ))) allocate ( Tgc ( nc ( 1 ) * nc ( 2 ) * nc ( 3 ))) !$OMP PARALLEL DO PRIVATE(Tgc) do i = 1 , ng ( 1 ) * ng ( 2 ) * ng ( 3 ) Tgc = kron ( basis_bspline ( Xt ( i , 3 ), knot3 , nc ( 3 ), degree ( 3 )),& kron (& basis_bspline ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 )))) Tgc = Tgc * ( Wc / ( dot_product ( Tgc , Wc ))) Xg ( i ,:) = matmul ( Tgc , Xc ) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Xg_bspline_3d ( Xt , knot1 , knot2 , knot3 , degree , nc , ng , Xc ) result ( Xg ) use forcad_utils , only : rk , basis_bspline , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:), knot3 (:) integer , intent ( in ) :: degree ( 3 ) integer , intent ( in ) :: nc ( 3 ) integer , intent ( in ) :: ng ( 3 ) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), allocatable :: Xg (:,:) integer :: i allocate ( Xg ( ng ( 1 ) * ng ( 2 ) * ng ( 3 ), size ( Xc , 2 ))) !$OMP PARALLEL DO do i = 1 , ng ( 1 ) * ng ( 2 ) * ng ( 3 ) Xg ( i ,:) = matmul ( kron ( basis_bspline ( Xt ( i , 3 ), knot3 , nc ( 3 ), degree ( 3 )), kron (& basis_bspline ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 )))),& Xc ) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_dTgc_nurbs_3d ( Xt , knot1 , knot2 , knot3 , degree , nc , ng , Wc ) result ( dTgc ) use forcad_utils , only : rk , basis_bspline_der , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:), knot3 (:) integer , intent ( in ) :: degree ( 3 ) integer , intent ( in ) :: nc ( 3 ) integer , intent ( in ) :: ng ( 3 ) real ( rk ), intent ( in ), contiguous :: Wc (:) real ( rk ), allocatable :: dTgc (:,:) real ( rk ), allocatable :: dTgci (:) integer :: i allocate ( dTgc ( ng ( 1 ) * ng ( 2 ) * ng ( 3 ), nc ( 1 ) * nc ( 2 ) * nc ( 3 ))) !$OMP PARALLEL DO PRIVATE(dTgci) do i = 1 , size ( Xt , 1 ) dTgci = kron ( basis_bspline_der ( Xt ( i , 3 ), knot3 , nc ( 3 ), degree ( 3 )), kron (& basis_bspline_der ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline_der ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 )))) dTgci = dTgci * ( Wc / ( dot_product ( dTgci , Wc ))) dTgc ( i ,:) = dTgci end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_dTgc_bspline_3d ( Xt , knot1 , knot2 , knot3 , degree , nc , ng ) result ( dTgc ) use forcad_utils , only : rk , basis_bspline_der , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:), knot3 (:) integer , intent ( in ) :: degree ( 3 ) integer , intent ( in ) :: nc ( 3 ) integer , intent ( in ) :: ng ( 3 ) real ( rk ), allocatable :: dTgc (:,:) integer :: i allocate ( dTgc ( ng ( 1 ) * ng ( 2 ) * ng ( 3 ), nc ( 1 ) * nc ( 2 ) * nc ( 3 ))) !$OMP PARALLEL DO do i = 1 , size ( Xt , 1 ) dTgc ( i ,:) = kron ( basis_bspline_der ( Xt ( i , 3 ), knot3 , nc ( 3 ), degree ( 3 )), kron (& basis_bspline_der ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline_der ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 )))) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Tgc_nurbs_3d ( Xt , knot1 , knot2 , knot3 , degree , nc , ng , Wc ) result ( Tgc ) use forcad_utils , only : rk , basis_bspline , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:), knot3 (:) integer , intent ( in ) :: degree ( 3 ) integer , intent ( in ) :: nc ( 3 ) integer , intent ( in ) :: ng ( 3 ) real ( rk ), intent ( in ), contiguous :: Wc (:) real ( rk ), allocatable :: Tgc (:,:) real ( rk ), allocatable :: Tgci (:) integer :: i allocate ( Tgc ( ng ( 1 ) * ng ( 2 ) * ng ( 3 ), nc ( 1 ) * nc ( 2 ) * nc ( 3 ))) !$OMP PARALLEL DO PRIVATE(Tgci) do i = 1 , size ( Xt , 1 ) Tgci = kron ( basis_bspline ( Xt ( i , 3 ), knot3 , nc ( 3 ), degree ( 3 )), kron (& basis_bspline ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 )))) Tgci = Tgci * ( Wc / ( dot_product ( Tgci , Wc ))) Tgc ( i ,:) = Tgci end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Tgc_bspline_3d ( Xt , knot1 , knot2 , knot3 , degree , nc , ng ) result ( Tgc ) use forcad_utils , only : rk , basis_bspline , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:), knot3 (:) integer , intent ( in ) :: degree ( 3 ) integer , intent ( in ) :: nc ( 3 ) integer , intent ( in ) :: ng ( 3 ) real ( rk ), allocatable :: Tgc (:,:) integer :: i allocate ( Tgc ( ng ( 1 ) * ng ( 2 ) * ng ( 3 ), nc ( 1 ) * nc ( 2 ) * nc ( 3 ))) !$OMP PARALLEL DO do i = 1 , size ( Xt , 1 ) Tgc ( i ,:) = kron ( basis_bspline ( Xt ( i , 3 ), knot3 , nc ( 3 ), degree ( 3 )), kron (& basis_bspline ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 )))) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function nearest_point_help_3d ( ng , Xg , point_Xg ) result ( distances ) use forcad_utils , only : rk implicit none integer , intent ( in ) :: ng ( 3 ) real ( rk ), intent ( in ), contiguous :: Xg (:,:) real ( rk ), intent ( in ), contiguous :: point_Xg (:) real ( rk ), allocatable :: distances (:) integer :: i allocate ( distances ( ng ( 1 ) * ng ( 2 ) * ng ( 3 ))) !$OMP PARALLEL DO do i = 1 , ng ( 1 ) * ng ( 2 ) * ng ( 3 ) distances ( i ) = norm2 ( Xg ( i ,:) - point_Xg ) end do !$OMP END PARALLEL DO end function !===============================================================================","tags":"","loc":"sourcefile/forcad_nurbs_volume.f90.html"},{"title":"shape_ring_3d.f90 – ForCAD","text":"This file depends on sourcefile~~shape_ring_3d.f90~~EfferentGraph sourcefile~shape_ring_3d.f90 shape_ring_3d.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_ring_3d.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_ring_3d use forcad , only : rk , nurbs_volume implicit none type ( nurbs_volume ) :: shape !> Set up a ring shape centered at 0,0,0 with inner radius 1, outer radius 2, and length 1. call shape % set_ring ([ 0.0_rk , 0.0_rk , 0.0_rk ], 1.0_rk , 2.0_rk , 1.0_rk ) !> Export the control points to a VTK file for visualization. call shape % export_Xc ( 'vtk/shape_ring_3d_Xc.vtk' ) !> Create the shape using the specified number of elements in each direction. call shape % create ( 60 , 15 , 10 ) !> Export the geometry to a VTK file for visualization. call shape % export_Xg ( 'vtk/shape_ring_3d_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_ring_3d_Xc.vtk' , 'vtk/shape_ring_3d_Xg.vtk' ) !> Finalize and clean up the shape object. call shape % finalize () end program","tags":"","loc":"sourcefile/shape_ring_3d.f90.html"},{"title":"shape_tetragon.f90 – ForCAD","text":"This file depends on sourcefile~~shape_tetragon.f90~~EfferentGraph sourcefile~shape_tetragon.f90 shape_tetragon.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_tetragon.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_tetragon use forcad implicit none type ( nurbs_surface ) :: shape !! Declare a NURBS surface object !----------------------------------------------------------------------------- ! Setting up the NURBS tetrangon !----------------------------------------------------------------------------- !> Set a tetragon with lengths of 2.0 and 3.0 and 3 and 4 control points in each direction !> The weights of the control points (Wc) are optional. call shape % set_tetragon ( L = [ 2.0_rk , 3.0_rk ], nc = [ 3 , 4 ]) !> Export the control points to a VTK file call shape % export_Xc ( 'vtk/shape_tetragon_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS surface !----------------------------------------------------------------------------- !> Generate the NURBS surface with resolutions of 30 in both dimensions call shape % create ( 30 , 30 ) !> Export the generated surface to a VTK file call shape % export_Xg ( 'vtk/shape_tetragon_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_tetragon_Xc.vtk' , 'vtk/shape_tetragon_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS surface object call shape % finalize () end program","tags":"","loc":"sourcefile/shape_tetragon.f90.html"},{"title":"nearest_point_1d.f90 – ForCAD","text":"This file depends on sourcefile~~nearest_point_1d.f90~~EfferentGraph sourcefile~nearest_point_1d.f90 nearest_point_1d.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~nearest_point_1d.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program nearest_point_1d use forcad , only : rk , nurbs_curve implicit none type ( nurbs_curve ) :: shape !! Declare a NURBS curve object real ( rk ), allocatable :: nearest_Xg (:) !! Coordinates of the nearest point on the curve real ( rk ) :: nearest_Xt !! Corresponding parametric coordinates of the nearest point integer :: id !! id of the nearest point !----------------------------------------------------------------------------- ! Setting up the NURBS circle !----------------------------------------------------------------------------- !> Set a circle with radius 2.0 and center at [0.0, 0.0, 0.0] call shape % set_circle ( center = [ 0.0_rk , 0.0_rk , 0.0_rk ], radius = 2.0_rk ) !----------------------------------------------------------------------------- ! Creating circle !----------------------------------------------------------------------------- !> Generate the NURBS circle with a resolution of 100 call shape % create ( res = 100 ) !----------------------------------------------------------------------------- ! Nearest point on the curve !----------------------------------------------------------------------------- !> Find the nearest point on the curve to a given point ! nearest_Xg: Coordinates of the nearest point on the curve (optional) ! nearest_Xt: Corresponding parametric coordinates of the nearest point (optional) ! id: id of the nearest point (optional) call shape % nearest_point ([ 2.0_rk , 3.0_rk , 5.0_rk ], nearest_Xg , nearest_Xt , id ) print * , 'Nearest point on the curve:' , nearest_Xg , 'with parametric coordinates:' , nearest_Xt , 'and id:' , id !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS curve object call shape % finalize () deallocate ( nearest_Xg ) end program","tags":"","loc":"sourcefile/nearest_point_1d.f90.html"},{"title":"demo_curve.f90 – ForCAD","text":"This file depends on sourcefile~~demo_curve.f90~~EfferentGraph sourcefile~demo_curve.f90 demo_curve.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~demo_curve.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> This program demonstrates the usage of a NURBS curve object to create, and finalize a NURBS curve. !> It sets up control points and weights, generates the curve, and exports the control points !> and the curve to VTK files at various stages. program example_nurbs_curve use forcad , only : rk , nurbs_curve implicit none type ( nurbs_curve ) :: nurbs !! Declare a NURBS curve object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights !----------------------------------------------------------------------------- ! Setting up the NURBS curve !----------------------------------------------------------------------------- !> Define control points for the NURBS curve Xc = generate_Xc ( 5 , 1.0_rk , 2.0_rk , 20 ) !> Define weights for the control points allocate ( Wc ( size ( Xc , 1 )), source = 1.0_rk ) !> Set control points and weights for the NURBS curve object call nurbs % set ( Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export initial control points to a VTK file call nurbs % export_Xc ( 'vtk/demo_curve_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS curve !----------------------------------------------------------------------------- !> Generate the NURBS curve with a resolution of 500 call nurbs % create ( res = 500 ) !> Export the generated curve to a VTK file call nurbs % export_Xg ( 'vtk/demo_curve_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/demo_curve_Xc.vtk' , 'vtk/demo_curve_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS curve object call nurbs % finalize () contains !----------------------------------------------------------------------------- function generate_Xc ( num_coils , radius , height , num_points_per_coil ) result ( control_points ) integer , intent ( in ) :: num_coils , num_points_per_coil real ( rk ), intent ( in ) :: radius , height real ( rk ), allocatable :: control_points (:,:) integer :: coil , i real ( rk ) :: theta , coil_height allocate ( control_points ( num_coils * num_points_per_coil , 3 )) do coil = 1 , num_coils coil_height = height * real ( coil - 1 , rk ) / real ( num_coils - 1 , rk ) theta = 0.0_rk do i = 1 , num_points_per_coil theta = theta + 2.0_rk * acos ( - 1.0_rk ) / real ( num_points_per_coil , rk ) control_points (( coil - 1 ) * num_points_per_coil + i , 1 ) = radius * cos ( theta ) control_points (( coil - 1 ) * num_points_per_coil + i , 2 ) = radius * sin ( theta ) control_points (( coil - 1 ) * num_points_per_coil + i , 3 ) = coil_height end do end do end function !----------------------------------------------------------------------------- end program example_nurbs_curve","tags":"","loc":"sourcefile/demo_curve.f90.html"},{"title":"shape_half_ring_2d.f90 – ForCAD","text":"This file depends on sourcefile~~shape_half_ring_2d.f90~~EfferentGraph sourcefile~shape_half_ring_2d.f90 shape_half_ring_2d.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_half_ring_2d.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_half_ring_2d use forcad , only : rk , nurbs_surface implicit none type ( nurbs_surface ) :: shape !> Set up a half ring shape centered at 0,0,0 with inner radius 1 and outer radius 2. call shape % set_half_ring ([ 0.0_rk , 0.0_rk , 0.0_rk ], 1.0_rk , 2.0_rk ) !> Export the control points to a VTK file for visualization. call shape % export_Xc ( 'vtk/shape_half_ring_2d_Xc.vtk' ) !> Create the shape using the specified number of elements in each direction. call shape % create ( 60 , 15 ) !> Export the geometry to a VTK file for visualization. call shape % export_Xg ( 'vtk/shape_half_ring_2d_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_half_ring_2d_Xc.vtk' , 'vtk/shape_half_ring_2d_Xg.vtk' ) !> Finalize and clean up the shape object. call shape % finalize () end program","tags":"","loc":"sourcefile/shape_half_ring_2d.f90.html"},{"title":"shape_circle.f90 – ForCAD","text":"This file depends on sourcefile~~shape_circle.f90~~EfferentGraph sourcefile~shape_circle.f90 shape_circle.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_circle.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_circle use forcad , only : rk , nurbs_curve implicit none type ( nurbs_curve ) :: shape !----------------------------------------------------------------------------- ! Setting up NURBS circle !----------------------------------------------------------------------------- !> Set a circle with radius 2.0 and center at [0.0, 0.0, 0.0] call shape % set_circle ( center = [ 0.0_rk , 0.0_rk , 0.0_rk ], radius = 2.0_rk ) !> Export control points to a VTK file call shape % export_Xc ( 'vtk/shape_circle_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating circle !----------------------------------------------------------------------------- !> Generate the NURBS circle with a resolution of 100 call shape % create ( res = 100 ) !> Export the generated cirlce to a VTK file call shape % export_Xg ( 'vtk/shape_circle_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_circle_Xc.vtk' , 'vtk/shape_circle_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS curve object call shape % finalize () end program","tags":"","loc":"sourcefile/shape_circle.f90.html"},{"title":"example_ppm1.f90 – ForCAD","text":"This file depends on sourcefile~~example_ppm1.f90~~EfferentGraph sourcefile~example_ppm1.f90 example_ppm1.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~example_ppm1.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> Visualization of NURBS surfaces using ForCAD, ForImage and ForColorMap libraries !> This example converts NURBS surfaces (vector) to an image (raster) using ForCAD, ForImage and ForColorMap libraries. program example_ppm1 use forcad , only : rk , nurbs_surface use forimage , only : ik , format_pnm , color use forcolormap , only : colormap use fortime , only : timer implicit none type ( nurbs_surface ) :: shape type ( format_pnm ) :: image type ( color ) :: background_color type ( colormap ) :: cmap integer ( ik ), allocatable :: px (:, :) real ( rk ), allocatable :: Xg (:,:), z_values (:) real ( rk ) :: center ( 3 ), inner_radius , outer_radius , aspect_ratio integer :: height , width , ng ( 2 ), red , green , blue , res1 , res2 , i integer , allocatable :: idx (:,:) type ( timer ) :: t !----------------------------------------------------------------------------- ! Set the image size and calculate the aspect ratio !----------------------------------------------------------------------------- width = 2000 height = 2000 aspect_ratio = real ( width , rk ) / real ( height , rk ) allocate ( px ( height , 3 * width )) !----------------------------------------------------------------------------- ! Set the background color using ForColor class of ForImage !----------------------------------------------------------------------------- call t % timer_start () call background_color % set ( 'white' , use_library = . true .) do i = 1 , width px (:, 3 * ( i - 1 ) + 1 ) = background_color % get_r () px (:, 3 * ( i - 1 ) + 2 ) = background_color % get_g () px (:, 3 * ( i - 1 ) + 3 ) = background_color % get_b () end do call t % timer_stop ( message = 'Setting the background color' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () !> Set the shape parameters for a tetragon res1 = 2000 res2 = 2000 call shape % set_tetragon ( L = [ 1.0_rk , 1.0_rk ], nc = [ 2 , 2 ]) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a tetragon' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! circular gradient z_values = (( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 )))) ** 2 & + (( Xg (:, 2 ) - minval ( Xg (:, 2 ))) / ( maxval ( Xg (:, 2 )) - minval ( Xg (:, 2 ))) ** 2 ) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'buda' , 0.0_rk , 1.0_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () !> Set the shape parameters for a ring center = [ 0.25_rk , 0.25_rk , 0.0_rk ] outer_radius = 0.24_rk inner_radius = 0.0_rk res1 = 3500 res2 = 1000 center ( 2 ) = center ( 2 ) / aspect_ratio call shape % set_ring ( center , inner_radius , outer_radius ) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! circular gradient z_values = (( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 )))) ** 2 & + (( Xg (:, 2 ) - minval ( Xg (:, 2 ))) / ( maxval ( Xg (:, 2 )) - minval ( Xg (:, 2 ))) ** 2 ) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'managua' , 0.0_rk , 2.2_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () !> Set the shape parameters for a ring center = [ 0.75_rk , 0.25_rk , 0.0_rk ] outer_radius = 0.24_rk inner_radius = 0.08_rk res1 = 3500 res2 = 1000 center ( 2 ) = center ( 2 ) / aspect_ratio call shape % set_ring ( center , inner_radius , outer_radius ) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! linear gradient in the y-direction z_values = ( Xg (:, 2 ) - minval ( Xg (:, 2 ))) / ( maxval ( Xg (:, 2 )) - minval ( Xg (:, 2 ))) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'lipari' , 0.0_rk , 1.0_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () !> Set the shape parameters for a ring center = [ 0.25_rk , 0.75_rk , 0.0_rk ] outer_radius = 0.24_rk inner_radius = 0.01_rk res1 = 3500 res2 = 1000 center ( 2 ) = center ( 2 ) / aspect_ratio call shape % set_ring ( center , inner_radius , outer_radius ) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! linear gradient in the x-direction z_values = ( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 ))) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'oslo10' , 0.0_rk , 1.0_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () !> Set the shape parameters for a ring center = [ 0.75_rk , 0.75_rk , 0.0_rk ] outer_radius = 0.24_rk inner_radius = 0.22_rk res1 = 3500 res2 = 1000 center ( 2 ) = center ( 2 ) / aspect_ratio call shape % set_ring ( center , inner_radius , outer_radius ) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! linear gradient in the x-direction z_values = ( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 ))) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- red = 255 green = 215 blue = 0 !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting colors' ) !----------------------------------------------------------------------------- ! Save the image to a PPM file using ForImage library !----------------------------------------------------------------------------- call t % timer_start () call image % set_pnm (& encoding = 'binary' , & file_format = 'ppm' , & width = width , & height = height , & max_color = 255 , & comment = 'example: ForCAD + ForImage + ForColor + ForColormap' , & pixels = px & ) call image % export_pnm ( 'ppm/example_ppm1' ) call image % finalize () call t % timer_stop ( message = 'Saving the image' ) ! Clean up call cmap % finalize () deallocate ( px , Xg , z_values ) end program","tags":"","loc":"sourcefile/example_ppm1.f90.html"},{"title":"forcad.f90 – ForCAD","text":"This file depends on sourcefile~~forcad.f90~~EfferentGraph sourcefile~forcad.f90 forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Files dependent on this one sourcefile~~forcad.f90~~AfferentGraph sourcefile~forcad.f90 forcad.f90 sourcefile~demo_curve.f90 demo_curve.f90 sourcefile~demo_curve.f90->sourcefile~forcad.f90 sourcefile~demo_surface.f90 demo_surface.f90 sourcefile~demo_surface.f90->sourcefile~forcad.f90 sourcefile~demo_volume.f90 demo_volume.f90 sourcefile~demo_volume.f90->sourcefile~forcad.f90 sourcefile~example_curve_1.f90 example_curve_1.f90 sourcefile~example_curve_1.f90->sourcefile~forcad.f90 sourcefile~example_ppm1.f90 example_ppm1.f90 sourcefile~example_ppm1.f90->sourcefile~forcad.f90 sourcefile~example_ppm2.f90 example_ppm2.f90 sourcefile~example_ppm2.f90->sourcefile~forcad.f90 sourcefile~example_ppm3.f90 example_ppm3.f90 sourcefile~example_ppm3.f90->sourcefile~forcad.f90 sourcefile~example_surface_1.f90 example_surface_1.f90 sourcefile~example_surface_1.f90->sourcefile~forcad.f90 sourcefile~example_volume_1.f90 example_volume_1.f90 sourcefile~example_volume_1.f90->sourcefile~forcad.f90 sourcefile~nearest_point_1d.f90 nearest_point_1d.f90 sourcefile~nearest_point_1d.f90->sourcefile~forcad.f90 sourcefile~nearest_point_2d.f90 nearest_point_2d.f90 sourcefile~nearest_point_2d.f90->sourcefile~forcad.f90 sourcefile~nearest_point_2d_bench.f90 nearest_point_2d_bench.f90 sourcefile~nearest_point_2d_bench.f90->sourcefile~forcad.f90 sourcefile~nearest_point_3d.f90 nearest_point_3d.f90 sourcefile~nearest_point_3d.f90->sourcefile~forcad.f90 sourcefile~put_to_nurbs.f90 put_to_nurbs.f90 sourcefile~put_to_nurbs.f90->sourcefile~forcad.f90 sourcefile~shape_c_1d.f90 shape_C_1d.f90 sourcefile~shape_c_1d.f90->sourcefile~forcad.f90 sourcefile~shape_c_2d.f90 shape_C_2d.f90 sourcefile~shape_c_2d.f90->sourcefile~forcad.f90 sourcefile~shape_c_3d.f90 shape_C_3d.f90 sourcefile~shape_c_3d.f90->sourcefile~forcad.f90 sourcefile~shape_circle.f90 shape_circle.f90 sourcefile~shape_circle.f90->sourcefile~forcad.f90 sourcefile~shape_half_circle.f90 shape_half_circle.f90 sourcefile~shape_half_circle.f90->sourcefile~forcad.f90 sourcefile~shape_half_ring_2d.f90 shape_half_ring_2d.f90 sourcefile~shape_half_ring_2d.f90->sourcefile~forcad.f90 sourcefile~shape_half_ring_3d.f90 shape_half_ring_3d.f90 sourcefile~shape_half_ring_3d.f90->sourcefile~forcad.f90 sourcefile~shape_hexahedron.f90 shape_hexahedron.f90 sourcefile~shape_hexahedron.f90->sourcefile~forcad.f90 sourcefile~shape_ring_2d.f90 shape_ring_2d.f90 sourcefile~shape_ring_2d.f90->sourcefile~forcad.f90 sourcefile~shape_ring_3d.f90 shape_ring_3d.f90 sourcefile~shape_ring_3d.f90->sourcefile~forcad.f90 sourcefile~shape_tetragon.f90 shape_tetragon.f90 sourcefile~shape_tetragon.f90->sourcefile~forcad.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause module forcad use forcad_utils use forcad_nurbs_curve use forcad_nurbs_surface use forcad_nurbs_volume private public rk , nurbs_curve , nurbs_surface , nurbs_volume end module forcad","tags":"","loc":"sourcefile/forcad.f90.html"},{"title":"demo_volume.f90 – ForCAD","text":"This file depends on sourcefile~~demo_volume.f90~~EfferentGraph sourcefile~demo_volume.f90 demo_volume.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~demo_volume.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> This program demonstrates the usage of a NURBS volume object to create, and finalize a NURBS volume. !> It sets up control points and weights, generates the volume, and exports the control points !> and the volume to VTK files at various stages. program example_nurbs_volume use forcad , only : rk , nurbs_volume implicit none type ( nurbs_volume ) :: nurbs !! Declare a NURBS volume object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights !----------------------------------------------------------------------------- ! Setting up the NURBS volume !----------------------------------------------------------------------------- !> Define control points for the NURBS volume Xc = generate_Xc ( 1.0_rk ) !> Define weights for the control points allocate ( Wc ( size ( Xc , 1 )), source = 1.0_rk ) !> Set control points and weights for the NURBS volume object call nurbs % set ([ 2 , 2 , 2 ], Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export initial control points to a VTK file call nurbs % export_Xc ( 'vtk/demo_volume_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS volume !----------------------------------------------------------------------------- !> Generate the NURBS volume with a resolution of 15X15X15 call nurbs % create ( 15 , 15 , 15 ) !> Export the generated volume to a VTK file call nurbs % export_Xg ( 'vtk/demo_volume_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/demo_volume_Xc.vtk' , 'vtk/demo_volume_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS volume object call nurbs % finalize () contains !----------------------------------------------------------------------------- function generate_Xc ( L ) result ( control_points ) implicit none real ( rk ), intent ( in ) :: L real ( rk ), allocatable :: control_points (:,:) real ( rk ) :: L2 L2 = L / 2.0_rk allocate ( control_points ( 8 , 3 )) control_points ( 1 ,:) = [ L2 , - L2 , L2 ] control_points ( 2 ,:) = [ L2 , - L2 , - L2 ] control_points ( 3 ,:) = [ - L2 , - L2 , L2 ] control_points ( 4 ,:) = [ - L2 , - L2 , - L2 ] control_points ( 5 ,:) = [ L2 , L2 , L2 ] control_points ( 6 ,:) = [ L2 , L2 , - L2 ] control_points ( 7 ,:) = [ - L2 , L2 , L2 ] control_points ( 8 ,:) = [ - L2 , L2 , - L2 ] end function !----------------------------------------------------------------------------- end program example_nurbs_volume","tags":"","loc":"sourcefile/demo_volume.f90.html"},{"title":"forcad_utils.f90 – ForCAD","text":"Files dependent on this one sourcefile~~forcad_utils.f90~~AfferentGraph sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 sourcefile~put_to_nurbs.f90 put_to_nurbs.f90 sourcefile~put_to_nurbs.f90->sourcefile~forcad_utils.f90 sourcefile~put_to_nurbs.f90->sourcefile~forcad.f90 sourcefile~demo_curve.f90 demo_curve.f90 sourcefile~demo_curve.f90->sourcefile~forcad.f90 sourcefile~demo_surface.f90 demo_surface.f90 sourcefile~demo_surface.f90->sourcefile~forcad.f90 sourcefile~demo_volume.f90 demo_volume.f90 sourcefile~demo_volume.f90->sourcefile~forcad.f90 sourcefile~example_curve_1.f90 example_curve_1.f90 sourcefile~example_curve_1.f90->sourcefile~forcad.f90 sourcefile~example_ppm1.f90 example_ppm1.f90 sourcefile~example_ppm1.f90->sourcefile~forcad.f90 sourcefile~example_ppm2.f90 example_ppm2.f90 sourcefile~example_ppm2.f90->sourcefile~forcad.f90 sourcefile~example_ppm3.f90 example_ppm3.f90 sourcefile~example_ppm3.f90->sourcefile~forcad.f90 sourcefile~example_surface_1.f90 example_surface_1.f90 sourcefile~example_surface_1.f90->sourcefile~forcad.f90 sourcefile~example_volume_1.f90 example_volume_1.f90 sourcefile~example_volume_1.f90->sourcefile~forcad.f90 sourcefile~nearest_point_1d.f90 nearest_point_1d.f90 sourcefile~nearest_point_1d.f90->sourcefile~forcad.f90 sourcefile~nearest_point_2d.f90 nearest_point_2d.f90 sourcefile~nearest_point_2d.f90->sourcefile~forcad.f90 sourcefile~nearest_point_2d_bench.f90 nearest_point_2d_bench.f90 sourcefile~nearest_point_2d_bench.f90->sourcefile~forcad.f90 sourcefile~nearest_point_3d.f90 nearest_point_3d.f90 sourcefile~nearest_point_3d.f90->sourcefile~forcad.f90 sourcefile~shape_c_1d.f90 shape_C_1d.f90 sourcefile~shape_c_1d.f90->sourcefile~forcad.f90 sourcefile~shape_c_2d.f90 shape_C_2d.f90 sourcefile~shape_c_2d.f90->sourcefile~forcad.f90 sourcefile~shape_c_3d.f90 shape_C_3d.f90 sourcefile~shape_c_3d.f90->sourcefile~forcad.f90 sourcefile~shape_circle.f90 shape_circle.f90 sourcefile~shape_circle.f90->sourcefile~forcad.f90 sourcefile~shape_half_circle.f90 shape_half_circle.f90 sourcefile~shape_half_circle.f90->sourcefile~forcad.f90 sourcefile~shape_half_ring_2d.f90 shape_half_ring_2d.f90 sourcefile~shape_half_ring_2d.f90->sourcefile~forcad.f90 sourcefile~shape_half_ring_3d.f90 shape_half_ring_3d.f90 sourcefile~shape_half_ring_3d.f90->sourcefile~forcad.f90 sourcefile~shape_hexahedron.f90 shape_hexahedron.f90 sourcefile~shape_hexahedron.f90->sourcefile~forcad.f90 sourcefile~shape_ring_2d.f90 shape_ring_2d.f90 sourcefile~shape_ring_2d.f90->sourcefile~forcad.f90 sourcefile~shape_ring_3d.f90 shape_ring_3d.f90 sourcefile~shape_ring_3d.f90->sourcefile~forcad.f90 sourcefile~shape_tetragon.f90 shape_tetragon.f90 sourcefile~shape_tetragon.f90->sourcefile~forcad.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> This module contains parameters, functions and subroutines that are used in the library. module forcad_utils implicit none private public :: rk , basis_bernstein , basis_bspline , elemConn_C0 , kron , ndgrid , compute_multiplicity , compute_knot_vector , & basis_bspline_der , insert_knot_A_5_1 , findspan , elevate_degree_A_5_9 , hexahedron_Xc , tetragon_Xc , remove_knots_A_5_8 , & elemConn_Cn , unique , rotation integer , parameter :: rk = kind ( 1.0d0 ) !=============================================================================== interface elemConn_C0 module procedure cmp_elemConn_C0_L module procedure cmp_elemConn_C0_S module procedure cmp_elemConn_C0_V end interface !=============================================================================== !=============================================================================== interface elemConn_Cn module procedure cmp_elemConn_Cn_L module procedure cmp_elemConn_Cn_S module procedure cmp_elemConn_Cn_V end interface !=============================================================================== !=============================================================================== interface ndgrid module procedure ndgrid2 module procedure ndgrid3 end interface !=============================================================================== !=============================================================================== interface compute_multiplicity module procedure compute_multiplicity1 module procedure compute_multiplicity2 end interface !=============================================================================== !=============================================================================== interface unique module procedure unique_integer module procedure unique_real end interface !=============================================================================== contains !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function basis_bspline ( Xt , knot , nc , degree ) result ( B ) integer , intent ( in ) :: degree real ( rk ), intent ( in ), contiguous :: knot (:) integer , intent ( in ) :: nc real ( rk ), intent ( in ) :: Xt real ( rk ) :: temp , Xth_i , Xth_i1 , Xth_ip , Xth_ip1 real ( rk ), allocatable :: Nt (:,:) integer :: i , p real ( rk ), allocatable :: B (:) temp = abs ( Xt - knot ( size ( knot ))) allocate ( Nt ( nc , 0 : degree ), source = 0.0_rk ) do p = 0 , degree do i = 1 , nc Xth_i = knot ( i ) Xth_i1 = knot ( i + 1 ) Xth_ip = knot ( i + p ) Xth_ip1 = knot ( i + p + 1 ) if ( temp /= tiny ( 0.0_rk ) . and . Xt >= Xth_i . and . Xt <= Xth_i1 ) Nt ( i , 0 ) = 1.0_rk if ( Xth_ip /= Xth_i ) Nt ( i , p ) = ( Xt - Xth_i ) / ( Xth_ip - Xth_i ) * Nt ( i , p - 1 ) if ( Xth_ip1 /= Xth_i1 ) Nt ( i , p ) = Nt ( i , p ) + ( Xth_ip1 - Xt ) / ( Xth_ip1 - Xth_i1 ) * Nt ( i + 1 , p - 1 ) end do end do B = Nt (:, degree ) end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function basis_bspline_der ( Xt , knot , nc , degree ) result ( dB ) integer , intent ( in ) :: degree real ( rk ), intent ( in ), contiguous :: knot (:) integer , intent ( in ) :: nc real ( rk ), intent ( in ) :: Xt real ( rk ), allocatable :: dB (:) real ( rk ), allocatable :: Nt (:,:), dNt_dXt (:,:) real ( rk ) :: R , L , Rp , Lp , knot_i , knot_ip , knot_jk , knot_jkm , knot_end , a , b , c , d integer :: i , k , n , m , jk k = degree + 1 n = nc - 1 allocate ( Nt ( nc + degree , degree + 1 )) Nt = 0.0_rk do i = 1 , n + k knot_i = knot ( i ) knot_ip = knot ( i + 1 ) knot_end = knot ( size ( knot )) if ( abs ( Xt - knot_end ) > tiny ( 0.0_rk ) ) then if ( Xt >= knot_i . and . Xt < knot_ip ) Nt ( i , 1 ) = 1.0_rk elseif ( abs ( Xt - knot_end ) < tiny ( 0.0_rk ) ) then if ( Xt >= knot_i . and . Xt <= knot_ip ) Nt ( i , 1 ) = 1.0_rk end if end do allocate ( dNt_dXt ( nc + degree , degree + 1 )) dNt_dXt = 0.0_rk m = 0 do jk = 2 , k m = m + 1 do i = 1 , n + k - m knot_i = knot ( i ) knot_ip = knot ( i + 1 ) knot_jk = knot ( i + jk ) knot_jkm = knot ( i + jk - 1 ) a = ( knot_jkm - knot_i ) b = ( knot_jk - Xt ) c = ( knot_jk - knot_ip ) d = ( Xt - knot_i ) R = d / a if ( isnan ( R ) . or . isinf ( R ) . or . abs ( R ) < tiny ( 0.0_rk ) ) R = 0.0_rk L = b / c if ( isnan ( L ) . or . isinf ( L ) . or . abs ( L ) < tiny ( 0.0_rk ) ) L = 0.0_rk Nt ( i , jk ) = R * Nt ( i , jk - 1 ) + L * Nt ( i + 1 , jk - 1 ) Rp = ( Nt ( i , jk - 1 ) + d * dNt_dXt ( i , jk - 1 )) / a if ( isnan ( Rp ) . or . isinf ( Rp ) . or . abs ( Rp ) < tiny ( 0.0_rk ) ) Rp = 0.0_rk Lp = ( b * dNt_dXt ( i + 1 , jk - 1 ) - Nt ( i + 1 , jk - 1 )) / c if ( isnan ( Lp ) . or . isinf ( Lp ) . or . abs ( Lp ) < tiny ( 0.0_rk ) ) Lp = 0.0_rk dNt_dXt ( i , jk ) = Rp + Lp end do end do dB = dNt_dXt ( 1 : nc , k ) end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function basis_bernstein ( Xt , nc ) result ( B ) real ( rk ), intent ( in ) :: Xt integer , intent ( in ) :: nc real ( rk ), allocatable :: B (:) integer :: p , degree degree = nc - 1 allocate ( B ( nc ), source = 0.0_rk ) do concurrent ( p = 0 : degree ) B ( p + 1 ) = gamma ( real ( nc , kind = rk )) / ( gamma ( real ( p + 1 , kind = rk )) * gamma ( real ( nc - p , kind = rk ))) if ( Xt == 0.0_rk . and . p == 0 ) then B ( p + 1 ) = B ( p + 1 ) * ( 1.0_rk - Xt ) ** ( degree - p ) else if ( Xt == 0.0_rk . and . degree - p == 0 ) then B ( p + 1 ) = B ( p + 1 ) * ( Xt ** p ) else B ( p + 1 ) = B ( p + 1 ) * ( Xt ** p ) * ( 1.0_rk - Xt ) ** ( degree - p ) end if end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function kron ( u , v ) result ( w ) real ( rk ), intent ( in ), contiguous :: u (:), v (:) real ( rk ) :: w ( size ( u ) * size ( v )) integer :: i , j , m , n m = size ( u ) n = size ( v ) do i = 1 , m do j = 1 , n w (( i - 1 ) * n + j ) = u ( i ) * v ( j ) end do end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine ndgrid2 ( X_dir1 , X_dir2 , Xt ) real ( rk ), intent ( in ), contiguous :: X_dir1 (:), X_dir2 (:) real ( rk ), allocatable , intent ( out ) :: Xt (:,:) integer :: s1 , s2 , i , j s1 = size ( X_dir1 ) s2 = size ( X_dir2 ) allocate ( Xt ( s1 * s2 , 2 )) do concurrent ( j = 1 : s2 , i = 1 : s1 ) Xt (( j - 1 ) * s1 + i , 1 ) = X_dir1 ( i ) Xt (( j - 1 ) * s1 + i , 2 ) = X_dir2 ( j ) end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine ndgrid3 ( X_dir1 , X_dir2 , X_dir3 , Xt ) real ( rk ), intent ( in ), contiguous :: X_dir1 (:), X_dir2 (:), X_dir3 (:) real ( rk ), allocatable , intent ( out ) :: Xt (:,:) integer :: s1 , s2 , s3 , i , j , k s1 = size ( X_dir1 ) s2 = size ( X_dir2 ) s3 = size ( X_dir3 ) allocate ( Xt ( s1 * s2 * s3 , 3 )) do concurrent ( k = 1 : s3 , j = 1 : s2 , i = 1 : s1 ) Xt ((( k - 1 ) * s2 + ( j - 1 )) * s1 + i , 1 ) = X_dir1 ( i ) Xt ((( k - 1 ) * s2 + ( j - 1 )) * s1 + i , 2 ) = X_dir2 ( j ) Xt ((( k - 1 ) * s2 + ( j - 1 )) * s1 + i , 3 ) = X_dir3 ( k ) end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function repelem ( a , b ) result ( c ) real ( rk ), intent ( in ), contiguous :: a (:) integer , intent ( in ), contiguous :: b (:) real ( rk ) :: c ( sum ( b )) integer :: i , l , n l = 0 do i = 1 , size ( a ) n = b ( i ) c ( l + 1 : l + n ) = a ( i ) l = l + n end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elemConn_C0_L ( nnode , p ) result ( elemConn ) integer , intent ( in ) :: nnode integer , intent ( in ) :: p integer , allocatable :: elemConn (:,:) integer :: i , l integer , allocatable :: nodes (:) if ( mod ( nnode - 1 , p ) /= 0 ) error stop 'cmp_elemConn_C0_L: nnode-1 must be divisible by p' allocate ( elemConn ( ( nnode - 1 ) / p , p + 1 )) nodes = [( i , i = 1 , nnode )] l = 0 do i = 1 , nnode - p , p l = l + 1 elemConn ( l ,:) = reshape ( nodes ( i : i + p ),[( p + 1 )]) end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elemConn_C0_S ( nnode1 , nnode2 , p1 , p2 ) result ( elemConn ) integer , intent ( in ) :: nnode1 , nnode2 integer , intent ( in ) :: p1 , p2 integer , allocatable :: elemConn (:,:) integer :: i , j , l integer , allocatable :: nodes (:,:) if ( mod ( nnode1 - 1 , p1 ) /= 0 ) error stop 'cmp_elemConn_C0_S: nnode1-1 must be divisible by p1' if ( mod ( nnode2 - 1 , p2 ) /= 0 ) error stop 'cmp_elemConn_C0_S: nnode2-1 must be divisible by p2' allocate ( elemConn ( (( nnode1 - 1 ) / p1 ) * (( nnode2 - 1 ) / p2 ), ( p1 + 1 ) * ( p2 + 1 ))) nodes = reshape ([( i , i = 1 , nnode1 * nnode2 )], [ nnode1 , nnode2 ]) l = 0 do j = 1 , nnode2 - p2 , p2 do i = 1 , nnode1 - p1 , p1 l = l + 1 elemConn ( l ,:) = reshape ( nodes ( i : i + p1 , j : j + p2 ),[( p1 + 1 ) * ( p2 + 1 )]) end do end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elemConn_C0_V ( nnode1 , nnode2 , nnode3 , p1 , p2 , p3 ) result ( elemConn ) integer , intent ( in ) :: nnode1 , nnode2 , nnode3 integer , intent ( in ) :: p1 , p2 , p3 integer , allocatable :: elemConn (:,:) integer :: i , j , k , l integer , allocatable :: nodes (:,:,:) if ( mod ( nnode1 - 1 , p1 ) /= 0 ) error stop 'cmp_elemConn_C0_V: nnode1-1 must be divisible by p1' if ( mod ( nnode2 - 1 , p2 ) /= 0 ) error stop 'cmp_elemConn_C0_V: nnode2-1 must be divisible by p2' if ( mod ( nnode3 - 1 , p3 ) /= 0 ) error stop 'cmp_elemConn_C0_V: nnode3-1 must be divisible by p3' allocate ( elemConn ( (( nnode1 - 1 ) / p1 ) * (( nnode2 - 1 ) / p2 ) * (( nnode3 - 1 ) / p3 ) ,( p1 + 1 ) * ( p2 + 1 ) * ( p3 + 1 ))) nodes = reshape ([( i , i = 1 , nnode1 * nnode2 * nnode3 )], [ nnode1 , nnode2 , nnode3 ]) l = 0 do k = 1 , nnode3 - p3 , p3 do j = 1 , nnode2 - p2 , p2 do i = 1 , nnode1 - p1 , p1 l = l + 1 elemConn ( l ,:) = reshape ( nodes ( i : i + p1 , j : j + p2 , k : k + p3 ),[( p1 + 1 ) * ( p2 + 1 ) * ( p3 + 1 )]) end do end do end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine cmp_elemConn_Cn_L ( nnode , p , Xth , vecKnot_mul , elemConn ) integer , intent ( in ) :: p , nnode integer , intent ( in ), contiguous :: vecKnot_mul (:) real ( rk ), intent ( in ), contiguous :: Xth (:) integer , allocatable , intent ( out ) :: elemConn (:,:) integer , allocatable :: nodes (:) integer :: i , nnel , m , nelem nnel = p + 1 nodes = [( i , i = 1 , nnode )] nelem = size ( Xth ) - 1 allocate ( elemConn ( nelem , nnel )) m = - p do i = 1 , nelem m = m + vecKnot_mul ( i ) elemConn ( i ,:) = nodes ( m : m + p ) end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine cmp_elemConn_Cn_S ( nnode1 , nnode2 , p1 , p2 ,& Xth1 , Xth2 , vecKnot_mul1 , vecKnot_mul2 , elemConn ) integer , intent ( in ) :: p1 , p2 , nnode1 , nnode2 integer , intent ( in ), contiguous :: vecKnot_mul1 (:), vecKnot_mul2 (:) real ( rk ), intent ( in ), contiguous :: Xth1 (:), Xth2 (:) integer , allocatable , intent ( out ) :: elemConn (:,:) integer , allocatable :: nodes (:,:), nodes_vec (:) integer :: nnd_total , i , j , l , nnel1 , nnel2 , m , n , nelem1 , nelem2 , nelem nnel1 = p1 + 1 nnel2 = p2 + 1 nnd_total = nnode1 * nnode2 allocate ( nodes_vec ( nnd_total )) Nodes_vec = [( i , i = 1 , nnd_total )] nodes = reshape ( nodes_vec ,[ nnode1 , nnode2 ]) nelem1 = size ( Xth1 ) - 1 nelem2 = size ( Xth2 ) - 1 nelem = nelem1 * nelem2 allocate ( elemConn ( nelem , nnel1 * nnel2 )) l = 0 n = - p2 do j = 1 , nelem2 n = n + vecKnot_mul2 ( j ) m = - p1 do i = 1 , nelem1 m = m + vecKnot_mul1 ( i ) l = l + 1 elemConn ( l ,:) = reshape ( nodes ( m : m + p1 , n : n + p2 ), [ nnel1 * nnel2 ]) end do end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine cmp_elemConn_Cn_V ( nnode1 , nnode2 , nnode3 , p1 , p2 , p3 ,& Xth1 , Xth2 , Xth3 , vecKnot_mul1 , vecKnot_mul2 , vecKnot_mul3 , elemConn ) integer , intent ( in ) :: p1 , p2 , p3 , nnode1 , nnode2 , nnode3 integer , intent ( in ), contiguous :: vecKnot_mul1 (:), vecKnot_mul2 (:), vecKnot_mul3 (:) real ( rk ), intent ( in ), contiguous :: Xth1 (:), Xth2 (:), Xth3 (:) integer , allocatable , intent ( out ) :: elemConn (:,:) integer , allocatable :: nodes (:,:,:), nodes_vec (:) integer :: nnd_total , i , j , k , l , nnel1 , nnel2 , nnel3 , m , n , o , nelem1 , nelem2 , nelem3 , nelem nnel1 = p1 + 1 nnel2 = p2 + 1 nnel3 = p3 + 1 nnd_total = nnode1 * nnode2 * nnode3 allocate ( nodes_vec ( nnd_total )) Nodes_vec = [( i , i = 1 , nnd_total )] nodes = reshape ( nodes_vec ,[ nnode1 , nnode2 , nnode3 ]) nelem1 = size ( Xth1 ) - 1 nelem2 = size ( Xth2 ) - 1 nelem3 = size ( Xth3 ) - 1 nelem = nelem1 * nelem2 * nelem3 allocate ( elemConn ( nelem , nnel1 * nnel2 * nnel3 )) l = 0 o = - p3 do k = 1 , nelem3 o = o + vecKnot_mul3 ( k ) n = - p2 do j = 1 , nelem2 n = n + vecKnot_mul2 ( j ) m = - p1 do i = 1 , nelem1 m = m + vecKnot_mul1 ( i ) l = l + 1 elemConn ( l ,:) = reshape ( nodes ( m : m + p1 , n : n + p2 , o : o + p3 ), [ nnel1 * nnel2 * nnel3 ]) end do end do end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function compute_multiplicity1 ( knot ) result ( multiplicity ) real ( rk ), intent ( in ), contiguous :: knot (:) integer , allocatable :: multiplicity (:) integer :: i , count count = 1 do i = 2 , size ( knot ) if ( knot ( i ) /= knot ( i - 1 )) count = count + 1 end do allocate ( multiplicity ( count )) multiplicity ( 1 ) = 1 count = 1 do i = 2 , size ( knot ) if ( knot ( i ) /= knot ( i - 1 )) then count = count + 1 multiplicity ( count ) = 1 else multiplicity ( count ) = multiplicity ( count ) + 1 end if end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function compute_multiplicity2 ( knot , Xth ) result ( multiplicity ) real ( rk ), intent ( in ), contiguous :: knot (:) real ( rk ), intent ( in ) :: Xth integer :: multiplicity integer :: i , count , size_knot size_knot = size ( knot ) multiplicity = 0 i = 1 do while ( i <= size_knot ) if ( knot ( i ) == Xth ) then count = 1 do while ( i + count <= size_knot . and . knot ( i + count ) == Xth ) count = count + 1 end do if ( count > multiplicity ) then multiplicity = count end if i = i + count else i = i + 1 end if end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function compute_knot_vector ( Xth_dir , degree , continuity ) result ( knot ) real ( rk ), intent ( in ), contiguous :: Xth_dir (:) integer , intent ( in ) :: degree integer , intent ( in ), contiguous :: continuity (:) real ( rk ), allocatable :: knot (:) knot = repelem ( Xth_dir , ( degree - continuity )) end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause elemental pure function isinf ( x ) result ( output ) real ( rk ), intent ( in ) :: x logical :: output output = . false . if ( x > huge ( x )) output = . true . if ( x < - huge ( x )) output = . true . end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause elemental pure function isnan ( x ) result ( output ) real ( rk ), intent ( in ) :: x logical :: output output = . false . if ( x /= x ) output = . true . end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine insert_knot_A_5_1 ( p , UP , Pw , u , k , s , r , nq , UQ , Qw ) integer , intent ( in ) :: p , k , s , r real ( rk ), intent ( in ), contiguous :: UP ( 0 :), Pw ( 0 :,:) real ( rk ), intent ( in ) :: u real ( rk ), allocatable , intent ( out ) :: UQ (:), Qw (:,:) integer , intent ( out ) :: nq integer :: i , j , L , mp , dim , np real ( rk ), allocatable :: Rw (:,:) real ( rk ) :: alpha dim = size ( Pw , 2 ) np = size ( Pw , 1 ) - 1 mp = np + p + 1 nq = np + r allocate ( UQ ( 0 : mp + r )) allocate ( Qw ( 0 : nq , 1 : dim )) allocate ( Rw ( 0 : p , 1 : dim )) UQ ( 0 : k ) = UP ( 0 : k ) UQ ( k + 1 : k + r ) = u UQ ( k + 1 + r : mp + r ) = UP ( k + 1 : mp ) Qw ( 0 : k - p ,:) = Pw ( 0 : k - p ,:) Qw ( k - s + r : np + r ,:) = Pw ( k - s : np ,:) Rw ( 0 : p - s ,:) = Pw ( k - p : k - s ,:) do j = 1 , r L = k - p + j do i = 0 , p - j - s alpha = ( u - UP ( L + i )) / ( UP ( i + k + 1 ) - UP ( L + i )) Rw ( i ,:) = alpha * Rw ( i + 1 ,:) + ( 1.0_rk - alpha ) * Rw ( i ,:) end do Qw ( L ,:) = Rw ( 0 ,:) Qw ( k + r - j - s ,:) = Rw ( p - j - s ,:) end do Qw ( L + 1 : k - s - 1 ,:) = Rw ( 1 : k - s - 1 - L ,:) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function findspan ( n , degree , Xth , knot ) result ( s ) integer , intent ( in ) :: n , degree real ( rk ), intent ( in ) :: Xth real ( rk ), intent ( in ), contiguous :: knot (:) integer :: s integer :: low , high , mid if ( Xth == knot ( n + 2 )) then s = n return end if low = degree high = n + 1 mid = ( low + high ) / 2 do while ( Xth < knot ( mid + 1 ) . or . Xth >= knot ( mid + 2 )) if ( Xth < knot ( mid + 1 )) then high = mid else low = mid end if mid = ( low + high ) / 2 end do s = mid end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine elevate_degree_A_5_9 ( t , knot , degree , Xcw , nc_new , knot_new , Xcw_new ) integer , intent ( in ) :: t real ( rk ), intent ( in ), contiguous :: Xcw (:,:), knot (:) integer , intent ( in ) :: degree integer , intent ( out ) :: nc_new real ( rk ), allocatable , intent ( out ) :: Xcw_new (:,:), knot_new (:) real ( rk ), allocatable :: bezalfs (:,:), bpts (:,:), ebpts (:,:), Nextbpts (:,:), alfs (:) real ( rk ) :: inv , alpha1 , alpha2 , Xth1 , Xth2 , numer , den integer :: n , lbz , rbz , sv , tr , kj , first , knoti , last , alpha3 , dim , nc integer :: i , j , q , s , m , ph , ph2 , mpi , mh , r , a , b , Xcwi , oldr , mul integer , allocatable :: mlp (:) nc = size ( Xcw , 1 ) dim = size ( Xcw , 2 ) mlp = compute_multiplicity ( knot ) mlp = mlp + t nc_new = sum ( mlp ) - ( mlp ( 1 ) - 1 ) - 1 allocate ( Xcw_new ( nc_new , dim ), source = 0.0_rk ) allocate ( bezalfs ( degree + 1 , degree + t + 1 ), source = 0.0_rk ) allocate ( bpts ( degree + 1 , dim ), source = 0.0_rk ) allocate ( ebpts ( degree + t + 1 , dim ), source = 0.0_rk ) allocate ( Nextbpts ( degree + 1 , dim ), source = 0.0_rk ) allocate ( alfs ( degree ), source = 0.0_rk ) n = nc - 1 m = n + degree + 1 ph = degree + t ph2 = ph / 2 bezalfs ( 1 , 1 ) = 1.0_rk bezalfs ( degree + 1 , ph + 1 ) = 1.0_rk do i = 1 , ph2 inv = 1.0_rk / bincoeff ( ph , i ) mpi = min ( degree , i ) do j = max ( 0 , i - t ), mpi bezalfs ( j + 1 , i + 1 ) = inv * bincoeff ( degree , j ) * bincoeff ( t , i - j ) end do end do do i = ph2 + 1 , ph - 1 mpi = min ( degree , i ) do j = max ( 0 , i - t ), mpi bezalfs ( j + 1 , i + 1 ) = bezalfs ( degree - j + 1 , ph - i + 1 ) end do end do mh = ph knoti = ph + 1 r = - 1 a = degree b = degree + 1 Xcwi = 1 Xth1 = knot ( 1 ) Xcw_new ( 1 ,:) = Xcw ( 1 ,:) allocate ( knot_new ( sum ( mlp )), source = 0.0_rk ) knot_new ( 1 : ph + 1 ) = Xth1 do i = 0 , degree bpts ( i + 1 ,:) = Xcw ( i + 1 ,:) end do do while ( b < m ) i = b do while ( b < m . and . knot ( b + 1 ) == knot ( b + 2 )) b = b + 1 if ( b + 2 > size ( knot )) then exit end if end do mul = b - i + 1 mh = mh + mul + t Xth2 = knot ( b + 1 ) oldr = r r = degree - mul if ( oldr > 0 ) then lbz = ( oldr + 2 ) / 2 else lbz = 1 end if if ( r > 0 ) then rbz = ph - ( r + 1 ) / 2 else rbz = ph end if if ( r > 0 ) then numer = Xth2 - Xth1 do q = degree , mul + 1 , - 1 alfs ( q - mul ) = numer / ( knot ( a + q + 1 ) - Xth1 ) end do do j = 1 , r sv = r - j s = mul + j do q = degree , s , - 1 bpts ( q + 1 ,:) = ( 1.0_rk - alfs ( q - s + 1 )) * bpts ( q ,:) + alfs ( q - s + 1 ) * bpts ( q + 1 ,:) end do Nextbpts ( sv + 1 ,:) = bpts ( degree + 1 ,:) end do end if do i = lbz , ph ebpts ( i + 1 ,:) = 0.0_rk mpi = min ( degree , i ) do j = max ( 0 , i - t ), mpi ebpts ( i + 1 ,:) = bezalfs ( j + 1 , i + 1 ) * bpts ( j + 1 ,:) + ebpts ( i + 1 ,:) end do end do if ( oldr > 1 ) then first = knoti - 2 last = knoti den = Xth2 - Xth1 alpha3 = floor (( Xth2 - knot ( knoti )) / den ) do tr = 1 , oldr - 1 i = first j = last kj = j - knoti + 1 do while ( j - i > tr ) if ( i < Xcwi ) then alpha1 = ( Xth2 - knot ( i + 1 )) / ( Xth1 - knot ( i + 1 )) Xcw_new ( i + 1 ,:) = ( 1 - alpha1 ) * Xcw_new ( i ,:) + alpha1 * Xcw_new ( i + 1 ,:) end if if ( j >= lbz ) then if ( j - tr <= knoti - ph + oldr ) then alpha2 = ( Xth2 - knot_new ( j - tr + 1 )) / den ebpts ( kj + 1 ,:) = alpha2 * ebpts ( kj + 1 ,:) + ( 1 - alpha2 ) * ebpts ( kj + 2 ,:) else ebpts ( kj + 1 ,:) = ( 1 - alpha3 ) * ebpts (:, kj + 2 ) + alpha3 * ebpts ( kj + 1 ,:) end if end if i = i + 1 j = j - 1 kj = kj - 1 end do first = first - 1 last = last + 1 end do end if if ( a /= degree ) then do i = 0 , ph - oldr - 1 knot_new ( knoti + 1 ) = Xth1 knoti = knoti + 1 end do end if do j = lbz , rbz Xcw_new ( Xcwi + 1 ,:) = ebpts ( j + 1 ,:) Xcwi = Xcwi + 1 end do if ( b < m ) then do j = 0 , r - 1 bpts ( j + 1 ,:) = Nextbpts ( j + 1 ,:) end do do j = r , degree bpts ( j + 1 ,:) = Xcw ( b - degree + j + 1 ,:) end do a = b b = b + 1 Xth1 = Xth2 else do i = 0 , ph knot_new ( knoti + i + 1 ) = Xth2 end do end if end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function bincoeff ( n , k ) result ( b ) integer , intent ( in ) :: n , k real ( rk ) :: b b = floor ( 0.5_rk + exp ( factln ( n ) - factln ( k ) - factln ( n - k ))) end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function factln ( n ) result ( f ) integer , intent ( in ) :: n real ( rk ) :: f if ( n <= 1 ) then f = 0.0_rk return end if f = log ( gamma ( real ( n + 1 , rk ))) end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function hexahedron_Xc ( L , nc ) result ( Xc ) real ( rk ), intent ( in ) :: L ( 3 ) integer , intent ( in ) :: nc ( 3 ) real ( rk ), allocatable :: Xc (:,:) real ( rk ) :: dx , dy , dz integer :: i , j , k , nci dx = L ( 1 ) / real ( nc ( 1 ) - 1 , rk ) dy = L ( 2 ) / real ( nc ( 2 ) - 1 , rk ) dz = L ( 3 ) / real ( nc ( 3 ) - 1 , rk ) allocate ( Xc ( nc ( 1 ) * nc ( 2 ) * nc ( 3 ), 3 )) nci = 1 do k = 0 , nc ( 3 ) - 1 do j = 0 , nc ( 2 ) - 1 do i = 0 , nc ( 1 ) - 1 Xc ( nci , 1 ) = real ( i , rk ) * dx Xc ( nci , 2 ) = real ( j , rk ) * dy Xc ( nci , 3 ) = real ( k , rk ) * dz nci = nci + 1 end do end do end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function tetragon_Xc ( L , nc ) result ( Xc ) real ( rk ), intent ( in ) :: L ( 2 ) integer , intent ( in ) :: nc ( 2 ) real ( rk ), allocatable :: Xc (:,:) real ( rk ) :: dx , dy integer :: i , j , nci dx = L ( 1 ) / real ( nc ( 1 ) - 1 , rk ) dy = L ( 2 ) / real ( nc ( 2 ) - 1 , rk ) allocate ( Xc ( nc ( 1 ) * nc ( 2 ), 3 )) nci = 1 do j = 0 , nc ( 2 ) - 1 do i = 0 , nc ( 1 ) - 1 Xc ( nci , 1 ) = real ( i , rk ) * dx Xc ( nci , 2 ) = real ( j , rk ) * dy Xc ( nci , 3 ) = 0.0_rk nci = nci + 1 end do end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine remove_knots_A_5_8 ( p , knot , Pw , u , r , s , num , t , knot_new , Pw_new ) real ( rk ), intent ( in ) :: u integer , intent ( in ) :: p , r , s , num real ( rk ), intent ( in ), contiguous :: knot (:) real ( rk ), intent ( in ), contiguous :: Pw (:,:) real ( rk ), allocatable , intent ( out ) :: knot_new (:) real ( rk ), allocatable , intent ( out ) :: Pw_new (:,:) real ( rk ), allocatable :: Pw_copy (:,:), knot_copy (:) integer , intent ( out ) :: t real ( rk ) :: tol , alfi , alfj real ( rk ), allocatable :: temp (:,:) integer :: i , j , ii , jj , remflag , off , first , last , ord , fout , m , k , n , nc , dim , tt dim = size ( Pw , 2 ) nc = size ( Pw , 1 ) n = nc m = n + p + 1 ord = p + 1 fout = ( 2 * r - s - p ) / 2 last = r - s first = r - p Pw_copy = Pw knot_copy = knot ! TODO: tol = 1.0e-6_rk * minval ( Pw (:, dim )) / ( 1.0_rk + maxval ( sqrt ( sum ( Pw ** 2 , 2 )))) allocate ( temp ( 2 * p + 1 , dim ), source = 0.0_rk ) t = 0 do tt = 0 , num - 1 off = first - 1 temp ( 1 ,:) = Pw_copy ( off ,:) temp ( last + 1 - off + 1 ,:) = Pw_copy ( last + 1 ,:) i = first j = last ii = 1 jj = last - off remflag = 0 do while ( j - i > t ) alfi = ( u - knot_copy ( i )) / ( knot_copy ( i + ord + t ) - knot_copy ( i )) alfj = ( u - knot_copy ( j - t )) / ( knot_copy ( j + ord ) - knot_copy ( j - t )) temp ( ii + 1 ,:) = ( Pw_copy ( i ,:) - ( 1.0_rk - alfi ) * temp ( ii - 1 + 1 ,:)) / alfi temp ( jj + 1 ,:) = ( Pw_copy ( j ,:) - alfj * temp ( jj + 1 + 1 ,:)) / ( 1.0_rk - alfj ) i = i + 1 ii = ii + 1 j = j - 1 jj = jj - 1 end do if ( j - i <= t ) then if ( norm2 ( temp ( ii - 1 + 1 ,:) - temp ( jj + 1 + 1 ,:)) <= tol ) then remflag = 1 else alfi = ( u - knot_copy ( i )) / ( knot_copy ( i + ord + t ) - knot_copy ( i )) if ( norm2 ( Pw_copy ( i ,:) - ( alfi * temp ( ii + t + 1 + 1 ,:) + ( 1.0_rk - alfi ) * temp ( ii - 1 + 1 ,:))) <= tol ) then remflag = 1 end if end if end if if ( remflag == 0 ) then exit else i = first j = last do while ( j - i > t ) Pw_copy ( i ,:) = temp ( i - off + 1 ,:) Pw_copy ( j ,:) = temp ( j - off + 1 ,:) i = i + 1 j = j - 1 end do end if first = first - 1 last = last + 1 t = t + 1 end do if ( t == 0 ) then return end if do k = r + 1 , m knot_copy ( k - t ) = knot_copy ( k ) end do j = fout i = j do k = 1 , t - 1 if ( mod ( k , 2 ) == 1 ) then i = i + 1 else j = j - 1 end if end do do k = i + 1 , n Pw_copy ( j ,:) = Pw_copy ( k ,:) j = j + 1 end do knot_new = knot_copy ( 1 : size ( knot_copy ) - t ) Pw_new = Pw_copy ( 1 : size ( Pw_copy , 1 ) - t ,:) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function unique_integer ( vec ) result ( output ) integer , dimension (:), intent ( in ), contiguous :: vec integer , dimension (:), allocatable :: output integer :: i , j , k allocate ( output ( 0 )) do i = 1 , size ( vec ) k = 0 do j = 1 , size ( output ) if ( vec ( i ) == output ( j )) then k = k + 1 exit end if end do if ( k == 0 ) then output = [ output , vec ( i )] end if end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function unique_real ( vec ) result ( output ) real ( rk ), dimension (:), intent ( in ), contiguous :: vec real ( rk ), dimension (:), allocatable :: output integer :: i , j , k allocate ( output ( 0 )) do i = 1 , size ( vec ) k = 0 do j = 1 , size ( output ) if ( vec ( i ) == output ( j )) then k = k + 1 exit end if end do if ( k == 0 ) then output = [ output , vec ( i )] end if end do end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function rotation ( alpha , beta , theta ) result ( R ) real ( rk ), intent ( in ) :: alpha , beta , theta real ( rk ), dimension ( 3 , 3 ) :: R R ( 1 , 1 ) = cosd ( beta ) * cosd ( theta ) R ( 2 , 1 ) = cosd ( beta ) * sind ( theta ) R ( 3 , 1 ) = - sind ( beta ) R ( 1 , 2 ) = sind ( alpha ) * sind ( beta ) * cosd ( theta ) - cosd ( alpha ) * sind ( theta ) R ( 2 , 2 ) = sind ( alpha ) * sind ( beta ) * sind ( theta ) + cosd ( alpha ) * cosd ( theta ) R ( 3 , 2 ) = sind ( alpha ) * cosd ( beta ) R ( 1 , 3 ) = cosd ( alpha ) * sind ( beta ) * cosd ( theta ) + sind ( alpha ) * sind ( theta ) R ( 2 , 3 ) = cosd ( alpha ) * sind ( beta ) * sind ( theta ) - sind ( alpha ) * cosd ( theta ) R ( 3 , 3 ) = cosd ( alpha ) * cosd ( beta ) end function !=============================================================================== end module forcad_utils","tags":"","loc":"sourcefile/forcad_utils.f90.html"},{"title":"example_ppm3.f90 – ForCAD","text":"This file depends on sourcefile~~example_ppm3.f90~~EfferentGraph sourcefile~example_ppm3.f90 example_ppm3.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~example_ppm3.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> Visualization of NURBS surfaces using ForCAD, ForImage and ForColorMap libraries !> This example converts NURBS surfaces (vector) to an image (raster) using ForCAD, ForImage and ForColorMap libraries. program example_ppm3 use forcad , only : rk , nurbs_surface use forimage , only : ik , format_pnm , color use forcolormap , only : colormap use fortime , only : timer implicit none type ( nurbs_surface ) :: shape type ( format_pnm ) :: image type ( color ) :: background_color type ( colormap ) :: cmap integer ( ik ), allocatable :: px (:, :) real ( rk ), allocatable :: Xg (:,:), z_values (:) real ( rk ) :: aspect_ratio integer :: height , width , ng ( 2 ), red , green , blue , res1 , res2 , i integer , allocatable :: idx (:,:) type ( timer ) :: t !----------------------------------------------------------------------------- ! Set the image size and calculate the aspect ratio !----------------------------------------------------------------------------- width = 2000 height = 2000 aspect_ratio = real ( width , rk ) / real ( height , rk ) allocate ( px ( height , 3 * width )) !----------------------------------------------------------------------------- ! Set the background color using ForColor class of ForImage !----------------------------------------------------------------------------- call t % timer_start () call background_color % set ( 'white' , use_library = . true .) do i = 1 , width px (:, 3 * ( i - 1 ) + 1 ) = background_color % get_r () px (:, 3 * ( i - 1 ) + 2 ) = background_color % get_g () px (:, 3 * ( i - 1 ) + 3 ) = background_color % get_b () end do call t % timer_stop ( message = 'Setting the background color' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () !> Set the shape parameters for a tetragon res1 = 2000 res2 = 2000 call shape % set_tetragon ( L = [ 1.0_rk , 1.0_rk ], nc = [ 2 , 2 ]) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a tetragon' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! circular gradient z_values = (( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 )))) ** 2 & + (( Xg (:, 2 ) - minval ( Xg (:, 2 ))) / ( maxval ( Xg (:, 2 )) - minval ( Xg (:, 2 ))) ** 2 ) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'buda' , 0.0_rk , 1.0_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () res1 = 2000 res2 = 2000 call shape % set_tetragon ( L = [ 0.48_rk , 0.48_rk ], nc = [ 2 , 2 ]) call shape % translate_Xc ([ 0.01_rk , 0.01_rk , 0.0_rk ]) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! circular gradient z_values = (( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 )))) ** 2 & + (( Xg (:, 2 ) - minval ( Xg (:, 2 ))) / ( maxval ( Xg (:, 2 )) - minval ( Xg (:, 2 ))) ** 2 ) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'managua' , 0.0_rk , 2.2_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () res1 = 2000 res2 = 2000 call shape % set_tetragon ( L = [ 0.48_rk , 0.48_rk ], nc = [ 3 , 2 ]) call shape % translate_Xc ([ 0.51_rk , 0.01_rk , 0.0_rk ]) call shape % modify_Xc ( 0.24_rk , 2 , 2 ) call shape % modify_Xc ( 0.26_rk , 5 , 2 ) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! linear gradient in the y-direction z_values = ( Xg (:, 2 ) - minval ( Xg (:, 2 ))) / ( maxval ( Xg (:, 2 )) - minval ( Xg (:, 2 ))) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'lipari' , 0.0_rk , 1.0_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () res1 = 2000 res2 = 2000 call shape % set_tetragon ( L = [ 0.48_rk , 0.48_rk ], nc = [ 2 , 3 ]) call shape % translate_Xc ([ 0.01_rk , 0.51_rk , 0.0_rk ]) call shape % modify_Xc ( 0.26_rk , 3 , 1 ) call shape % modify_Xc ( 0.24_rk , 4 , 1 ) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! linear gradient in the x-direction z_values = ( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 ))) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'oslo10' , 0.0_rk , 1.0_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () res1 = 2000 res2 = 2000 call shape % set_tetragon ( L = [ 0.48_rk , 0.48_rk ], nc = [ 3 , 3 ]) call shape % translate_Xc ([ 0.51_rk , 0.51_rk , 0.0_rk ]) call shape % modify_Xc ( 0.7_rk , 1 , 2 ) call shape % modify_Xc ( 0.7_rk , 3 , 2 ) call shape % modify_Xc ( 0.8_rk , 7 , 2 ) call shape % modify_Xc ( 0.8_rk , 9 , 2 ) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! linear gradient in the x-direction z_values = ( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 ))) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- red = 255 green = 215 blue = 0 !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting colors' ) !----------------------------------------------------------------------------- ! Save the image to a PPM file using ForImage library !----------------------------------------------------------------------------- call t % timer_start () call image % set_pnm (& encoding = 'binary' , & file_format = 'ppm' , & width = width , & height = height , & max_color = 255 , & comment = 'example: ForCAD + ForImage + ForColor + ForColormap' , & pixels = px & ) call image % export_pnm ( 'ppm/example_ppm3' ) call image % finalize () call t % timer_stop ( message = 'Saving the image' ) ! Clean up call cmap % finalize () deallocate ( px , Xg , z_values ) end program","tags":"","loc":"sourcefile/example_ppm3.f90.html"},{"title":"example_volume_1.f90 – ForCAD","text":"This file depends on sourcefile~~example_volume_1.f90~~EfferentGraph sourcefile~example_volume_1.f90 example_volume_1.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~example_volume_1.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> This program demonstrates the usage of a NURBS (Non-Uniform Rational B-Spline) volume object to create and finalize a NURBS volume. !> It sets up control points, weights, and knot vectors for all three dimensions, generates the volume, and exports the control points and the volume to VTK files. program example3_volume use forcad , only : rk , nurbs_volume implicit none type ( nurbs_volume ) :: nurbs !! Declare a NURBS volume object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights real ( rk ) :: knot1 ( 4 ), knot2 ( 4 ), knot3 ( 4 ) !! Arrays for knot vectors in all three dimensions !----------------------------------------------------------------------------- ! Setting up the NURBS volume !----------------------------------------------------------------------------- !> Define the control points for the NURBS volume Xc = generate_Xc ( 5.0_rk ) !> Define weights for the control points (optional) allocate ( Wc ( size ( Xc , 1 )), source = 1.0_rk ) Wc ( 2 ) = 5.0_rk !> Define knot vectors for all three dimensions knot1 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] knot2 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] knot3 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] !> Set knot vectors, control points, and weights for the NURBS volume object !> Wc is optional. call nurbs % set ( knot1 , knot2 , knot3 , Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export the control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_volume_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS volume !----------------------------------------------------------------------------- !> Generate the NURBS volume with resolutions of 20, 20, and 20 in the three dimensions call nurbs % create ( 20 , 20 , 20 ) !> Export the generated volume to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_volume_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_volume_Xc.vtk' , 'vtk/nurbs_volume_Xg.vtk' ) !----------------------------------------------------------------------------- ! Refinements !----------------------------------------------------------------------------- !> Print size of knot vectors print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) print * , size ( nurbs % get_knot ( 3 )) !> Insert knots 0.25 and 0.75 in all three directions call nurbs % insert_knots ( 1 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 1 call nurbs % insert_knots ( 2 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 2 call nurbs % insert_knots ( 3 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 3 !> Print size of knot vectors after inserting knots print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) print * , size ( nurbs % get_knot ( 3 )) !> Print degrees print * , nurbs % get_degree () !> Elevate degree by 2 in all three directions call nurbs % elevate_degree ( 1 , 2 ) ! direction 1 call nurbs % elevate_degree ( 2 , 2 ) ! direction 2 call nurbs % elevate_degree ( 3 , 2 ) ! direction 3 !> Print degrees after elevating print * , nurbs % get_degree () !> Print size of knot vectors print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) print * , size ( nurbs % get_knot ( 3 )) call nurbs % remove_knots ( 1 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 1 call nurbs % remove_knots ( 2 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 2 call nurbs % remove_knots ( 3 , [ 0.25_rk , 0.75_rk ], [ 1 , 1 ]) ! direction 3 !> Print size of knot vectors after removing knots print * , size ( nurbs % get_knot ( 1 )) print * , size ( nurbs % get_knot ( 2 )) print * , size ( nurbs % get_knot ( 3 )) !> Generate the refined NURBS volume with resolutions of 40, 40, and 40 in the three dimensions call nurbs % create () !> Export updated control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_volume_Xc2.vtk' ) !> Export the refined generated volume to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_volume_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_volume_Xc2.vtk' , 'vtk/nurbs_volume_Xg2.vtk' ) !----------------------------------------------------------------------------- ! Transformations !----------------------------------------------------------------------------- !> Rotate the control points call nurbs % rotate_Xc ( alpha =- 4 5.0_rk , beta = 0.0_rk , theta = 9 0.0_rk ) !> Rotate the generated curve call nurbs % rotate_Xg ( alpha =- 4 5.0_rk , beta = 0.0_rk , theta = 9 0.0_rk ) !> Translate the control points call nurbs % translate_Xc ([ 1.0_rk , 2.0_rk , - 3.0_rk ]) !> Translate the generated curve call nurbs % translate_Xg ([ 1.0_rk , 2.0_rk , - 3.0_rk ]) !> Export the transformed control points to a VTK file call nurbs % export_Xc ( 'vtk/nurbs_volume_Xc3.vtk' ) !> Export the transformed generated volume to a VTK file call nurbs % export_Xg ( 'vtk/nurbs_volume_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/nurbs_volume_Xc3.vtk' , 'vtk/nurbs_volume_Xg3.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS volume object call nurbs % finalize () contains !----------------------------------------------------------------------------- function generate_Xc ( L ) result ( control_points ) implicit none real ( rk ), intent ( in ) :: L real ( rk ), allocatable :: control_points (:,:) real ( rk ) :: L2 L2 = L / 2.0_rk allocate ( control_points ( 8 , 3 )) control_points ( 1 ,:) = [ L2 , - L2 , L2 ] control_points ( 2 ,:) = [ L2 , - L2 , - L2 ] control_points ( 3 ,:) = [ - L2 , - L2 , L2 ] control_points ( 4 ,:) = [ - L2 , - L2 , - L2 ] control_points ( 5 ,:) = [ L2 , L2 , L2 ] control_points ( 6 ,:) = [ L2 , L2 , - L2 ] control_points ( 7 ,:) = [ - L2 , L2 , L2 ] control_points ( 8 ,:) = [ - L2 , L2 , - L2 ] end function !----------------------------------------------------------------------------- end program example3_volume","tags":"","loc":"sourcefile/example_volume_1.f90.html"},{"title":"forcad_nurbs_surface.f90 – ForCAD","text":"This file depends on sourcefile~~forcad_nurbs_surface.f90~~EfferentGraph sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Files dependent on this one sourcefile~~forcad_nurbs_surface.f90~~AfferentGraph sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~demo_curve.f90 demo_curve.f90 sourcefile~demo_curve.f90->sourcefile~forcad.f90 sourcefile~demo_surface.f90 demo_surface.f90 sourcefile~demo_surface.f90->sourcefile~forcad.f90 sourcefile~demo_volume.f90 demo_volume.f90 sourcefile~demo_volume.f90->sourcefile~forcad.f90 sourcefile~example_curve_1.f90 example_curve_1.f90 sourcefile~example_curve_1.f90->sourcefile~forcad.f90 sourcefile~example_ppm1.f90 example_ppm1.f90 sourcefile~example_ppm1.f90->sourcefile~forcad.f90 sourcefile~example_ppm2.f90 example_ppm2.f90 sourcefile~example_ppm2.f90->sourcefile~forcad.f90 sourcefile~example_ppm3.f90 example_ppm3.f90 sourcefile~example_ppm3.f90->sourcefile~forcad.f90 sourcefile~example_surface_1.f90 example_surface_1.f90 sourcefile~example_surface_1.f90->sourcefile~forcad.f90 sourcefile~example_volume_1.f90 example_volume_1.f90 sourcefile~example_volume_1.f90->sourcefile~forcad.f90 sourcefile~nearest_point_1d.f90 nearest_point_1d.f90 sourcefile~nearest_point_1d.f90->sourcefile~forcad.f90 sourcefile~nearest_point_2d.f90 nearest_point_2d.f90 sourcefile~nearest_point_2d.f90->sourcefile~forcad.f90 sourcefile~nearest_point_2d_bench.f90 nearest_point_2d_bench.f90 sourcefile~nearest_point_2d_bench.f90->sourcefile~forcad.f90 sourcefile~nearest_point_3d.f90 nearest_point_3d.f90 sourcefile~nearest_point_3d.f90->sourcefile~forcad.f90 sourcefile~put_to_nurbs.f90 put_to_nurbs.f90 sourcefile~put_to_nurbs.f90->sourcefile~forcad.f90 sourcefile~shape_c_1d.f90 shape_C_1d.f90 sourcefile~shape_c_1d.f90->sourcefile~forcad.f90 sourcefile~shape_c_2d.f90 shape_C_2d.f90 sourcefile~shape_c_2d.f90->sourcefile~forcad.f90 sourcefile~shape_c_3d.f90 shape_C_3d.f90 sourcefile~shape_c_3d.f90->sourcefile~forcad.f90 sourcefile~shape_circle.f90 shape_circle.f90 sourcefile~shape_circle.f90->sourcefile~forcad.f90 sourcefile~shape_half_circle.f90 shape_half_circle.f90 sourcefile~shape_half_circle.f90->sourcefile~forcad.f90 sourcefile~shape_half_ring_2d.f90 shape_half_ring_2d.f90 sourcefile~shape_half_ring_2d.f90->sourcefile~forcad.f90 sourcefile~shape_half_ring_3d.f90 shape_half_ring_3d.f90 sourcefile~shape_half_ring_3d.f90->sourcefile~forcad.f90 sourcefile~shape_hexahedron.f90 shape_hexahedron.f90 sourcefile~shape_hexahedron.f90->sourcefile~forcad.f90 sourcefile~shape_ring_2d.f90 shape_ring_2d.f90 sourcefile~shape_ring_2d.f90->sourcefile~forcad.f90 sourcefile~shape_ring_3d.f90 shape_ring_3d.f90 sourcefile~shape_ring_3d.f90->sourcefile~forcad.f90 sourcefile~shape_tetragon.f90 shape_tetragon.f90 sourcefile~shape_tetragon.f90->sourcefile~forcad.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> This module defines the 'nurbs_surface' type for representing a Non-Uniform Rational B-Spline (NURBS) surface. module forcad_nurbs_surface use forcad_utils , only : rk , basis_bspline , elemConn_C0 , kron , ndgrid , compute_multiplicity , compute_knot_vector , & basis_bspline_der , insert_knot_A_5_1 , findspan , elevate_degree_A_5_9 , remove_knots_A_5_8 , tetragon_Xc , & elemConn_Cn , unique , rotation implicit none private public nurbs_surface !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause type nurbs_surface real ( rk ), allocatable , private :: Xc (:,:) !! Control points (2D array: [nc(1)*nc(2), dim]) real ( rk ), allocatable , private :: Xg (:,:) !! Geometry points (2D array: [ng(1)*ng(2), dim]) real ( rk ), allocatable , private :: Wc (:) !! Weights for control points (1D array: [nc(1)*nc(2)]) real ( rk ), allocatable , private :: Xt1 (:) !! Evaluation parameter values in the first direction (1D array: [ng(1)]) real ( rk ), allocatable , private :: Xt2 (:) !! Evaluation parameter values in the second direction (1D array: [ng(2)]) real ( rk ), allocatable , private :: Xt (:,:) !! Evaluation parameter values (2D array: [ng(1)*ng(2), 2]) real ( rk ), allocatable , private :: knot1 (:) !! Knot vector in the first direction (1D array) real ( rk ), allocatable , private :: knot2 (:) !! Knot vector in the second direction (1D array) integer , private :: degree ( 2 ) !! Degree (order) of the surface integer , private :: nc ( 2 ) !! Number of control points in each direction integer , private :: ng ( 2 ) !! Number of geometry points in each direction integer , allocatable , private :: elemConn_Xc_vis (:,:) !! Connectivity for visualization of control points integer , allocatable , private :: elemConn_Xg_vis (:,:) !! Connectivity for visualization of geometry points integer , allocatable , private :: elemConn (:,:) !! IGA element connectivity contains procedure :: set1 !!> Set knot vectors, control points and weights for the NURBS surface object procedure :: set2 !!> Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights procedure :: set3 !!> Set Bezier or Rational Bezier surface using control points and weights generic :: set => set1 , set2 , set3 !!> Set NURBS surface procedure :: create !!> Generate geometry points procedure , private :: get_Xc_all !!> Get all control points procedure , private :: get_Xci !!> Get i-th control point procedure , private :: get_Xcid !!> Get i-th control point in a specific direction generic :: get_Xc => get_Xc_all , get_Xci , get_Xcid !!> Get control points procedure , private :: get_Xg_all !!> Get all geometry points procedure , private :: get_Xgi !!> Get i-th geometry point procedure , private :: get_Xgid !!> Get i-th geometry point in a specific direction generic :: get_Xg => get_Xg_all , get_Xgi , get_Xgid !!> Get geometry points procedure , private :: get_Wc_all !!> Get all weights procedure , private :: get_Wci !!> Get i-th weight generic :: get_Wc => get_Wc_all , get_Wci !!> Get weights procedure :: get_Xt !!> Get parameter values procedure , private :: get_knot_all !!> Get all knot vectors procedure , private :: get_knoti !!> Get i-th knot value generic :: get_knot => get_knoti , get_knot_all !!> Get knot vector procedure :: get_ng !!> Get number of geometry points procedure :: cmp_degree !!> Compute degree of the NURBS surface procedure , private :: get_degree_all !!> Get degree of the NURBS surface in both directions procedure , private :: get_degree_dir !!> Get degree of the NURBS surface in a specific direction generic :: get_degree => get_degree_all , get_degree_dir !!> Get degree of the NURBS surface procedure :: finalize !!> Finalize the NURBS surface object procedure :: cmp_elem_Xc_vis !!> Generate connectivity for control points procedure :: cmp_elem_Xg_vis !!> Generate connectivity for geometry points procedure :: cmp_elem !!> Generate IGA element connectivity procedure :: get_elem_Xc_vis !!> Get connectivity for control points procedure :: get_elem_Xg_vis !!> Get connectivity for geometry points procedure :: get_elem !!> Get IGA element connectivity procedure :: set_elem_Xc_vis !!> Set connectivity for control points procedure :: set_elem_Xg_vis !!> Set connectivity for geometry points procedure :: set_elem !!> Set IGA element connectivity procedure :: export_Xc !!> Export control points to VTK file procedure :: export_Xg !!> Export geometry points to VTK file procedure :: modify_Xc !!> Modify control points procedure :: modify_Wc !!> Modify weights procedure :: get_multiplicity !!> Compute and return the multiplicity of the knot vector procedure :: get_continuity !!> Compute and return the continuity of the NURBS surface procedure :: cmp_nc !!> Compute number of required control points procedure :: get_nc !!> Get number of control points procedure :: derivative !!> Compute the derivative of the NURBS surface procedure :: basis !!> Compute the basis functions of the NURBS surface procedure :: insert_knots !!> Insert knots into the knot vector procedure :: elevate_degree !!> Elevate degree procedure :: is_rational !!> Check if the NURBS surface is rational procedure :: remove_knots !!> Remove knots from the knot vector procedure :: rotate_Xc !!> Rotate control points procedure :: rotate_Xg !!> Rotate geometry points procedure :: translate_Xc !!> Translate control points procedure :: translate_Xg !!> Translate geometry points procedure :: show !!> Show the NURBS object using PyVista procedure :: nearest_point !!> Find the nearest point on the NURBS surface ! Shapes procedure :: set_tetragon !!> Set a tetragon procedure :: set_ring !!> Set a ring procedure :: set_half_ring !!> Set a half ring procedure :: set_C !!> Set a C-shape end type !=============================================================================== contains !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> Set knot vectors, control points and weights for the NURBS surface object. pure subroutine set1 ( this , knot1 , knot2 , Xc , Wc ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: knot1 (:) real ( rk ), intent ( in ), contiguous :: knot2 (:) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) if ( allocated ( this % knot1 )) deallocate ( this % knot1 ) if ( allocated ( this % knot2 )) deallocate ( this % knot2 ) if ( allocated ( this % Xc )) deallocate ( this % Xc ) this % knot1 = knot1 this % knot2 = knot2 call this % cmp_degree () call this % cmp_nc () this % Xc = Xc if ( present ( Wc )) then if ( size ( Wc ) /= this % nc ( 1 ) * this % nc ( 2 )) then error stop 'Number of weights does not match the number of control points.' else if ( allocated ( this % Wc )) deallocate ( this % Wc ) this % Wc = Wc end if end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> Set NURBS surface using nodes of parameter space, degree, continuity, control points and weights pure subroutine set2 ( this , Xth_dir1 , Xth_dir2 , degree , continuity1 , continuity2 , Xc , Wc ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: Xth_dir1 (:), Xth_dir2 (:) integer , intent ( in ), contiguous :: degree (:) integer , intent ( in ), contiguous :: continuity1 (:), continuity2 (:) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) this % knot1 = compute_knot_vector ( Xth_dir1 , degree ( 1 ), continuity1 ) this % knot2 = compute_knot_vector ( Xth_dir2 , degree ( 2 ), continuity2 ) this % degree ( 1 ) = degree ( 1 ) this % degree ( 2 ) = degree ( 2 ) call this % cmp_nc () this % Xc = Xc if ( present ( Wc )) this % Wc = Wc end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> Set Bezier or Rational Bezier surface using control points and weights. pure subroutine set3 ( this , nc , Xc , Wc ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ), contiguous :: nc (:) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) if ( allocated ( this % Xc )) deallocate ( this % Xc ) this % Xc = Xc this % nc = nc if ( allocated ( this % knot1 )) deallocate ( this % knot1 ) allocate ( this % knot1 ( 2 * this % nc ( 1 ))) this % knot1 ( 1 : this % nc ( 1 )) = 0.0_rk this % knot1 ( this % nc ( 1 ) + 1 : 2 * this % nc ( 1 )) = 1.0_rk if ( allocated ( this % knot2 )) deallocate ( this % knot2 ) allocate ( this % knot2 ( 2 * this % nc ( 2 ))) this % knot2 ( 1 : this % nc ( 2 )) = 0.0_rk this % knot2 ( this % nc ( 2 ) + 1 : 2 * this % nc ( 2 )) = 1.0_rk call this % cmp_degree () if ( present ( Wc )) then if ( size ( Wc ) /= this % nc ( 1 ) * this % nc ( 2 )) then error stop 'Number of weights does not match the number of control points.' else if ( allocated ( this % Wc )) deallocate ( this % Wc ) this % Wc = Wc end if end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine create ( this , res1 , res2 , Xt1 , Xt2 , Xt ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ), optional :: res1 , res2 real ( rk ), intent ( in ), contiguous , optional :: Xt1 (:), Xt2 (:) real ( rk ), contiguous , intent ( in ), optional :: Xt (:,:) integer :: i interface pure function compute_Xg_nurbs_2d ( f_Xt , f_knot1 , f_knot2 , f_degree , f_nc , f_ng , f_Xc , f_Wc ) result ( f_Xg ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:) integer , intent ( in ) :: f_degree ( 2 ) integer , intent ( in ) :: f_nc ( 2 ) integer , intent ( in ) :: f_ng ( 2 ) real ( rk ), intent ( in ), contiguous :: f_Xc (:,:) real ( rk ), intent ( in ), contiguous :: f_Wc (:) real ( rk ), allocatable :: f_Xg (:,:) end function end interface interface pure function compute_Xg_bspline_2d ( f_Xt , f_knot1 , f_knot2 , f_degree , f_nc , f_ng , f_Xc ) result ( f_Xg ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:) real ( rk ), intent ( in ), contiguous :: f_knot2 (:) integer , intent ( in ) :: f_degree ( 2 ) integer , intent ( in ) :: f_nc ( 2 ) integer , intent ( in ) :: f_ng ( 2 ) real ( rk ), intent ( in ), contiguous :: f_Xc (:,:) real ( rk ), allocatable :: f_Xg (:,:) end function end interface ! check if (. not . allocated ( this % Xc )) then error stop 'Control points are not set.' end if if (. not . allocated ( this % knot1 ) . or . . not . allocated ( this % knot2 )) then error stop 'Knot vector(s) is/are not set.' end if ! Set parameter values if ( present ( Xt1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) this % Xt1 = Xt1 elseif ( present ( res1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) allocate ( this % Xt1 ( res1 )) this % Xt1 = [( real ( i - 1 , rk ) / real ( res1 - 1 , rk ), i = 1 , res1 )] ! else ! this%Xt1 = this%Xt1 end if ! Set parameter values if ( present ( Xt2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) this % Xt2 = Xt2 elseif ( present ( res2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) allocate ( this % Xt2 ( res2 )) this % Xt2 = [( real ( i - 1 , rk ) / real ( res2 - 1 , rk ), i = 1 , res2 )] ! else ! this%Xt2 = this%Xt2 end if if ( present ( Xt )) then this % Xt = Xt else ! Set number of geometry points this % ng ( 1 ) = size ( this % Xt1 , 1 ) this % ng ( 2 ) = size ( this % Xt2 , 1 ) call ndgrid ( this % Xt1 , this % Xt2 , this % Xt ) end if if ( allocated ( this % Xg )) deallocate ( this % Xg ) if ( this % is_rational ()) then ! NURBS this % Xg = compute_Xg_nurbs_2d (& this % Xt , this % knot1 , this % knot2 , this % degree , this % nc , this % ng , this % Xc , this % Wc ) else ! B-Spline this % Xg = compute_Xg_bspline_2d (& this % Xt , this % knot1 , this % knot2 , this % degree , this % nc , this % ng , this % Xc ) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xc_all ( this ) result ( Xc ) class ( nurbs_surface ), intent ( in ) :: this real ( rk ), allocatable :: Xc (:,:) if ( allocated ( this % Xc )) then Xc = this % Xc else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xci ( this , n ) result ( Xc ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: n real ( rk ), allocatable :: Xc (:) if ( allocated ( this % Xc )) then if ( n < lbound ( this % Xc , 1 ) . or . n > ubound ( this % Xc , 1 )) then error stop 'Invalid index for control points.' end if Xc = this % Xc ( n ,:) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xcid ( this , n , dir ) result ( Xc ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: n integer , intent ( in ) :: dir real ( rk ) :: Xc if ( allocated ( this % Xc )) then if ( n < lbound ( this % Xc , 1 ) . or . n > ubound ( this % Xc , 1 )) then error stop 'Invalid index for control points.' end if if ( dir < lbound ( this % Xc , 2 ) . or . dir > ubound ( this % Xc , 2 )) then error stop 'Invalid direction for control points.' end if Xc = this % Xc ( n , dir ) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xg_all ( this ) result ( Xg ) class ( nurbs_surface ), intent ( in ) :: this real ( rk ), allocatable :: Xg (:,:) if ( allocated ( this % Xg )) then Xg = this % Xg else error stop 'Geometry points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xgi ( this , n ) result ( Xg ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: n real ( rk ), allocatable :: Xg (:) if ( allocated ( this % Xg )) then if ( n < lbound ( this % Xg , 1 ) . or . n > ubound ( this % Xg , 1 )) then error stop 'Invalid index for geometry points.' end if Xg = this % Xg ( n ,:) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xgid ( this , n , dir ) result ( Xg ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: n integer , intent ( in ) :: dir real ( rk ) :: Xg if ( allocated ( this % Xg )) then if ( n < lbound ( this % Xg , 1 ) . or . n > ubound ( this % Xg , 1 )) then error stop 'Invalid index for geometry points.' end if if ( dir < lbound ( this % Xg , 2 ) . or . dir > ubound ( this % Xg , 2 )) then error stop 'Invalid direction for geometry points.' end if Xg = this % Xg ( n , dir ) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Wc_all ( this ) result ( Wc ) class ( nurbs_surface ), intent ( in ) :: this real ( rk ), allocatable :: Wc (:) if ( allocated ( this % Wc )) then Wc = this % Wc else error stop 'The NURBS surface is not rational or weights are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Wci ( this , n ) result ( Wc ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: n real ( rk ) :: Wc if ( allocated ( this % Wc )) then if ( n < lbound ( this % Wc , 1 ) . or . n > ubound ( this % Wc , 1 )) then error stop 'Invalid index for weights.' end if Wc = this % Wc ( n ) else error stop 'The NURBS surface is not rational or weights are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xt ( this , dir ) result ( Xt ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: dir real ( rk ), allocatable :: Xt (:) if ( dir == 1 ) then if ( allocated ( this % Xt1 )) then Xt = this % Xt1 else error stop 'Parameter values are not set.' end if elseif ( dir == 2 ) then if ( allocated ( this % Xt2 )) then Xt = this % Xt2 else error stop 'Parameter values are not set.' end if else error stop 'Invalid direction for parameter values.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_ng ( this ) result ( ng ) class ( nurbs_surface ), intent ( in ) :: this integer :: ng ( 2 ) ng = this % ng end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine cmp_degree ( this , dir ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ), optional :: dir integer , allocatable :: m1 (:), m2 (:) if ( present ( dir )) then if ( dir == 1 ) then m1 = this % get_multiplicity ( 1 ) this % degree ( 1 ) = m1 ( 1 ) - 1 else if ( dir == 2 ) then m2 = this % get_multiplicity ( 2 ) this % degree ( 2 ) = m2 ( 1 ) - 1 else error stop 'Invalid direction for degree.' end if else m1 = this % get_multiplicity ( 1 ) this % degree ( 1 ) = m1 ( 1 ) - 1 m2 = this % get_multiplicity ( 2 ) this % degree ( 2 ) = m2 ( 1 ) - 1 end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_degree_all ( this ) result ( degree ) class ( nurbs_surface ), intent ( in ) :: this integer :: degree ( 2 ) degree = this % degree end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_degree_dir ( this , dir ) result ( degree ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: dir integer :: degree if ( dir == 1 ) then degree = this % degree ( 1 ) else if ( dir == 2 ) then degree = this % degree ( 2 ) else error stop 'Invalid direction for degree.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_knot_all ( this , dir ) result ( knot ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: dir real ( rk ), allocatable :: knot (:) if ( dir == 1 ) then if ( allocated ( this % knot1 )) then knot = this % knot1 else error stop 'Knot vector is not set.' end if elseif ( dir == 2 ) then if ( allocated ( this % knot2 )) then knot = this % knot2 else error stop 'Knot vector is not set.' end if else error stop 'Invalid direction for knot vector.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_knoti ( this , dir , i ) result ( knot ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: dir integer , intent ( in ) :: i real ( rk ) :: knot if ( dir == 1 ) then if ( allocated ( this % knot1 )) then if ( i < 1 . or . i > size ( this % knot1 )) then error stop 'Invalid index for knot vector.' else knot = this % knot1 ( i ) end if else error stop 'Knot vector is not set.' end if elseif ( dir == 2 ) then if ( allocated ( this % knot2 )) then if ( i < 1 . or . i > size ( this % knot2 )) then error stop 'Invalid index for knot vector.' else knot = this % knot2 ( i ) end if else error stop 'Knot vector is not set.' end if else error stop 'Invalid direction for knot vector.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine finalize ( this ) class ( nurbs_surface ), intent ( inout ) :: this if ( allocated ( this % Xc )) deallocate ( this % Xc ) if ( allocated ( this % Xg )) deallocate ( this % Xg ) if ( allocated ( this % Wc )) deallocate ( this % Wc ) if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) if ( allocated ( this % Xt )) deallocate ( this % Xt ) if ( allocated ( this % knot1 )) deallocate ( this % knot1 ) if ( allocated ( this % knot2 )) deallocate ( this % knot2 ) if ( allocated ( this % elemConn_Xc_vis )) deallocate ( this % elemConn_Xc_vis ) if ( allocated ( this % elemConn_Xg_vis )) deallocate ( this % elemConn_Xg_vis ) if ( allocated ( this % elemConn )) deallocate ( this % elemConn ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elem_Xc_vis ( this , p ) result ( elemConn ) class ( nurbs_surface ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) integer , intent ( in ), contiguous , optional :: p (:) if ( present ( p )) then elemConn = elemConn_C0 ( this % nc ( 1 ), this % nc ( 2 ), p ( 1 ), p ( 2 )) else elemConn = elemConn_C0 ( this % nc ( 1 ), this % nc ( 2 ), 1 , 1 ) end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elem_Xg_vis ( this , p ) result ( elemConn ) class ( nurbs_surface ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) integer , intent ( in ), contiguous , optional :: p (:) if ( present ( p )) then elemConn = elemConn_C0 ( this % ng ( 1 ), this % ng ( 2 ), p ( 1 ), p ( 2 )) else elemConn = elemConn_C0 ( this % ng ( 1 ), this % ng ( 2 ), 1 , 1 ) end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure subroutine export_Xc ( this , filename ) class ( nurbs_surface ), intent ( in ) :: this character ( len =* ), intent ( in ) :: filename integer :: i , nc , nunit integer , allocatable :: elemConn (:,:) ! check if (. not . allocated ( this % Xc )) then error stop 'Control points are not set.' end if if (. not . allocated ( this % elemConn_Xc_vis )) then elemConn = this % cmp_elem_Xc_vis () else elemConn = this % elemConn_Xc_vis end if nc = size ( this % Xc , 1 ) open ( newunit = nunit , file = filename , action = 'write' ) write ( nunit , '(a)' ) '# vtk DataFile Version 2.0' write ( nunit , '(a)' ) 'Generated by ForCAD' write ( nunit , '(a)' ) 'ASCII' write ( nunit , '(a)' ) 'DATASET UNSTRUCTURED_GRID' write ( nunit , '(a,\" \",g0,\" \",a)' ) 'POINTS' , nc , 'double' if ( size ( this % Xc , 2 ) == 2 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xc ( i , 1 ), this % Xc ( i , 2 ), 0.0_rk , i = 1 , nc ) elseif ( size ( this % Xc , 2 ) == 3 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xc ( i , 1 ), this % Xc ( i , 2 ), this % Xc ( i , 3 ) , i = 1 , nc ) else error stop 'Invalid dimension for control points.' end if write ( nunit , '(a,\" \",g0,\" \",g0)' ) 'CELLS' , size ( elemConn , 1 ), size ( elemConn , 1 ) * ( size ( elemConn , 2 ) + 1 ) write ( nunit , '(g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0)' )& ( 4 , elemConn ( i , 1 ) - 1 , elemConn ( i , 2 ) - 1 , elemConn ( i , 4 ) - 1 , elemConn ( i , 3 ) - 1 , i = 1 , size ( elemConn , 1 )) write ( nunit , '(a,\" \",g0)' ) 'CELL_TYPES' , size ( elemConn , 1 ) write ( nunit , '(g0)' ) ( 9 , i = 1 , size ( elemConn , 1 )) close ( nunit ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure subroutine export_Xg ( this , filename ) class ( nurbs_surface ), intent ( in ) :: this character ( len =* ), intent ( in ) :: filename integer :: i , ng , nunit integer , allocatable :: elemConn (:,:) ! check if (. not . allocated ( this % Xg )) then error stop 'Geometry points are not set.' end if if (. not . allocated ( this % elemConn_Xg_vis )) then elemConn = this % cmp_elem_Xg_vis () else elemConn = this % elemConn_Xg_vis end if ng = size ( this % Xg , 1 ) open ( newunit = nunit , file = filename , action = 'write' ) write ( nunit , '(a)' ) '# vtk DataFile Version 2.0' write ( nunit , '(a)' ) 'Generated by ForCAD' write ( nunit , '(a)' ) 'ASCII' write ( nunit , '(a)' ) 'DATASET UNSTRUCTURED_GRID' write ( nunit , '(a,\" \",g0,\" \",a)' ) 'POINTS' , ng , 'double' if ( size ( this % Xg , 2 ) == 2 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xg ( i , 1 ), this % Xg ( i , 2 ), 0.0_rk , i = 1 , ng ) elseif ( size ( this % Xg , 2 ) == 3 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xg ( i , 1 ), this % Xg ( i , 2 ), this % Xg ( i , 3 ) , i = 1 , ng ) else error stop 'Invalid dimension for geometry points.' end if write ( nunit , '(a,\" \",g0,\" \",g0)' ) 'CELLS' , size ( elemConn , 1 ), size ( elemConn , 1 ) * ( size ( elemConn , 2 ) + 1 ) write ( nunit , '(g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0)' )& ( 4 , elemConn ( i , 1 ) - 1 , elemConn ( i , 2 ) - 1 , elemConn ( i , 4 ) - 1 , elemConn ( i , 3 ) - 1 , i = 1 , size ( elemConn , 1 )) write ( nunit , '(a,\" \",g0)' ) 'CELL_TYPES' , size ( elemConn , 1 ) write ( nunit , '(g0)' ) ( 9 , i = 1 , size ( elemConn , 1 )) close ( nunit ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine modify_Xc ( this , X , num , dir ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ) :: X integer , intent ( in ) :: num integer , intent ( in ) :: dir if ( allocated ( this % Xc )) then this % Xc ( num , dir ) = X if ( allocated ( this % Wc )) then call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), Xc = this % get_Xc (), Wc = this % get_Wc ()) else call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), Xc = this % get_Xc ()) end if else error stop 'Control points are not set.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine modify_Wc ( this , W , num ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ) :: W integer , intent ( in ) :: num if ( allocated ( this % Wc )) then this % Wc ( num ) = W if ( allocated ( this % knot1 ) . and . allocated ( this % knot2 )) then call this % set ( knot1 = this % get_knot ( 1 ), knot2 = this % get_knot ( 2 ), Xc = this % get_Xc (), Wc = this % get_Wc ()) else call this % set ( nc = this % nc , Xc = this % get_Xc (), Wc = this % get_Wc ()) end if else error stop 'The NURBS surface is not rational.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_multiplicity ( this , dir ) result ( m ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: dir integer , allocatable :: m (:) if ( dir == 1 ) then ! check if (. not . allocated ( this % knot1 )) then error stop 'Knot vector is not set.' else m = compute_multiplicity ( this % knot1 ) end if elseif ( dir == 2 ) then ! check if (. not . allocated ( this % knot2 )) then error stop 'Knot vector is not set.' else m = compute_multiplicity ( this % knot2 ) end if else error stop 'Invalid direction.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_continuity ( this , dir ) result ( c ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: dir integer , allocatable :: c (:) if ( dir == 1 ) then ! check if (. not . allocated ( this % knot1 )) then error stop 'Knot vector is not set.' else c = this % degree ( 1 ) - compute_multiplicity ( this % knot1 ) end if elseif ( dir == 2 ) then ! check if (. not . allocated ( this % knot2 )) then error stop 'Knot vector is not set.' else c = this % degree ( 2 ) - compute_multiplicity ( this % knot2 ) end if else error stop 'Invalid direction.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine cmp_nc ( this , dir ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ), optional :: dir if ( present ( dir )) then if ( dir == 1 ) then ! check if (. not . allocated ( this % knot1 )) then error stop 'Knot vector is not set.' else this % nc ( 1 ) = sum ( compute_multiplicity ( this % knot1 )) - this % degree ( 1 ) - 1 end if elseif ( dir == 2 ) then ! check if (. not . allocated ( this % knot2 )) then error stop 'Knot vector is not set.' else this % nc ( 2 ) = sum ( compute_multiplicity ( this % knot2 )) - this % degree ( 2 ) - 1 end if else error stop 'Invalid direction.' end if else ! check if (. not . allocated ( this % knot1 )) then error stop 'Knot vector is not set.' else this % nc ( 1 ) = sum ( compute_multiplicity ( this % knot1 )) - this % degree ( 1 ) - 1 end if ! check if (. not . allocated ( this % knot2 )) then error stop 'Knot vector is not set.' else this % nc ( 2 ) = sum ( compute_multiplicity ( this % knot2 )) - this % degree ( 2 ) - 1 end if end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_nc ( this , dir ) result ( nc ) class ( nurbs_surface ), intent ( in ) :: this integer , intent ( in ) :: dir integer :: nc if ( dir == 1 ) then ! check if (. not . allocated ( this % knot1 )) then error stop 'Knot vector is not set.' else nc = sum ( compute_multiplicity ( this % knot1 )) - this % degree ( 1 ) - 1 end if elseif ( dir == 2 ) then ! check if (. not . allocated ( this % knot2 )) then error stop 'Knot vector is not set.' else nc = sum ( compute_multiplicity ( this % knot2 )) - this % degree ( 2 ) - 1 end if else error stop 'Invalid direction.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine derivative ( this , res1 , res2 , Xt1 , Xt2 , dTgc ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ), optional :: res1 , res2 real ( rk ), intent ( in ), contiguous , optional :: Xt1 (:), Xt2 (:) real ( rk ), allocatable , intent ( out ) :: dTgc (:,:) integer :: i real ( rk ), allocatable :: Xt (:,:) interface pure function compute_dTgc_nurbs_2d ( f_Xt , f_knot1 , f_knot2 , f_degree , f_nc , f_ng , f_Wc ) result ( f_dTgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:) integer , intent ( in ) :: f_degree ( 2 ) integer , intent ( in ) :: f_nc ( 2 ) integer , intent ( in ) :: f_ng ( 2 ) real ( rk ), intent ( in ), contiguous :: f_Wc (:) real ( rk ), allocatable :: f_dTgc (:,:) end function end interface interface pure function compute_dTgc_bspline_2d ( f_Xt , f_knot1 , f_knot2 , f_degree , nc , f_ng ) result ( f_dTgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:) integer , intent ( in ) :: f_degree ( 2 ) integer , intent ( in ) :: nc ( 2 ) integer , intent ( in ) :: f_ng ( 2 ) real ( rk ), allocatable :: f_dTgc (:,:) end function end interface ! Set parameter values if ( present ( Xt1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) this % Xt1 = Xt1 elseif ( present ( res1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) allocate ( this % Xt1 ( res1 )) this % Xt1 = [( real ( i - 1 , rk ) / real ( res1 - 1 , rk ), i = 1 , res1 )] ! else ! this%Xt1 = this%Xt1 end if ! Set parameter values if ( present ( Xt2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) this % Xt2 = Xt2 elseif ( present ( res2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) allocate ( this % Xt2 ( res2 )) this % Xt2 = [( real ( i - 1 , rk ) / real ( res2 - 1 , rk ), i = 1 , res2 )] ! else ! this%Xt2 = this%Xt2 end if ! Set number of geometry points this % ng ( 1 ) = size ( this % Xt1 , 1 ) this % ng ( 2 ) = size ( this % Xt2 , 1 ) call ndgrid ( this % Xt1 , this % Xt2 , Xt ) if ( this % is_rational ()) then ! NURBS dTgc = compute_dTgc_nurbs_2d ( Xt , this % knot1 , this % knot2 , this % degree , this % nc , this % ng , this % Wc ) else ! B-Spline dTgc = compute_dTgc_bspline_2d ( Xt , this % knot1 , this % knot2 , this % degree , this % nc , this % ng ) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine basis ( this , res1 , res2 , Xt1 , Xt2 , Tgc ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ), optional :: res1 , res2 real ( rk ), intent ( in ), contiguous , optional :: Xt1 (:), Xt2 (:) real ( rk ), allocatable , intent ( out ) :: Tgc (:,:) integer :: i real ( rk ), allocatable :: Xt (:,:) interface pure function compute_Tgc_nurbs_2d ( f_Xt , f_knot1 , f_knot2 , f_degree , f_nc , f_ng , f_Wc ) result ( f_Tgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:) integer , intent ( in ) :: f_degree ( 2 ) integer , intent ( in ) :: f_nc ( 2 ) integer , intent ( in ) :: f_ng ( 2 ) real ( rk ), intent ( in ), contiguous :: f_Wc (:) real ( rk ), allocatable :: f_Tgc (:,:) end function end interface interface pure function compute_Tgc_bspline_2d ( f_Xt , f_knot1 , f_knot2 , f_degree , f_nc , f_ng ) result ( f_Tgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:,:) real ( rk ), intent ( in ), contiguous :: f_knot1 (:), f_knot2 (:) integer , intent ( in ) :: f_degree ( 2 ) integer , intent ( in ) :: f_nc ( 2 ) integer , intent ( in ) :: f_ng ( 2 ) real ( rk ), allocatable :: f_Tgc (:,:) end function end interface ! Set parameter values if ( present ( Xt1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) this % Xt1 = Xt1 elseif ( present ( res1 )) then if ( allocated ( this % Xt1 )) deallocate ( this % Xt1 ) allocate ( this % Xt1 ( res1 )) this % Xt1 = [( real ( i - 1 , rk ) / real ( res1 - 1 , rk ), i = 1 , res1 )] ! else ! this%Xt1 = this%Xt1 end if ! Set parameter values if ( present ( Xt2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) this % Xt2 = Xt2 elseif ( present ( res2 )) then if ( allocated ( this % Xt2 )) deallocate ( this % Xt2 ) allocate ( this % Xt2 ( res2 )) this % Xt2 = [( real ( i - 1 , rk ) / real ( res2 - 1 , rk ), i = 1 , res2 )] ! else ! this%Xt2 = this%Xt2 end if ! Set number of geometry points this % ng ( 1 ) = size ( this % Xt1 , 1 ) this % ng ( 2 ) = size ( this % Xt2 , 1 ) call ndgrid ( this % Xt1 , this % Xt2 , Xt ) if ( this % is_rational ()) then ! NURBS Tgc = compute_Tgc_nurbs_2d ( Xt , this % knot1 , this % knot2 , this % degree , this % nc , this % ng , this % Wc ) else ! B-Spline Tgc = compute_Tgc_bspline_2d ( Xt , this % knot1 , this % knot2 , this % degree , this % nc , this % ng ) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine insert_knots ( this , dir , Xth , r ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ) :: dir real ( rk ), intent ( in ), contiguous :: Xth (:) integer , intent ( in ), contiguous :: r (:) integer :: k , i , s , dim , j , n_new real ( rk ), allocatable :: Xc (:,:), Xcw (:,:), Xcw_new (:,:), Xc_new (:,:), Wc_new (:), knot_new (:) real ( rk ), allocatable :: Xc3 (:,:,:) if ( dir == 1 ) then ! direction 1 if ( this % is_rational ()) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc ( 1 ) - 1 , this % degree ( 1 ), Xth ( i ), this % knot1 ) if ( this % knot1 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot1 , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xcw = reshape ( Xcw ,[ this % nc ( 1 ), this % nc ( 2 ) * ( dim + 1 )]) call insert_knot_A_5_1 (& this % degree ( 1 ),& this % knot1 ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xcw_new ) Xcw_new = reshape ( Xcw_new ,[ this % nc ( 2 ) * ( n_new + 1 ), dim + 1 ]) allocate ( Xc_new ( 1 : this % nc ( 2 ) * ( n_new + 1 ), 1 : dim )) allocate ( Wc_new ( 1 : this % nc ( 2 ) * ( n_new + 1 ))) do j = 1 , this % nc ( 2 ) * ( n_new + 1 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc ( 1 ) - 1 , this % degree ( 1 ), Xth ( i ), this % knot1 ) if ( this % knot1 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot1 , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) Xc = reshape ( this % Xc ,[ this % nc ( 1 ), this % nc ( 2 ) * dim ]) call insert_knot_A_5_1 (& this % degree ( 1 ),& this % knot1 ,& Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xc_new ) Xc_new = reshape ( Xc_new ,[( this % nc ( 2 )) * ( n_new + 1 ), dim ]) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), Xc = Xc_new ) end do end if elseif ( dir == 2 ) then ! direction 2 if ( this % is_rational ()) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc ( 2 ) - 1 , this % degree ( 2 ), Xth ( i ), this % knot2 ) if ( this % knot2 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot2 , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xc3 = reshape ( Xcw , [ this % nc ( 1 ), this % nc ( 2 ), dim + 1 ]) Xc3 = reshape ( Xc3 , [ this % nc ( 2 ), this % nc ( 1 ), dim + 1 ], order = [ 2 , 1 , 3 ]) Xcw = reshape ( Xc3 ,[ this % nc ( 2 ), this % nc ( 1 ) * ( dim + 1 )]) call insert_knot_A_5_1 (& this % degree ( 2 ),& this % knot2 ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xcw_new ) Xc3 = reshape ( Xcw_new , [ n_new + 1 , this % nc ( 1 ), dim + 1 ]) Xc3 = reshape ( Xc3 , [ this % nc ( 1 ), n_new + 1 , dim + 1 ], order = [ 2 , 1 , 3 ]) Xcw_new = reshape ( Xc3 ,[( this % nc ( 1 )) * ( n_new + 1 ), dim + 1 ]) allocate ( Xc_new ( 1 :( n_new + 1 ) * this % nc ( 1 ), 1 : dim )) allocate ( Wc_new ( 1 :( n_new + 1 ) * this % nc ( 1 ))) do j = 1 , ( n_new + 1 ) * this % nc ( 1 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc ( 2 ) - 1 , this % degree ( 2 ), Xth ( i ), this % knot2 ) if ( this % knot2 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot2 , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) Xc3 = reshape ( this % Xc , [ this % nc ( 1 ), this % nc ( 2 ), dim ]) Xc3 = reshape ( Xc3 , [ this % nc ( 2 ), this % nc ( 1 ), dim ], order = [ 2 , 1 , 3 ]) Xc = reshape ( Xc3 ,[ this % nc ( 2 ), this % nc ( 1 ) * dim ]) call insert_knot_A_5_1 (& this % degree ( 2 ),& this % knot2 ,& Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xc_new ) Xc3 = reshape ( Xc_new , [ n_new + 1 , this % nc ( 1 ), dim ]) Xc3 = reshape ( Xc3 , [ this % nc ( 1 ), n_new + 1 , dim ], order = [ 2 , 1 , 3 ]) Xc_new = reshape ( Xc3 ,[( this % nc ( 1 )) * ( n_new + 1 ), dim ]) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , Xc = Xc_new ) end do end if else error stop 'Invalid direction.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine elevate_degree ( this , dir , t ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ) :: dir integer , intent ( in ) :: t real ( rk ), allocatable :: Xc (:,:), Xcw (:,:), Xcw_new (:,:), knot_new (:), Xc_new (:,:), Wc_new (:) integer :: dim , j , nc_new real ( rk ), allocatable :: Xc3 (:,:,:) if ( dir == 1 ) then ! direction 1 if ( this % is_rational ()) then ! NURBS dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xcw = reshape ( Xcw ,[ this % nc ( 1 ), this % nc ( 2 ) * ( dim + 1 )], order = [ 1 , 2 ]) call elevate_degree_A_5_9 ( t , this % knot1 , this % degree ( 1 ), Xcw , nc_new , knot_new , Xcw_new ) Xcw_new = reshape ( Xcw_new ,[ this % nc ( 2 ) * nc_new , dim + 1 ], order = [ 1 , 2 ]) allocate ( Xc_new ( 1 : this % nc ( 2 ) * nc_new , 1 : dim )) allocate ( Wc_new ( 1 : this % nc ( 2 ) * nc_new )) do j = 1 , this % nc ( 2 ) * nc_new Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) else ! B-Spline dim = size ( this % Xc , 2 ) Xc = reshape ( this % Xc ,[ this % nc ( 1 ), this % nc ( 2 ) * ( dim )], order = [ 1 , 2 ]) call elevate_degree_A_5_9 ( t , this % knot1 , this % degree ( 1 ), Xc , nc_new , knot_new , Xc_new ) Xc_new = reshape ( Xc_new ,[ this % nc ( 2 ) * nc_new , dim ], order = [ 1 , 2 ]) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), Xc = Xc_new ) deallocate ( Xc , Xc_new ) end if elseif ( dir == 2 ) then ! direction 2 if ( this % is_rational ()) then ! NURBS dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xc3 = reshape ( Xcw , [ this % nc ( 1 ), this % nc ( 2 ), dim + 1 ]) Xc3 = reshape ( Xc3 , [ this % nc ( 2 ), this % nc ( 1 ), dim + 1 ], order = [ 2 , 1 , 3 ]) Xcw = reshape ( Xc3 ,[ this % nc ( 2 ), this % nc ( 1 ) * ( dim + 1 )]) call elevate_degree_A_5_9 ( t , this % knot2 , this % degree ( 2 ), Xcw , nc_new , knot_new , Xcw_new ) Xc3 = reshape ( Xcw_new , [ nc_new , this % nc ( 1 ), dim + 1 ]) Xc3 = reshape ( Xc3 , [ this % nc ( 1 ), nc_new , dim + 1 ], order = [ 2 , 1 , 3 ]) Xcw_new = reshape ( Xc3 ,[( this % nc ( 1 )) * nc_new , dim + 1 ]) allocate ( Xc_new ( 1 : nc_new * this % nc ( 1 ), 1 : dim )) allocate ( Wc_new ( 1 : nc_new * this % nc ( 1 ))) do j = 1 , nc_new * this % nc ( 1 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) else ! B-Spline dim = size ( this % Xc , 2 ) Xc3 = reshape ( this % Xc , [ this % nc ( 1 ), this % nc ( 2 ), dim ]) Xc3 = reshape ( Xc3 , [ this % nc ( 2 ), this % nc ( 1 ), dim ], order = [ 2 , 1 , 3 ]) Xc = reshape ( Xc3 ,[ this % nc ( 2 ), this % nc ( 1 ) * dim ]) call elevate_degree_A_5_9 ( t , this % knot2 , this % degree ( 2 ), Xc , nc_new , knot_new , Xc_new ) Xc3 = reshape ( Xc_new , [ nc_new , this % nc ( 1 ), dim ]) Xc3 = reshape ( Xc3 , [ this % nc ( 1 ), nc_new , dim ], order = [ 2 , 1 , 3 ]) Xc_new = reshape ( Xc3 ,[( this % nc ( 1 )) * nc_new , dim ]) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , Xc = Xc_new ) end if else error stop 'Invalid direction.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function is_rational ( this ) result ( r ) class ( nurbs_surface ), intent ( in ) :: this logical :: r r = . false . if ( allocated ( this % Wc )) then if ( any ( this % Wc /= this % Wc ( 1 ))) then r = . true . end if end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_elem_Xc_vis ( this , elemConn ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ), contiguous :: elemConn (:,:) if ( allocated ( this % elemConn_Xc_vis )) deallocate ( this % elemConn_Xc_vis ) this % elemConn_Xc_vis = elemConn end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_elem_Xg_vis ( this , elemConn ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ), contiguous :: elemConn (:,:) if ( allocated ( this % elemConn_Xg_vis )) deallocate ( this % elemConn_Xg_vis ) this % elemConn_Xg_vis = elemConn end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_elem ( this , elemConn ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ), contiguous :: elemConn (:,:) if ( allocated ( this % elemConn )) deallocate ( this % elemConn ) this % elemConn = elemConn end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_elem_Xc_vis ( this ) result ( elemConn ) class ( nurbs_surface ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) elemConn = this % elemConn_Xc_vis end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_elem_Xg_vis ( this ) result ( elemConn ) class ( nurbs_surface ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) elemConn = this % elemConn_Xg_vis end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_elem ( this ) result ( elemConn ) class ( nurbs_surface ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) elemConn = this % elemConn end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine remove_knots ( this , dir , Xth , r ) class ( nurbs_surface ), intent ( inout ) :: this integer , intent ( in ) :: dir real ( rk ), intent ( in ), contiguous :: Xth (:) integer , intent ( in ), contiguous :: r (:) integer :: k , i , s , dim , j , nc_new , t real ( rk ), allocatable :: Xc (:,:), Xcw (:,:), Xcw_new (:,:), Xc_new (:,:), Wc_new (:), knot_new (:) real ( rk ), allocatable :: Xc3 (:,:,:) if ( dir == 1 ) then ! direction 1 if ( this % is_rational ()) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc ( 1 ) - 1 , this % degree ( 1 ), Xth ( i ), this % knot1 ) if ( this % knot1 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot1 , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xcw = reshape ( Xcw ,[ this % nc ( 1 ), this % nc ( 2 ) * ( dim + 1 )], order = [ 1 , 2 ]) call remove_knots_A_5_8 (& this % degree ( 1 ),& this % knot1 ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xcw_new ) if ( allocated ( Xcw )) deallocate ( Xcw ) if ( t == 0 ) then ! no change else nc_new = size ( Xcw_new , 1 ) Xcw_new = reshape ( Xcw_new ,[ this % nc ( 2 ) * ( nc_new ), dim + 1 ], order = [ 1 , 2 ]) allocate ( Xc_new ( 1 : this % nc ( 2 ) * ( nc_new ), 1 : dim )) allocate ( Wc_new ( 1 : this % nc ( 2 ) * ( nc_new ))) do j = 1 , this % nc ( 2 ) * ( nc_new ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw_new , Xc_new , Wc_new ) end if end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc ( 1 ) - 1 , this % degree ( 1 ), Xth ( i ), this % knot1 ) if ( this % knot1 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot1 , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) Xc = reshape ( this % Xc ,[ this % nc ( 1 ), this % nc ( 2 ) * dim ], order = [ 1 , 2 ]) call remove_knots_A_5_8 (& this % degree ( 1 ),& this % knot1 ,& Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xc_new ) if ( allocated ( Xc )) deallocate ( Xc ) if ( t == 0 ) then ! no change else nc_new = size ( Xc_new , 1 ) Xc_new = reshape ( Xc_new ,[( this % nc ( 2 )) * ( nc_new ), dim ], order = [ 1 , 2 ]) call this % set ( knot1 = knot_new , knot2 = this % get_knot ( 2 ), Xc = Xc_new ) end if end do end if elseif ( dir == 2 ) then ! direction 2 if ( this % is_rational ()) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc ( 2 ) - 1 , this % degree ( 2 ), Xth ( i ), this % knot2 ) if ( this % knot2 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot2 , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) Xc3 = reshape ( Xcw , [ this % nc ( 1 ), this % nc ( 2 ), dim + 1 ]) Xc3 = reshape ( Xc3 , [ this % nc ( 2 ), this % nc ( 1 ), dim + 1 ], order = [ 2 , 1 , 3 ]) Xcw = reshape ( Xc3 , [ this % nc ( 2 ), this % nc ( 1 ) * ( dim + 1 )]) call remove_knots_A_5_8 (& this % degree ( 2 ),& this % knot2 ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xcw_new ) if ( allocated ( Xcw )) deallocate ( Xcw ) if ( t == 0 ) then ! no change else nc_new = size ( Xcw_new , 1 ) Xc3 = reshape ( Xcw_new , [ nc_new , this % nc ( 1 ), dim + 1 ]) Xc3 = reshape ( Xc3 , [ this % nc ( 1 ), nc_new , dim + 1 ], order = [ 2 , 1 , 3 ]) Xcw_new = reshape ( Xc3 ,[( this % nc ( 1 )) * ( nc_new ), dim + 1 ]) allocate ( Xc_new ( 1 :( nc_new ) * this % nc ( 1 ), 1 : dim )) allocate ( Wc_new ( 1 :( nc_new ) * this % nc ( 1 ))) do j = 1 , ( nc_new ) * this % nc ( 1 ) Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw_new , Xc_new , Wc_new ) end if end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc ( 2 ) - 1 , this % degree ( 2 ), Xth ( i ), this % knot2 ) if ( this % knot2 ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot2 , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) Xc3 = reshape ( this % Xc , [ this % nc ( 1 ), this % nc ( 2 ), dim ]) Xc3 = reshape ( Xc3 , [ this % nc ( 2 ), this % nc ( 1 ), dim ], order = [ 2 , 1 , 3 ]) Xc = reshape ( Xc3 ,[ this % nc ( 2 ), this % nc ( 1 ) * dim ]) call remove_knots_A_5_8 (& this % degree ( 2 ),& this % knot2 ,& Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xc_new ) if ( allocated ( Xc )) deallocate ( Xc ) if ( t == 0 ) then ! no change else nc_new = size ( Xc_new , 1 ) Xc3 = reshape ( Xc_new , [ nc_new , this % nc ( 1 ), dim ]) Xc3 = reshape ( Xc3 , [ this % nc ( 1 ), nc_new , dim ], order = [ 2 , 1 , 3 ]) Xc_new = reshape ( Xc3 ,[( this % nc ( 1 )) * ( nc_new ), dim ]) call this % set ( knot1 = this % get_knot ( 1 ), knot2 = knot_new , Xc = Xc_new ) end if end do end if else error stop 'Invalid direction.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_tetragon ( this , L , nc , Wc ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ) :: L ( 2 ) integer , intent ( in ) :: nc ( 2 ) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) call this % set ( nc = nc , Xc = tetragon_Xc ( L , nc ), Wc = Wc ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elem ( this ) result ( elemConn ) class ( nurbs_surface ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) call elemConn_Cn ( this % nc ( 1 ), this % nc ( 2 ),& this % degree ( 1 ), this % degree ( 2 ),& unique ( this % knot1 ), unique ( this % knot2 ),& this % get_multiplicity ( 1 ), this % get_multiplicity ( 2 ),& elemConn ) end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine rotate_Xc ( this , alpha , beta , theta ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ) :: alpha , beta , theta integer :: i do i = 1 , this % nc ( 1 ) * this % nc ( 2 ) this % Xc ( i , :) = matmul ( rotation ( alpha , beta , theta ), this % Xc ( i , :)) end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine rotate_Xg ( this , alpha , beta , theta ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ) :: alpha , beta , theta integer :: i do i = 1 , this % ng ( 1 ) * this % ng ( 2 ) this % Xg ( i , :) = matmul ( rotation ( alpha , beta , theta ), this % Xg ( i , :)) end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine translate_Xc ( this , vec ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ) :: vec (:) integer :: i do i = 1 , this % nc ( 1 ) * this % nc ( 2 ) this % Xc ( i , :) = this % Xc ( i , :) + vec end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine translate_Xg ( this , vec ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ) :: vec (:) integer :: i do i = 1 , this % ng ( 1 ) * this % ng ( 2 ) this % Xg ( i , :) = this % Xg ( i , :) + vec end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure subroutine show ( this , vtkfile_Xc , vtkfile_Xg ) class ( nurbs_surface ), intent ( inout ) :: this character ( len =* ), intent ( in ) :: vtkfile_Xc , vtkfile_Xg character ( len = 3000 ) :: pyvista_script pyvista_script = & \"import pyvista as pv\" // achar ( 10 ) // & \"pv.global_theme.color = 'white'\" // achar ( 10 ) // & \"Xc = pv.read('\" // trim ( vtkfile_Xc ) // \"')\" // achar ( 10 ) // & \"Xg = pv.read('\" // trim ( vtkfile_Xg ) // \"')\" // achar ( 10 ) // & \"p = pv.Plotter(lighting='light kit')\" // achar ( 10 ) // & \"actor_Xcp = p.add_mesh(\" // achar ( 10 ) // & \" Xc,\" // achar ( 10 ) // & \" style='points',\" // achar ( 10 ) // & \" point_size=10,\" // achar ( 10 ) // & \" color='red',\" // achar ( 10 ) // & \" render_points_as_spheres=True,\" // achar ( 10 ) // & \" opacity=0.5,\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"actor_Xcw = p.add_mesh(\" // achar ( 10 ) // & \" Xc,\" // achar ( 10 ) // & \" show_edges=True,\" // achar ( 10 ) // & \" color='yellow',\" // achar ( 10 ) // & \" line_width=3,\" // achar ( 10 ) // & \" style='wireframe',\" // achar ( 10 ) // & \" opacity=0.2\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"actor_Xg = p.add_mesh(\" // achar ( 10 ) // & \" Xg,\" // achar ( 10 ) // & \" show_edges=False,\" // achar ( 10 ) // & \" color='cyan',\" // achar ( 10 ) // & \" line_width=7,\" // achar ( 10 ) // & \" metallic=0.6,\" // achar ( 10 ) // & \" pbr=True,\" // achar ( 10 ) // & \" split_sharp_edges=True,\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_axes(interactive=False)\" // achar ( 10 ) // & \"def point_picker_callback(point):\" // achar ( 10 ) // & \" mesh = Xc\" // achar ( 10 ) // & \" point_id = mesh.find_closest_point(point)\" // achar ( 10 ) // & \" point_coords = mesh.points[point_id]\" // achar ( 10 ) // & \" label = f'ID: {point_id + 1}\\n({point_coords[0]:.3f}, {point_coords[1]:.3f}, {point_coords[2]:.3f})'\" // achar ( 10 ) // & \" p.add_point_labels(\" // achar ( 10 ) // & \" [point_coords],\" // achar ( 10 ) // & \" [label],\" // achar ( 10 ) // & \" font_size=14,\" // achar ( 10 ) // & \" text_color='black',\" // achar ( 10 ) // & \" show_points=False,\" // achar ( 10 ) // & \" fill_shape=False,\" // achar ( 10 ) // & \" shape=None,\" // achar ( 10 ) // & \" )\" // achar ( 10 ) // & \"picker = p.enable_point_picking(callback=point_picker_callback, show_message=False)\" // achar ( 10 ) // & \"window_size = p.window_size\" // achar ( 10 ) // & \"y_pos = window_size[1]\" // achar ( 10 ) // & \"def Xcp_toggle_vis(flag):\" // achar ( 10 ) // & \" actor_Xcp.SetVisibility(flag)\" // achar ( 10 ) // & \"def Xcw_toggle_vis(flag):\" // achar ( 10 ) // & \" actor_Xcw.SetVisibility(flag)\" // achar ( 10 ) // & \"def Xg_toggle_vis(flag):\" // achar ( 10 ) // & \" actor_Xg.SetVisibility(flag)\" // achar ( 10 ) // & \"p.add_checkbox_button_widget(\" // achar ( 10 ) // & \" Xcp_toggle_vis,\" // achar ( 10 ) // & \" value=True,\" // achar ( 10 ) // & \" color_on='red',\" // achar ( 10 ) // & \" size=25,\" // achar ( 10 ) // & \" position=(0, y_pos - 1 * 25),\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_checkbox_button_widget(\" // achar ( 10 ) // & \" Xcw_toggle_vis,\" // achar ( 10 ) // & \" value=True,\" // achar ( 10 ) // & \" color_on='yellow',\" // achar ( 10 ) // & \" size=25,\" // achar ( 10 ) // & \" position=(0, y_pos - 2 * 25),\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_checkbox_button_widget(\" // achar ( 10 ) // & \" Xg_toggle_vis,\" // achar ( 10 ) // & \" value=True,\" // achar ( 10 ) // & \" color_on='cyan',\" // achar ( 10 ) // & \" size=25,\" // achar ( 10 ) // & \" position=(0, y_pos - 3 * 25),\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'Xc (Points)',\" // achar ( 10 ) // & \" position=(25 + 3, y_pos - 1 * 25),\" // achar ( 10 ) // & \" font_size=8,\" // achar ( 10 ) // & \" color='black',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'Xc (Control geometry)',\" // achar ( 10 ) // & \" position=(25 + 3, y_pos - 2 * 25),\" // achar ( 10 ) // & \" font_size=8,\" // achar ( 10 ) // & \" color='black',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'Xg (Geometry)',\" // achar ( 10 ) // & \" position=(25 + 3, y_pos - 3 * 25),\" // achar ( 10 ) // & \" font_size=8,\" // achar ( 10 ) // & \" color='black',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text('ForCAD', position=(0.0, 10.0), font_size=14, color='black', font='times')\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'https://github.com/gha3mi/forcad',\" // achar ( 10 ) // & \" position=(0.0, 0.0),\" // achar ( 10 ) // & \" font_size=7,\" // achar ( 10 ) // & \" color='blue',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.show(title='ForCAD', interactive=True)\" call execute_command_line ( 'python -c \"' // trim ( adjustl ( pyvista_script )) // '\"' ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_ring ( this , center , radius1 , radius2 ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: center (:) real ( rk ), intent ( in ) :: radius1 , radius2 real ( rk ), allocatable :: Xc (:,:), Wc (:), knot1 (:), knot2 (:) integer :: i ! Define control points for ring allocate ( Xc ( 14 , 3 )) Xc ( 1 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 3 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 4 ,:) = [ - 2.0_rk , 0.0_rk , 0.0_rk ] Xc ( 5 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 6 ,:) = [ 1.0_rk , - sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 7 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 1 : 7 , 1 : 2 ) = Xc ( 1 : 7 , 1 : 2 ) * radius1 Xc ( 8 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 9 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 10 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 11 ,:) = [ - 2.0_rk , 0.0_rk , 0.0_rk ] Xc ( 12 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 13 ,:) = [ 1.0_rk , - sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 14 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 8 : 14 , 1 : 2 ) = Xc ( 8 : 14 , 1 : 2 ) * radius2 ! Translate the control points do i = 1 , size ( Xc , 1 ) Xc ( i ,:) = center + Xc ( i ,:) end do ! Define weights for the control points Wc = [ 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ,& 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ] ! Define knot vector knot1 = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk / 3.0_rk , 1.0_rk / 3.0_rk , 2.0_rk / 3.0_rk , 2.0_rk / 3.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] knot2 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] ! Set knot vector, control points, and weights call this % set ( knot1 , knot2 , Xc , Wc ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_C ( this , center , radius1 , radius2 ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: center (:) real ( rk ), intent ( in ) :: radius1 , radius2 real ( rk ), allocatable :: Xc (:,:), Wc (:), knot1 (:), knot2 (:) integer :: i ! Define control points for C-shape allocate ( Xc ( 10 , 3 )) Xc ( 1 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 3 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 4 ,:) = [ - 2.0_rk , 0.0_rk , 0.0_rk ] Xc ( 5 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 1 : 5 , 1 : 2 ) = Xc ( 1 : 5 , 1 : 2 ) * radius1 Xc ( 6 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 7 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 8 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 9 ,:) = [ - 2.0_rk , 0.0_rk , 0.0_rk ] Xc ( 10 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 6 : 10 , 1 : 2 ) = Xc ( 6 : 10 , 1 : 2 ) * radius2 ! Translate the control points do i = 1 , size ( Xc , 1 ) Xc ( i ,:) = center + Xc ( i ,:) end do ! Define weights for the control points Wc = [ 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ,& 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ] ! Define knot vector knot1 = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk / 2.0_rk , 1.0_rk / 2.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] knot2 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] ! Set knot vector, control points, and weights call this % set ( knot1 , knot2 , Xc , Wc ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_half_ring ( this , center , radius1 , radius2 ) class ( nurbs_surface ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: center (:) real ( rk ), intent ( in ) :: radius1 , radius2 real ( rk ), allocatable :: Xc (:,:), Wc (:), knot1 (:), knot2 (:) integer :: i ! Define control points for half ring allocate ( Xc ( 10 , 3 )) Xc ( 1 ,:) = [ 0.5_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 0.5_rk , 0.5_rk , 0.0_rk ] Xc ( 3 ,:) = [ 0.0_rk , 0.5_rk , 0.0_rk ] Xc ( 4 ,:) = [ - 0.5_rk , 0.5_rk , 0.0_rk ] Xc ( 5 ,:) = [ - 0.5_rk , 0.0_rk , 0.0_rk ] Xc ( 1 : 5 , 1 : 2 ) = Xc ( 1 : 5 , 1 : 2 ) * radius1 Xc ( 6 ,:) = [ 0.5_rk , 0.0_rk , 0.0_rk ] Xc ( 7 ,:) = [ 0.5_rk , 0.5_rk , 0.0_rk ] Xc ( 8 ,:) = [ 0.0_rk , 0.5_rk , 0.0_rk ] Xc ( 9 ,:) = [ - 0.5_rk , 0.5_rk , 0.0_rk ] Xc ( 10 ,:) = [ - 0.5_rk , 0.0_rk , 0.0_rk ] Xc ( 6 : 10 , 1 : 2 ) = Xc ( 6 : 10 , 1 : 2 ) * radius2 ! Translate the control points do i = 1 , size ( Xc , 1 ) Xc ( i ,:) = center + Xc ( i ,:) end do ! Define weights for the control points Wc = [ 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk ,& 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk ] ! Define knot vector knot1 = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk / 2.0_rk , & 1.0_rk / 2.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] knot2 = [ 0.0_rk , 0.0_rk , 1.0_rk , 1.0_rk ] ! Set knot vector, control points, and weights call this % set ( knot1 , knot2 , Xc , Wc ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine nearest_point ( this , point_Xg , nearest_Xg , nearest_Xt , id ) class ( nurbs_surface ), intent ( in ) :: this real ( rk ), intent ( in ) :: point_Xg (:) real ( rk ), intent ( out ), allocatable , optional :: nearest_Xg (:) real ( rk ), intent ( out ), allocatable , optional :: nearest_Xt (:) integer , intent ( out ), optional :: id integer :: id_ real ( rk ), allocatable :: distances (:) interface pure function nearest_point_help_2d ( f_ng , f_Xg , f_point_Xg ) result ( f_distances ) import :: rk integer , intent ( in ) :: f_ng ( 2 ) real ( rk ), intent ( in ), contiguous :: f_Xg (:,:) real ( rk ), intent ( in ), contiguous :: f_point_Xg (:) real ( rk ), allocatable :: f_distances (:) end function end interface allocate ( distances ( this % ng ( 1 ) * this % ng ( 2 ))) distances = nearest_point_help_2d ( this % ng , this % Xg , point_Xg ) id_ = minloc ( distances , dim = 1 ) if ( present ( id )) id = id_ if ( present ( nearest_Xg )) nearest_Xg = this % Xg ( id_ ,:) if ( present ( nearest_Xt )) nearest_Xt = this % Xt ( id_ ,:) end subroutine !=============================================================================== end module forcad_nurbs_surface !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Xg_nurbs_2d ( Xt , knot1 , knot2 , degree , nc , ng , Xc , Wc ) result ( Xg ) use forcad_utils , only : rk , basis_bspline , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:) integer , intent ( in ) :: degree ( 2 ) integer , intent ( in ) :: nc ( 2 ) integer , intent ( in ) :: ng ( 2 ) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous :: Wc (:) real ( rk ), allocatable :: Xg (:,:) real ( rk ), allocatable :: Tgc (:) integer :: i allocate ( Xg ( ng ( 1 ) * ng ( 2 ), size ( Xc , 2 ))) allocate ( Tgc ( nc ( 1 ) * nc ( 2 ))) !$OMP PARALLEL DO PRIVATE(Tgc) do i = 1 , ng ( 1 ) * ng ( 2 ) Tgc = kron (& basis_bspline ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 ))) Tgc = Tgc * ( Wc / ( dot_product ( Tgc , Wc ))) Xg ( i ,:) = matmul ( Tgc , Xc ) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Xg_bspline_2d ( Xt , knot1 , knot2 , degree , nc , ng , Xc ) result ( Xg ) use forcad_utils , only : rk , basis_bspline , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:) integer , intent ( in ) :: degree ( 2 ) integer , intent ( in ) :: nc ( 2 ) integer , intent ( in ) :: ng ( 2 ) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), allocatable :: Xg (:,:) integer :: i allocate ( Xg ( ng ( 1 ) * ng ( 2 ), size ( Xc , 2 ))) !$OMP PARALLEL DO do i = 1 , ng ( 1 ) * ng ( 2 ) Xg ( i ,:) = matmul ( kron (& basis_bspline ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 ))),& Xc ) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_dTgc_nurbs_2d ( Xt , knot1 , knot2 , degree , nc , ng , Wc ) result ( dTgc ) use forcad_utils , only : rk , basis_bspline_der , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:) integer , intent ( in ) :: degree ( 2 ) integer , intent ( in ) :: nc ( 2 ) integer , intent ( in ) :: ng ( 2 ) real ( rk ), intent ( in ), contiguous :: Wc (:) real ( rk ), allocatable :: dTgc (:,:) real ( rk ), allocatable :: dTgci (:) integer :: i allocate ( dTgc ( ng ( 1 ) * ng ( 2 ), nc ( 1 ) * nc ( 2 ))) !$OMP PARALLEL DO PRIVATE(dTgci) do i = 1 , size ( Xt , 1 ) dTgci = kron (& basis_bspline_der ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline_der ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 ))) dTgci = dTgci * ( Wc / ( dot_product ( dTgci , Wc ))) dTgc ( i ,:) = dTgci end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_dTgc_bspline_2d ( Xt , knot1 , knot2 , degree , nc , ng ) result ( dTgc ) use forcad_utils , only : rk , basis_bspline_der , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:) integer , intent ( in ) :: degree ( 2 ) integer , intent ( in ) :: nc ( 2 ) integer , intent ( in ) :: ng ( 2 ) real ( rk ), allocatable :: dTgc (:,:) integer :: i allocate ( dTgc ( ng ( 1 ) * ng ( 2 ), nc ( 1 ) * nc ( 2 ))) !$OMP PARALLEL DO do i = 1 , size ( Xt , 1 ) dTgc ( i ,:) = kron (& basis_bspline_der ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline_der ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 ))) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Tgc_nurbs_2d ( Xt , knot1 , knot2 , degree , nc , ng , Wc ) result ( Tgc ) use forcad_utils , only : rk , basis_bspline , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:) integer , intent ( in ) :: degree ( 2 ) integer , intent ( in ) :: nc ( 2 ) integer , intent ( in ) :: ng ( 2 ) real ( rk ), intent ( in ), contiguous :: Wc (:) real ( rk ), allocatable :: Tgc (:,:) real ( rk ), allocatable :: Tgci (:) integer :: i allocate ( Tgc ( ng ( 1 ) * ng ( 2 ), nc ( 1 ) * nc ( 2 ))) !$OMP PARALLEL DO PRIVATE(Tgci) do i = 1 , size ( Xt , 1 ) Tgci = kron (& basis_bspline ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 ))) Tgci = Tgci * ( Wc / ( dot_product ( Tgci , Wc ))) Tgc ( i ,:) = Tgci end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Tgc_bspline_2d ( Xt , knot1 , knot2 , degree , nc , ng ) result ( Tgc ) use forcad_utils , only : rk , basis_bspline , kron implicit none real ( rk ), intent ( in ), contiguous :: Xt (:,:) real ( rk ), intent ( in ), contiguous :: knot1 (:), knot2 (:) integer , intent ( in ) :: degree ( 2 ) integer , intent ( in ) :: nc ( 2 ) integer , intent ( in ) :: ng ( 2 ) real ( rk ), allocatable :: Tgc (:,:) integer :: i allocate ( Tgc ( ng ( 1 ) * ng ( 2 ), nc ( 1 ) * nc ( 2 ))) !$OMP PARALLEL DO do i = 1 , size ( Xt , 1 ) Tgc ( i ,:) = kron (& basis_bspline ( Xt ( i , 2 ), knot2 , nc ( 2 ), degree ( 2 )),& basis_bspline ( Xt ( i , 1 ), knot1 , nc ( 1 ), degree ( 1 ))) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function nearest_point_help_2d ( ng , Xg , point_Xg ) result ( distances ) use forcad_utils , only : rk implicit none integer , intent ( in ) :: ng ( 2 ) real ( rk ), intent ( in ), contiguous :: Xg (:,:) real ( rk ), intent ( in ), contiguous :: point_Xg (:) real ( rk ), allocatable :: distances (:) integer :: i allocate ( distances ( ng ( 1 ) * ng ( 2 ))) !$OMP PARALLEL DO do i = 1 , ng ( 1 ) * ng ( 2 ) distances ( i ) = norm2 ( Xg ( i ,:) - point_Xg ) end do !$OMP END PARALLEL DO end function !===============================================================================","tags":"","loc":"sourcefile/forcad_nurbs_surface.f90.html"},{"title":"put_to_nurbs.f90 – ForCAD","text":"This file depends on sourcefile~~put_to_nurbs.f90~~EfferentGraph sourcefile~put_to_nurbs.f90 put_to_nurbs.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~put_to_nurbs.f90->sourcefile~forcad.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~put_to_nurbs.f90->sourcefile~forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program example_put_to_nurbs use forcad use forcad_utils , only : hexahedron_Xc implicit none type ( nurbs_volume ) :: control_shape real ( rk ), allocatable :: X (:,:) integer , allocatable :: elem (:,:) integer :: i , nunit !> You can create your shape or use a predefined one !> Read coordinates from file allocate ( X ( 23200 , 3 )) open ( newunit = nunit , file = 'example/put_to_nurbs_X.txt' ) do i = 1 , 23200 read ( nunit , * ) X ( i , 1 ), X ( i , 2 ), X ( i , 3 ) end do close ( nunit ) !> Read element connectivities from file allocate ( elem ( 20577 , 8 )) open ( newunit = nunit , file = 'example/put_to_nurbs_elem.txt' ) do i = 1 , 20577 read ( nunit , * ) elem ( i , 1 ), elem ( i , 2 ), elem ( i , 4 ), elem ( i , 3 ), elem ( i , 5 ), elem ( i , 6 ), elem ( i , 8 ), elem ( i , 7 ) end do close ( nunit ) !> Set a control shape that will be used to put the shape into !> The contol shape is a hexahedron with 100x40x10 with 10x5x3 number of control points !> By modifying the control shape you can modify the shape call control_shape % set ( nc = [ 10 , 5 , 3 ], Xc = hexahedron_Xc ( L = [ 10 0.0_rk , 4 0.0_rk , 1 0.0_rk ], nc = [ 10 , 5 , 3 ])) !> Map the shape into the shape call control_shape % put_to_nurbs ( X , elem ) !> Deallocate local variables deallocate ( X , elem ) !> Export the shape and the control shape to vtk files call control_shape % export_Xc ( 'vtk/control_shape.vtk' ) call control_shape % export_Xg ( 'vtk/shape.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call control_shape % show ( 'vtk/control_shape.vtk' , 'vtk/shape.vtk' ) !> Finalize the control shape call control_shape % finalize () end program","tags":"","loc":"sourcefile/put_to_nurbs.f90.html"},{"title":"example_ppm2.f90 – ForCAD","text":"This file depends on sourcefile~~example_ppm2.f90~~EfferentGraph sourcefile~example_ppm2.f90 example_ppm2.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~example_ppm2.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> Visualization of NURBS surfaces using ForCAD, ForImage and ForColorMap libraries !> This example converts NURBS surfaces (vector) to an image (raster) using ForCAD, ForImage and ForColorMap libraries. program example_ppm2 use forcad , only : rk , nurbs_surface use forimage , only : ik , format_pnm , color use forcolormap , only : colormap use fortime , only : timer implicit none type ( nurbs_surface ) :: shape type ( format_pnm ) :: image type ( color ) :: background_color type ( colormap ) :: cmap integer ( ik ), allocatable :: px (:, :) real ( rk ), allocatable :: Xg (:,:), z_values (:) real ( rk ) :: center ( 3 ), inner_radius , outer_radius , aspect_ratio integer :: height , width , ng ( 2 ), red , green , blue , res1 , res2 , i integer , allocatable :: idx (:,:) type ( timer ) :: t !----------------------------------------------------------------------------- ! Set the image size and calculate the aspect ratio !----------------------------------------------------------------------------- width = 2000 height = 2000 aspect_ratio = real ( width , rk ) / real ( height , rk ) allocate ( px ( height , 3 * width )) !----------------------------------------------------------------------------- ! Set the background color using ForColor class of ForImage !----------------------------------------------------------------------------- call t % timer_start () call background_color % set ( 'white' , use_library = . true .) do i = 1 , width px (:, 3 * ( i - 1 ) + 1 ) = background_color % get_r () px (:, 3 * ( i - 1 ) + 2 ) = background_color % get_g () px (:, 3 * ( i - 1 ) + 3 ) = background_color % get_b () end do call t % timer_stop ( message = 'Setting the background color' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () !> Set the shape parameters for a tetragon res1 = 2000 res2 = 2000 call shape % set_tetragon ( L = [ 1.0_rk , 1.0_rk ], nc = [ 2 , 2 ]) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a tetragon' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! circular gradient z_values = (( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 )))) ** 2 & + (( Xg (:, 2 ) - minval ( Xg (:, 2 ))) / ( maxval ( Xg (:, 2 )) - minval ( Xg (:, 2 ))) ** 2 ) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'buda' , 0.0_rk , 1.0_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting the colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- !> Set the shape parameters for a ring call t % timer_start () center = [ 0.0_rk , 0.0_rk , 0.0_rk ] outer_radius = 0.24_rk * 2.0_rk inner_radius = 0.0_rk * 2.0_rk res1 = 3500 res2 = 1000 center ( 2 ) = center ( 2 ) / aspect_ratio call shape % set_half_ring ( center , inner_radius , outer_radius ) call shape % rotate_Xc ( 0.0_rk , 0.0_rk , 4 5.0_rk ) call shape % translate_Xc ([ 0.25_rk , 0.25_rk , 0.0_rk ]) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! circular gradient z_values = (( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 )))) ** 2 & + (( Xg (:, 2 ) - minval ( Xg (:, 2 ))) / ( maxval ( Xg (:, 2 )) - minval ( Xg (:, 2 ))) ** 2 ) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'managua' , 0.0_rk , 2.2_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting the colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- !> Set the shape parameters for a ring call t % timer_start () center = [ 0.0_rk , 0.0_rk , 0.0_rk ] outer_radius = 0.24_rk * 2.0_rk inner_radius = 0.08_rk * 2.0_rk res1 = 3500 res2 = 1000 center ( 2 ) = center ( 2 ) / aspect_ratio call shape % set_half_ring ( center , inner_radius , outer_radius ) call shape % rotate_Xc ( 0.0_rk , 0.0_rk , - 4 5.0_rk ) call shape % translate_Xc ([ 0.75_rk , 0.25_rk , 0.0_rk ]) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! linear gradient in the y-direction z_values = ( Xg (:, 2 ) - minval ( Xg (:, 2 ))) / ( maxval ( Xg (:, 2 )) - minval ( Xg (:, 2 ))) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'lipari' , 0.0_rk , 1.0_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting the colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () !> Set the shape parameters for a ring center = [ 0.0_rk , 0.0_rk , 0.0_rk ] outer_radius = 0.24_rk * 2.0_rk inner_radius = 0.01_rk * 2.0_rk res1 = 3500 res2 = 1000 center ( 2 ) = center ( 2 ) / aspect_ratio call shape % set_half_ring ( center , inner_radius , outer_radius ) call shape % rotate_Xc ( 0.0_rk , 0.0_rk , - 9 0.0_rk ) call shape % translate_Xc ([ 0.25_rk , 0.75_rk , 0.0_rk ]) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! linear gradient in the x-direction z_values = ( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 ))) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- call cmap % set ( 'oslo10' , 0.0_rk , 1.0_rk ) !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) call cmap % compute_RGB ( z_values ( i ), red , green , blue ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting the colors' ) !----------------------------------------------------------------------------- ! Set a shape object using ForCAD library !----------------------------------------------------------------------------- call t % timer_start () !> Set the shape parameters for a ring center = [ 0.0_rk , 0.0_rk , 0.0_rk ] outer_radius = 0.24_rk * 2.0_rk inner_radius = 0.22_rk * 2.0_rk res1 = 3500 res2 = 1000 center ( 2 ) = center ( 2 ) / aspect_ratio call shape % set_half_ring ( center , inner_radius , outer_radius ) call shape % rotate_Xc ( 0.0_rk , 0.0_rk , 0.0_rk ) call shape % translate_Xc ([ 0.75_rk , 0.75_rk , 0.0_rk ]) call shape % create ( res1 , res2 ) Xg = shape % get_Xg () ng = shape % get_ng () call shape % finalize () call t % timer_stop ( message = 'Creating a ring' ) !----------------------------------------------------------------------------- ! Set the z-values of the geometry points !----------------------------------------------------------------------------- ! linear gradient in the x-direction z_values = ( Xg (:, 1 ) - minval ( Xg (:, 1 ))) / ( maxval ( Xg (:, 1 )) - minval ( Xg (:, 1 ))) !----------------------------------------------------------------------------- ! Set the colormap using ForColorMap library !----------------------------------------------------------------------------- red = 255 green = 215 blue = 0 !----------------------------------------------------------------------------- ! Set colors to the shape !----------------------------------------------------------------------------- call t % timer_start () Xg (:, 2 ) = Xg (:, 2 ) * aspect_ratio allocate ( idx ( ng ( 1 ) * ng ( 2 ), 2 )) idx (:, 1 ) = min ( max ( 1 , int ( Xg (:, 1 ) * width ) + 1 ), width ) idx (:, 2 ) = min ( max ( 1 , int ( Xg (:, 2 ) * height ) + 1 ), height ) do i = 1 , ng ( 1 ) * ng ( 2 ) px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 1 ) = red px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 2 ) = green px ( idx ( i , 2 ), 3 * ( idx ( i , 1 ) - 1 ) + 3 ) = blue end do deallocate ( idx ) call t % timer_stop ( message = 'Setting the colors' ) !----------------------------------------------------------------------------- ! Save the image to a PPM file using ForImage library !----------------------------------------------------------------------------- call t % timer_start () call image % set_pnm (& encoding = 'binary' , & file_format = 'ppm' , & width = width , & height = height , & max_color = 255 , & comment = 'example: ForCAD + ForImage + ForColor + ForColormap' , & pixels = px & ) call image % export_pnm ( 'ppm/example_ppm2' ) call image % finalize () call t % timer_stop ( message = 'Saving the image' ) ! Clean up call cmap % finalize () deallocate ( px , Xg , z_values ) end program","tags":"","loc":"sourcefile/example_ppm2.f90.html"},{"title":"shape_ring_2d.f90 – ForCAD","text":"This file depends on sourcefile~~shape_ring_2d.f90~~EfferentGraph sourcefile~shape_ring_2d.f90 shape_ring_2d.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_ring_2d.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_ring_2d use forcad , only : rk , nurbs_surface implicit none type ( nurbs_surface ) :: shape !> Set up a ring shape with inner radius 1.0 and outer radius 2.0. call shape % set_ring ([ 0.0_rk , 0.0_rk , 0.0_rk ], 1.0_rk , 2.0_rk ) !> Export the control points to a VTK file for visualization. call shape % export_Xc ( 'vtk/shape_ring_2d_Xc.vtk' ) !> Create the shape using the specified number of elements in each direction. call shape % create ( 60 , 15 ) !> Export the geometry to a VTK file for visualization. call shape % export_Xg ( 'vtk/shape_ring_2d_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_ring_2d_Xc.vtk' , 'vtk/shape_ring_2d_Xg.vtk' ) !> Finalize and clean up the shape object. call shape % finalize () end program","tags":"","loc":"sourcefile/shape_ring_2d.f90.html"},{"title":"shape_C_2d.f90 – ForCAD","text":"This file depends on sourcefile~~shape_c_2d.f90~~EfferentGraph sourcefile~shape_c_2d.f90 shape_C_2d.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_c_2d.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_C_2d use forcad , only : rk , nurbs_surface implicit none type ( nurbs_surface ) :: shape !----------------------------------------------------------------------------- ! Setting up NURBS C-shape !----------------------------------------------------------------------------- !> Set a C-shape with radius 2.0 and center at [0.0, 0.0, 0.0] call shape % set_C ( center = [ 0.0_rk , 0.0_rk , 0.0_rk ], radius1 = 1.0_rk , radius2 = 2.0_rk ) !> Export control points to a VTK file call shape % export_Xc ( 'vtk/shape_C_2d_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating C-shape !----------------------------------------------------------------------------- !> Generate the NURBS C-shape with a resolution of 100 call shape % create ( 100 , 60 ) !> Export the generated cirlce to a VTK file call shape % export_Xg ( 'vtk/shape_C_2d_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_C_2d_Xc.vtk' , 'vtk/shape_C_2d_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS curve object call shape % finalize () end program","tags":"","loc":"sourcefile/shape_c_2d.f90.html"},{"title":"demo_surface.f90 – ForCAD","text":"This file depends on sourcefile~~demo_surface.f90~~EfferentGraph sourcefile~demo_surface.f90 demo_surface.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~demo_surface.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> This program demonstrates the usage of a NURBS surface object to create, and finalize a NURBS surface. !> It sets up control points and weights, generates the surface, and exports the control points !> and the surface to VTK files at various stages. program example_nurbs_surface use forcad , only : rk , nurbs_surface implicit none type ( nurbs_surface ) :: nurbs !! Declare a NURBS surface object real ( rk ), allocatable :: Xc (:,:), Wc (:) !! Arrays for control points and weights !----------------------------------------------------------------------------- ! Setting up the NURBS surface !----------------------------------------------------------------------------- !> Define control points for the NURBS surface Xc = generate_Xc ( 10 , 10 , 1.5_rk ) !> Define weights for the control points allocate ( Wc ( size ( Xc , 1 )), source = 1.0_rk ) !> Set control points and weights for the NURBS surface object call nurbs % set ([ 10 , 10 ], Xc , Wc ) !> Deallocate local arrays deallocate ( Xc , Wc ) !> Export initial control points to a VTK file call nurbs % export_Xc ( 'vtk/demo_surface_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating the NURBS surface !----------------------------------------------------------------------------- !> Generate the NURBS surface with a resolution of 30x30 call nurbs % create ( res1 = 30 , res2 = 30 ) !> Export the generated surface to a VTK file call nurbs % export_Xg ( 'vtk/demo_surface_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call nurbs % show ( 'vtk/demo_surface_Xc.vtk' , 'vtk/demo_surface_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS surface object call nurbs % finalize () contains !----------------------------------------------------------------------------- function generate_Xc ( num_rows , num_cols , peak_height ) result ( control_points ) integer , intent ( in ) :: num_rows , num_cols real ( rk ), intent ( in ) :: peak_height real ( rk ), allocatable :: control_points (:,:) integer :: i , j real ( rk ) :: x_spacing , y_spacing , x_offset , y_offset x_spacing = 1.0_rk / real ( num_cols - 1 , rk ) y_spacing = 1.0_rk / real ( num_rows - 1 , rk ) x_offset = - 0.5_rk y_offset = - 0.5_rk allocate ( control_points ( num_rows * num_cols , 3 )) do i = 1 , num_rows do j = 1 , num_cols control_points (( i - 1 ) * num_cols + j , 1 ) = x_offset + real ( j - 1 , rk ) * x_spacing control_points (( i - 1 ) * num_cols + j , 2 ) = y_offset + real ( i - 1 , rk ) * y_spacing control_points (( i - 1 ) * num_cols + j , 3 ) = & peak_height * exp ( - (( control_points (( i - 1 ) * num_cols + j , 1 ) ** 2 ) & + ( control_points (( i - 1 ) * num_cols + j , 2 ) ** 2 ))) + 0.5_rk * peak_height * 0.2_rk end do end do end function !----------------------------------------------------------------------------- end program example_nurbs_surface","tags":"","loc":"sourcefile/demo_surface.f90.html"},{"title":"nearest_point_2d_bench.f90 – ForCAD","text":"This file depends on sourcefile~~nearest_point_2d_bench.f90~~EfferentGraph sourcefile~nearest_point_2d_bench.f90 nearest_point_2d_bench.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~nearest_point_2d_bench.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program nearest_point_2d_bench use forcad , only : rk , nurbs_surface use fortime implicit none type ( nurbs_surface ) :: shape !! Declare a NURBS surface object real ( rk ), allocatable :: nearest_Xg (:) !! Coordinates of the nearest point on the surface real ( rk ), allocatable :: nearest_Xt (:) !! Corresponding parametric coordinates of the nearest point integer :: id !! id of the nearest point real ( rk ), allocatable :: points (:,:) integer :: i , j type ( timer ) :: t !----------------------------------------------------------------------------- ! Setting up the NURBS tetrangon !----------------------------------------------------------------------------- !> Set a tetragon with lengths of 2.0 and 3.0 and 3 and 4 control points in each direction !> The weights of the control points (Wc) are optional. call shape % set_tetragon ( L = [ 2.0_rk , 3.0_rk ], nc = [ 3 , 4 ]) !----------------------------------------------------------------------------- ! Creating the NURBS surface !----------------------------------------------------------------------------- !> Generate the NURBS surface with resolutions of 30 in both dimensions call shape % create ( 100 , 100 ) !----------------------------------------------------------------------------- ! Nearest point on the surface !----------------------------------------------------------------------------- !> Find the nearest point on the surface to a given point ! nearest_Xg: Coordinates of the nearest point on the surface (optional) ! nearest_Xt: Corresponding parametric coordinates of the nearest point (optional) ! id: id of the nearest point (optional) do j = 1 , 40 allocate ( points ( j * 1000 , 3 )) print * , j * 1000 call random_number ( points ) call t % timer_start () do concurrent ( i = 1 : size ( points , 1 )) call shape % nearest_point ( points ( i ,:), nearest_Xg , nearest_Xt , id ) end do call t % timer_stop () deallocate ( points ) end do !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS surface object call shape % finalize () deallocate ( nearest_Xg , nearest_Xt ) end program","tags":"","loc":"sourcefile/nearest_point_2d_bench.f90.html"},{"title":"shape_C_3d.f90 – ForCAD","text":"This file depends on sourcefile~~shape_c_3d.f90~~EfferentGraph sourcefile~shape_c_3d.f90 shape_C_3d.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_c_3d.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_C_3d use forcad , only : rk , nurbs_volume implicit none type ( nurbs_volume ) :: shape !----------------------------------------------------------------------------- ! Setting up NURBS C-shape !----------------------------------------------------------------------------- !> Set a C-shape with radius 2.0 and center at [0.0, 0.0, 0.0] call shape % set_C ( center = [ 0.0_rk , 0.0_rk , 0.0_rk ], radius1 = 1.0_rk , radius2 = 2.0_rk , length = 2.0_rk ) !> Export control points to a VTK file call shape % export_Xc ( 'vtk/shape_C_3d_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating C-shape !----------------------------------------------------------------------------- !> Generate the NURBS C-shape with a resolution of 100 call shape % create ( 100 , 60 , 10 ) !> Export the generated cirlce to a VTK file call shape % export_Xg ( 'vtk/shape_C_3d_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_C_3d_Xc.vtk' , 'vtk/shape_C_3d_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS curve object call shape % finalize () end program","tags":"","loc":"sourcefile/shape_c_3d.f90.html"},{"title":"forcad_nurbs_curve.f90 – ForCAD","text":"This file depends on sourcefile~~forcad_nurbs_curve.f90~~EfferentGraph sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Files dependent on this one sourcefile~~forcad_nurbs_curve.f90~~AfferentGraph sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~demo_curve.f90 demo_curve.f90 sourcefile~demo_curve.f90->sourcefile~forcad.f90 sourcefile~demo_surface.f90 demo_surface.f90 sourcefile~demo_surface.f90->sourcefile~forcad.f90 sourcefile~demo_volume.f90 demo_volume.f90 sourcefile~demo_volume.f90->sourcefile~forcad.f90 sourcefile~example_curve_1.f90 example_curve_1.f90 sourcefile~example_curve_1.f90->sourcefile~forcad.f90 sourcefile~example_ppm1.f90 example_ppm1.f90 sourcefile~example_ppm1.f90->sourcefile~forcad.f90 sourcefile~example_ppm2.f90 example_ppm2.f90 sourcefile~example_ppm2.f90->sourcefile~forcad.f90 sourcefile~example_ppm3.f90 example_ppm3.f90 sourcefile~example_ppm3.f90->sourcefile~forcad.f90 sourcefile~example_surface_1.f90 example_surface_1.f90 sourcefile~example_surface_1.f90->sourcefile~forcad.f90 sourcefile~example_volume_1.f90 example_volume_1.f90 sourcefile~example_volume_1.f90->sourcefile~forcad.f90 sourcefile~nearest_point_1d.f90 nearest_point_1d.f90 sourcefile~nearest_point_1d.f90->sourcefile~forcad.f90 sourcefile~nearest_point_2d.f90 nearest_point_2d.f90 sourcefile~nearest_point_2d.f90->sourcefile~forcad.f90 sourcefile~nearest_point_2d_bench.f90 nearest_point_2d_bench.f90 sourcefile~nearest_point_2d_bench.f90->sourcefile~forcad.f90 sourcefile~nearest_point_3d.f90 nearest_point_3d.f90 sourcefile~nearest_point_3d.f90->sourcefile~forcad.f90 sourcefile~put_to_nurbs.f90 put_to_nurbs.f90 sourcefile~put_to_nurbs.f90->sourcefile~forcad.f90 sourcefile~shape_c_1d.f90 shape_C_1d.f90 sourcefile~shape_c_1d.f90->sourcefile~forcad.f90 sourcefile~shape_c_2d.f90 shape_C_2d.f90 sourcefile~shape_c_2d.f90->sourcefile~forcad.f90 sourcefile~shape_c_3d.f90 shape_C_3d.f90 sourcefile~shape_c_3d.f90->sourcefile~forcad.f90 sourcefile~shape_circle.f90 shape_circle.f90 sourcefile~shape_circle.f90->sourcefile~forcad.f90 sourcefile~shape_half_circle.f90 shape_half_circle.f90 sourcefile~shape_half_circle.f90->sourcefile~forcad.f90 sourcefile~shape_half_ring_2d.f90 shape_half_ring_2d.f90 sourcefile~shape_half_ring_2d.f90->sourcefile~forcad.f90 sourcefile~shape_half_ring_3d.f90 shape_half_ring_3d.f90 sourcefile~shape_half_ring_3d.f90->sourcefile~forcad.f90 sourcefile~shape_hexahedron.f90 shape_hexahedron.f90 sourcefile~shape_hexahedron.f90->sourcefile~forcad.f90 sourcefile~shape_ring_2d.f90 shape_ring_2d.f90 sourcefile~shape_ring_2d.f90->sourcefile~forcad.f90 sourcefile~shape_ring_3d.f90 shape_ring_3d.f90 sourcefile~shape_ring_3d.f90->sourcefile~forcad.f90 sourcefile~shape_tetragon.f90 shape_tetragon.f90 sourcefile~shape_tetragon.f90->sourcefile~forcad.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> This module defines the 'nurbs_curve' type for representing a Non-Uniform Rational B-Spline (NURBS) curve. module forcad_nurbs_curve use forcad_utils , only : rk , basis_bspline , elemConn_C0 , compute_multiplicity , compute_knot_vector , basis_bspline_der ,& insert_knot_A_5_1 , findspan , elevate_degree_A_5_9 , remove_knots_A_5_8 , & elemConn_Cn , unique , rotation implicit none private public nurbs_curve !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause type nurbs_curve real ( rk ), allocatable , private :: Xc (:,:) !! Control points (2D array: [nc, dim]) real ( rk ), allocatable , private :: Xg (:,:) !! Geometry points (2D array: [ng, dim]) real ( rk ), allocatable , private :: Wc (:) !! Weights for control points (1D array: [nc]) real ( rk ), allocatable , private :: Xt (:) !! Evaluation points (1D array: [ng]) real ( rk ), allocatable , private :: knot (:) !! Knot vector (1D array) integer , private :: degree !! Degree (order) of the curve integer , private :: nc !! Number of control points integer , private :: ng !! Number of geometry points integer , allocatable , private :: elemConn_Xc_vis (:,:) !! Connectivity for visualization of control points integer , allocatable , private :: elemConn_Xg_vis (:,:) !! Connectivity for visualization of geometry points integer , allocatable , private :: elemConn (:,:) !! IGA element connectivity contains procedure :: set1 !!> Set knot vector, control points and weights for the NURBS curve object procedure :: set2 !!> Set NURBS curve using nodes of parameter space, degree, continuity, control points and weights procedure :: set3 !!> Set Bezier or Rational Bezier curve using control points and weights generic :: set => set1 , set2 , set3 !!> Set NURBS curve procedure :: create !!> Generate geometry points procedure , private :: get_Xc_all !!> Get all control points procedure , private :: get_Xci !!> Get i-th control point procedure , private :: get_Xcid !!> Get i-th control point in a specific direction generic :: get_Xc => get_Xc_all , get_Xci , get_Xcid !!> Get control points procedure , private :: get_Xg_all !!> Get all geometry points procedure , private :: get_Xgi !!> Get i-th geometry point procedure , private :: get_Xgid !!> Get i-th geometry point in a specific direction generic :: get_Xg => get_Xg_all , get_Xgi , get_Xgid !!> Get geometry points procedure , private :: get_Wc_all !!> Get all weights procedure , private :: get_Wci !!> Get i-th weight generic :: get_Wc => get_Wc_all , get_Wci !!> Get weights procedure :: get_Xt !!> Get parameter values procedure , private :: get_knot_all !!> Get all knot vectors procedure , private :: get_knoti !!> Get i-th knot value generic :: get_knot => get_knoti , get_knot_all !!> Get knot vector procedure :: get_ng !!> Get number of geometry points procedure :: cmp_degree !!> Compute degree of the NURBS curve procedure :: get_degree !!> Get degree of the NURBS curve procedure :: finalize !!> Finalize the NURBS curve object procedure :: cmp_elem_Xc_vis !!> Generate connectivity for control points procedure :: cmp_elem_Xg_vis !!> Generate connectivity for geometry points procedure :: cmp_elem !!> Generate IGA element connectivity procedure :: get_elem_Xc_vis !!> Get connectivity for control points procedure :: get_elem_Xg_vis !!> Get connectivity for geometry points procedure :: get_elem !!> Get IGA element connectivity procedure :: set_elem_Xc_vis !!> Set connectivity for control points procedure :: set_elem_Xg_vis !!> Set connectivity for geometry points procedure :: set_elem !!> Set IGA element connectivity procedure :: export_Xc !!> Export control points to VTK file procedure :: export_Xg !!> Export geometry points to VTK file procedure :: modify_Xc !!> Modify control points procedure :: modify_Wc !!> Modify weights procedure :: get_multiplicity !!> Compute and return the multiplicity of the knots procedure :: get_continuity !!> Compute and return the continuity of the curve procedure :: cmp_nc !!> Compute number of required control points procedure :: get_nc !!> Get number of control points procedure :: insert_knots !!> Insert knots into the knot vector procedure :: elevate_degree !!> Elevate the degree of the curve procedure :: derivative !!> Compute the derivative of the NURBS curve procedure :: basis !!> Compute the basis functions of the NURBS curve procedure :: is_rational !!> Check if the NURBS curve is rational procedure :: remove_knots !!> Remove knots from the knot vector procedure :: rotate_Xc !!> Rotate control points procedure :: rotate_Xg !!> Rotate geometry points procedure :: translate_Xc !!> Translate control points procedure :: translate_Xg !!> Translate geometry points procedure :: show !!> Show the NURBS object using PyVista procedure :: nearest_point !!> Find the nearest point on the NURBS curve ! Shapes procedure :: set_circle !!> Set a circle procedure :: set_half_circle !!> Set a half circle procedure :: set_C !!> Set a C-shape end type !=============================================================================== contains !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> Set knot vector, control points and weights for the NURBS curve object. pure subroutine set1 ( this , knot , Xc , Wc ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: knot (:) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) if ( allocated ( this % knot )) deallocate ( this % knot ) if ( allocated ( this % Xc )) deallocate ( this % Xc ) this % knot = knot call this % cmp_degree () this % Xc = Xc this % nc = size ( this % Xc , 1 ) if ( present ( Wc )) then if ( size ( Wc ) /= this % nc ) then error stop 'Number of weights does not match the number of control points.' else if ( allocated ( this % Wc )) deallocate ( this % Wc ) this % Wc = Wc end if end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> Set NURBS curve using nodes of parameter space (Xth), degree, continuity, control points and weights. pure subroutine set2 ( this , Xth_dir , degree , continuity , Xc , Wc ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: Xth_dir (:) integer , intent ( in ) :: degree integer , intent ( in ), contiguous :: continuity (:) real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) if ( allocated ( this % knot )) deallocate ( this % knot ) if ( allocated ( this % Xc )) deallocate ( this % Xc ) this % knot = compute_knot_vector ( Xth_dir , degree , continuity ) this % degree = degree this % Xc = Xc this % nc = size ( this % Xc , 1 ) if ( present ( Wc )) then if ( size ( Wc ) /= this % nc ) then error stop 'Number of weights does not match the number of control points.' else if ( allocated ( this % Wc )) deallocate ( this % Wc ) this % Wc = Wc end if end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause !> Set Bezier or Rational Bezier curve using control points and weights. pure subroutine set3 ( this , Xc , Wc ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous , optional :: Wc (:) if ( allocated ( this % knot )) deallocate ( this % knot ) if ( allocated ( this % Xc )) deallocate ( this % Xc ) this % Xc = Xc this % nc = size ( this % Xc , 1 ) if ( allocated ( this % knot )) deallocate ( this % knot ) allocate ( this % knot ( 2 * this % nc )) this % knot ( 1 : this % nc ) = 0.0_rk this % knot ( this % nc + 1 : 2 * this % nc ) = 1.0_rk call this % cmp_degree () if ( present ( Wc )) then if ( size ( Wc ) /= this % nc ) then error stop 'Number of weights does not match the number of control points.' else if ( allocated ( this % Wc )) deallocate ( this % Wc ) this % Wc = Wc end if end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine create ( this , res , Xt ) class ( nurbs_curve ), intent ( inout ) :: this integer , intent ( in ), optional :: res real ( rk ), intent ( in ), contiguous , optional :: Xt (:) integer :: i interface pure function compute_Xg_nurbs_1d ( f_Xt , f_knot , f_degree , f_nc , f_ng , f_Xc , f_Wc ) result ( f_Xg ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:) real ( rk ), intent ( in ), contiguous :: f_knot (:) integer , intent ( in ) :: f_degree integer , intent ( in ) :: f_nc integer , intent ( in ) :: f_ng real ( rk ), intent ( in ), contiguous :: f_Xc (:,:) real ( rk ), intent ( in ), contiguous :: f_Wc (:) real ( rk ), allocatable :: f_Xg (:,:) end function end interface interface pure function compute_Xg_bspline_1d ( f_Xt , f_knot , f_degree , f_nc , f_ng , f_Xc ) result ( f_Xg ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:) real ( rk ), intent ( in ), contiguous :: f_knot (:) integer , intent ( in ) :: f_degree integer , intent ( in ) :: f_nc integer , intent ( in ) :: f_ng real ( rk ), intent ( in ), contiguous :: f_Xc (:,:) real ( rk ), allocatable :: f_Xg (:,:) end function end interface ! check if (. not . allocated ( this % Xc )) then error stop 'Control points are not set.' end if if (. not . allocated ( this % knot )) then error stop 'Knot vector is not set.' end if ! Set parameter values if ( present ( Xt )) then if ( allocated ( this % Xt )) deallocate ( this % Xt ) this % Xt = Xt elseif ( present ( res )) then if ( allocated ( this % Xt )) deallocate ( this % Xt ) allocate ( this % Xt ( res )) this % Xt = [( real ( i - 1 , rk ) / real ( res - 1 , rk ), i = 1 , res )] ! else ! this%Xt = this%Xt end if ! Set number of geometry points this % ng = size ( this % Xt ) ! Allocate memory for geometry points if ( allocated ( this % Xg )) deallocate ( this % Xg ) if ( this % is_rational ()) then ! NURBS this % Xg = compute_Xg_nurbs_1d (& this % Xt , this % knot , this % degree , this % nc , this % ng , this % Xc , this % Wc ) else ! B-Spline this % Xg = compute_Xg_bspline_1d (& this % Xt , this % knot , this % degree , this % nc , this % ng , this % Xc ) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xc_all ( this ) result ( Xc ) class ( nurbs_curve ), intent ( in ) :: this real ( rk ), allocatable :: Xc (:,:) if ( allocated ( this % Xc )) then Xc = this % Xc else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xci ( this , n ) result ( Xc ) class ( nurbs_curve ), intent ( in ) :: this integer , intent ( in ) :: n real ( rk ), allocatable :: Xc (:) if ( allocated ( this % Xc )) then if ( n < lbound ( this % Xc , 1 ) . or . n > ubound ( this % Xc , 1 )) then error stop 'Invalid index for control points.' end if Xc = this % Xc ( n ,:) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xcid ( this , n , dir ) result ( Xc ) class ( nurbs_curve ), intent ( in ) :: this integer , intent ( in ) :: n integer , intent ( in ) :: dir real ( rk ) :: Xc if ( allocated ( this % Xc )) then if ( n < lbound ( this % Xc , 1 ) . or . n > ubound ( this % Xc , 1 )) then error stop 'Invalid index for control points.' end if if ( dir < lbound ( this % Xc , 2 ) . or . dir > ubound ( this % Xc , 2 )) then error stop 'Invalid index for control points.' end if Xc = this % Xc ( n , dir ) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xg_all ( this ) result ( Xg ) class ( nurbs_curve ), intent ( in ) :: this real ( rk ), allocatable :: Xg (:,:) if ( allocated ( this % Xg )) then Xg = this % Xg else error stop 'Geometry points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xgi ( this , n ) result ( Xg ) class ( nurbs_curve ), intent ( in ) :: this integer , intent ( in ) :: n real ( rk ), allocatable :: Xg (:) if ( allocated ( this % Xg )) then if ( n < lbound ( this % Xg , 1 ) . or . n > ubound ( this % Xg , 1 )) then error stop 'Invalid index for geometry points.' end if Xg = this % Xg ( n ,:) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xgid ( this , n , dir ) result ( Xg ) class ( nurbs_curve ), intent ( in ) :: this integer , intent ( in ) :: n integer , intent ( in ) :: dir real ( rk ) :: Xg if ( allocated ( this % Xg )) then if ( n < lbound ( this % Xg , 1 ) . or . n > ubound ( this % Xg , 1 )) then error stop 'Invalid index for geometry points.' end if if ( dir < lbound ( this % Xg , 2 ) . or . dir > ubound ( this % Xg , 2 )) then error stop 'Invalid index for geometry points.' end if Xg = this % Xg ( n , dir ) else error stop 'Control points are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Wc_all ( this ) result ( Wc ) class ( nurbs_curve ), intent ( in ) :: this real ( rk ), allocatable :: Wc (:) if ( allocated ( this % Wc )) then Wc = this % Wc else error stop 'The NURBS curve is not rational or weights are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Wci ( this , n ) result ( Wc ) class ( nurbs_curve ), intent ( in ) :: this integer , intent ( in ) :: n real ( rk ) :: Wc if ( allocated ( this % Wc )) then if ( n < lbound ( this % Wc , 1 ) . or . n > ubound ( this % Wc , 1 )) then error stop 'Invalid index for weights.' end if Wc = this % Wc ( n ) else error stop 'The NURBS curve is not rational or weights are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_Xt ( this ) result ( Xt ) class ( nurbs_curve ), intent ( in ) :: this real ( rk ), allocatable :: Xt (:) if ( allocated ( this % Xt )) then Xt = this % Xt else error stop 'Parameter values are not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_ng ( this ) result ( ng ) class ( nurbs_curve ), intent ( in ) :: this integer :: ng ng = this % ng end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine cmp_degree ( this ) class ( nurbs_curve ), intent ( inout ) :: this integer , allocatable :: m (:) m = this % get_multiplicity () this % degree = m ( 1 ) - 1 end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_degree ( this ) result ( degree ) class ( nurbs_curve ), intent ( in ) :: this integer :: degree degree = this % degree end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_knot_all ( this ) result ( knot ) class ( nurbs_curve ), intent ( in ) :: this real ( rk ), allocatable :: knot (:) if ( allocated ( this % knot )) then knot = this % knot else error stop 'Knot vector is not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_knoti ( this , i ) result ( knot ) class ( nurbs_curve ), intent ( in ) :: this integer , intent ( in ) :: i real ( rk ) :: knot if ( allocated ( this % knot )) then if ( i < 1 . or . i > size ( this % knot )) then error stop 'Invalid index for knot vector.' else knot = this % knot ( i ) end if else error stop 'Knot vector is not set.' end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine finalize ( this ) class ( nurbs_curve ), intent ( inout ) :: this if ( allocated ( this % Xc )) deallocate ( this % Xc ) if ( allocated ( this % Xg )) deallocate ( this % Xg ) if ( allocated ( this % Wc )) deallocate ( this % Wc ) if ( allocated ( this % Xt )) deallocate ( this % Xt ) if ( allocated ( this % knot )) deallocate ( this % knot ) if ( allocated ( this % elemConn_Xc_vis )) deallocate ( this % elemConn_Xc_vis ) if ( allocated ( this % elemConn_Xg_vis )) deallocate ( this % elemConn_Xg_vis ) if ( allocated ( this % elemConn )) deallocate ( this % elemConn ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elem_Xc_vis ( this , p ) result ( elemConn ) class ( nurbs_curve ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) integer , intent ( in ), optional :: p if ( present ( p )) then elemConn = elemConn_C0 ( this % nc , p ) else elemConn = elemConn_C0 ( this % nc , 1 ) end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elem_Xg_vis ( this , p ) result ( elemConn ) class ( nurbs_curve ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) integer , intent ( in ), optional :: p if ( present ( p )) then elemConn = elemConn_C0 ( this % ng , p ) else elemConn = elemConn_C0 ( this % ng , 1 ) end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure subroutine export_Xc ( this , filename ) class ( nurbs_curve ), intent ( in ) :: this character ( len =* ), intent ( in ) :: filename integer :: i , nc , nunit integer , allocatable :: elemConn (:,:) ! check if (. not . allocated ( this % Xc )) then error stop 'Control points are not set.' end if if (. not . allocated ( this % elemConn_Xc_vis )) then elemConn = this % cmp_elem_Xc_vis () else elemConn = this % elemConn_Xc_vis end if nc = size ( this % Xc , 1 ) open ( newunit = nunit , file = filename , action = 'write' ) write ( nunit , '(a)' ) '# vtk DataFile Version 2.0' write ( nunit , '(a)' ) 'Generated by ForCAD' write ( nunit , '(a)' ) 'ASCII' write ( nunit , '(a)' ) 'DATASET UNSTRUCTURED_GRID' write ( nunit , '(a,\" \",g0,\" \",a)' ) 'POINTS' , nc , 'double' if ( size ( this % Xc , 2 ) == 2 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xc ( i , 1 ), this % Xc ( i , 2 ), 0.0_rk , i = 1 , nc ) elseif ( size ( this % Xc , 2 ) == 3 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xc ( i , 1 ), this % Xc ( i , 2 ), this % Xc ( i , 3 ) , i = 1 , nc ) else error stop 'Invalid dimension of the control points.' end if write ( nunit , '(a,\" \",g0,\" \",g0)' ) 'CELLS' , size ( elemConn , 1 ), size ( elemConn , 1 ) * ( size ( elemConn , 2 ) + 1 ) write ( nunit , '(g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0)' )& ( 2 , elemConn ( i , 1 ) - 1 , elemConn ( i , 2 ) - 1 , i = 1 , size ( elemConn , 1 )) write ( nunit , '(a,\" \",g0)' ) 'CELL_TYPES' , size ( elemConn , 1 ) write ( nunit , '(g0)' ) ( 3 , i = 1 , size ( elemConn , 1 )) close ( nunit ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure subroutine export_Xg ( this , filename ) class ( nurbs_curve ), intent ( in ) :: this character ( len =* ), intent ( in ) :: filename integer :: i , ng , nunit integer , allocatable :: elemConn (:,:) ! check if (. not . allocated ( this % Xg )) then error stop 'Geometry points are not set.' end if if (. not . allocated ( this % elemConn_Xg_vis )) then elemConn = this % cmp_elem_Xg_vis () else elemConn = this % elemConn_Xg_vis end if ng = size ( this % Xg , 1 ) open ( newunit = nunit , file = filename , action = 'write' ) write ( nunit , '(a)' ) '# vtk DataFile Version 2.0' write ( nunit , '(a)' ) 'Generated by ForCAD' write ( nunit , '(a)' ) 'ASCII' write ( nunit , '(a)' ) 'DATASET UNSTRUCTURED_GRID' write ( nunit , '(a,\" \",g0,\" \",a)' ) 'POINTS' , ng , 'double' if ( size ( this % Xg , 2 ) == 2 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xg ( i , 1 ), this % Xg ( i , 2 ), 0.0_rk , i = 1 , ng ) elseif ( size ( this % Xg , 2 ) == 3 ) then write ( nunit , '(g0,\" \",g0,\" \",g0)' ) ( this % Xg ( i , 1 ), this % Xg ( i , 2 ), this % Xg ( i , 3 ) , i = 1 , ng ) else error stop 'Invalid dimension of the geometry points.' end if write ( nunit , '(a,\" \",g0,\" \",g0)' ) 'CELLS' , size ( elemConn , 1 ), size ( elemConn , 1 ) * ( size ( elemConn , 2 ) + 1 ) write ( nunit , '(g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0,\" \",g0)' )& ( 2 , elemConn ( i , 1 ) - 1 , elemConn ( i , 2 ) - 1 , i = 1 , size ( elemConn , 1 )) write ( nunit , '(a,\" \",g0)' ) 'CELL_TYPES' , size ( elemConn , 1 ) write ( nunit , '(g0)' ) ( 3 , i = 1 , size ( elemConn , 1 )) close ( nunit ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine modify_Xc ( this , X , num , dir ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ) :: X integer , intent ( in ) :: num integer , intent ( in ) :: dir if ( allocated ( this % Xc )) then this % Xc ( num , dir ) = X if ( allocated ( this % Wc )) then call this % set ( knot = this % get_knot (), Xc = this % get_Xc (), Wc = this % get_Wc ()) else call this % set ( knot = this % get_knot (), Xc = this % get_Xc ()) end if else error stop 'Control points are not set.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine modify_Wc ( this , W , num ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ) :: W integer , intent ( in ) :: num if ( allocated ( this % Wc )) then this % Wc ( num ) = W if ( allocated ( this % knot )) then call this % set ( knot = this % get_knot (), Xc = this % get_Xc (), Wc = this % get_Wc ()) else call this % set ( Xc = this % get_Xc (), Wc = this % get_Wc ()) end if else error stop 'The NURBS curve is not rational.' end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_multiplicity ( this ) result ( m ) class ( nurbs_curve ), intent ( in ) :: this integer , allocatable :: m (:) ! check if (. not . allocated ( this % knot )) then error stop 'Knot vector is not set.' else m = compute_multiplicity ( this % knot ) end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_continuity ( this ) result ( c ) class ( nurbs_curve ), intent ( in ) :: this integer , allocatable :: c (:) ! check if (. not . allocated ( this % knot )) then error stop 'Knot vector is not set.' else c = this % degree - compute_multiplicity ( this % knot ) end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine cmp_nc ( this ) class ( nurbs_curve ), intent ( inout ) :: this this % nc = sum ( compute_multiplicity ( this % knot )) - this % degree - 1 end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_nc ( this ) result ( nc ) class ( nurbs_curve ), intent ( in ) :: this integer :: nc nc = this % nc end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine insert_knots ( this , Xth , r ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: Xth (:) integer , intent ( in ), contiguous :: r (:) integer :: k , i , s , dim , j , n_new real ( rk ), allocatable :: Xcw (:,:), Xcw_new (:,:), Xc_new (:,:), Wc_new (:), knot_new (:) if ( this % is_rational ()) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc - 1 , this % degree , Xth ( i ), this % knot ) if ( this % knot ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot , Xth ( i )) else s = 0 end if dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) call insert_knot_A_5_1 (& this % degree ,& this % knot ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xcw_new ) allocate ( Xc_new ( 1 : n_new + 1 , 1 : dim )) allocate ( Wc_new ( 1 : n_new + 1 )) do j = 1 , n_new + 1 Xc_new ( j , 1 : dim ) = Xcw_new ( j - 1 , 1 : dim ) / Xcw_new ( j - 1 , dim + 1 ) Wc_new ( j ) = Xcw_new ( j - 1 , dim + 1 ) end do call this % set ( knot = knot_new , Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc - 1 , this % degree , Xth ( i ), this % knot ) if ( this % knot ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot , Xth ( i )) else s = 0 end if call insert_knot_A_5_1 (& this % degree ,& this % knot ,& this % Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& n_new ,& knot_new ,& Xc_new ) call this % set ( knot = knot_new , Xc = Xc_new ) end do end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine elevate_degree ( this , t ) class ( nurbs_curve ), intent ( inout ) :: this integer , intent ( in ) :: t real ( rk ), allocatable :: Xcw (:,:), Xcw_new (:,:), knot_new (:), Xc_new (:,:), Wc_new (:) integer :: dim , j , nc_new if ( this % is_rational ()) then ! NURBS dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) Xcw ( j , dim + 1 ) = this % Wc ( j ) end do call elevate_degree_A_5_9 ( t , this % knot , this % degree , Xcw , nc_new , knot_new , Xcw_new ) allocate ( Xc_new ( 1 : nc_new , 1 : dim )) allocate ( Wc_new ( 1 : nc_new )) do j = 1 , nc_new Xc_new ( j , 1 : dim ) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot = knot_new , Xc = Xc_new , Wc = Wc_new ) deallocate ( Xcw , Xcw_new , Xc_new , Wc_new ) else ! B-Spline dim = size ( this % Xc , 2 ) call elevate_degree_A_5_9 ( t , this % knot , this % degree , this % Xc , nc_new , knot_new , Xc_new ) call this % set ( knot = knot_new , Xc = Xc_new ) deallocate ( Xc_new ) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine derivative ( this , res , Xt , dTgc ) class ( nurbs_curve ), intent ( inout ) :: this integer , intent ( in ), optional :: res real ( rk ), intent ( in ), contiguous , optional :: Xt (:) real ( rk ), allocatable , intent ( out ) :: dTgc (:,:) integer :: i interface pure function compute_dTgc_nurbs_1d ( f_Xt , f_knot , f_degree , f_nc , f_ng , f_Wc ) result ( f_dTgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:) real ( rk ), intent ( in ), contiguous :: f_knot (:) integer , intent ( in ) :: f_degree integer , intent ( in ) :: f_nc integer , intent ( in ) :: f_ng real ( rk ), intent ( in ), contiguous :: f_Wc (:) real ( rk ), allocatable :: f_dTgc (:,:) end function end interface interface pure function compute_dTgc_bspline_1d ( f_Xt , f_knot , f_degree , f_nc , f_ng ) result ( f_dTgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:) real ( rk ), intent ( in ), contiguous :: f_knot (:) integer , intent ( in ) :: f_degree integer , intent ( in ) :: f_nc integer , intent ( in ) :: f_ng real ( rk ), allocatable :: f_dTgc (:,:) end function end interface ! Set parameter values if ( present ( Xt )) then if ( allocated ( this % Xt )) deallocate ( this % Xt ) this % Xt = Xt elseif ( present ( res )) then if ( allocated ( this % Xt )) deallocate ( this % Xt ) allocate ( this % Xt ( res )) this % Xt = [( real ( i - 1 , rk ) / real ( res - 1 , rk ), i = 1 , res )] ! else ! this%Xt = this%Xt end if ! Set number of geometry points this % ng = size ( this % Xt , 1 ) if ( this % is_rational ()) then ! NURBS dTgc = compute_dTgc_nurbs_1d ( this % Xt , this % knot , this % degree , this % nc , this % ng , this % Wc ) else ! B-Spline dTgc = compute_dTgc_bspline_1d ( this % Xt , this % knot , this % degree , this % nc , this % ng ) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine basis ( this , res , Xt , Tgc ) class ( nurbs_curve ), intent ( inout ) :: this integer , intent ( in ), optional :: res real ( rk ), intent ( in ), contiguous , optional :: Xt (:) real ( rk ), allocatable , intent ( out ) :: Tgc (:,:) integer :: i interface pure function compute_Tgc_nurbs_1d ( f_Xt , f_knot , f_degree , f_nc , f_ng , f_Wc ) result ( f_Tgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:) real ( rk ), intent ( in ), contiguous :: f_knot (:) integer , intent ( in ) :: f_degree integer , intent ( in ) :: f_nc integer , intent ( in ) :: f_ng real ( rk ), intent ( in ), contiguous :: f_Wc (:) real ( rk ), allocatable :: f_Tgc (:,:) end function end interface interface pure function compute_Tgc_bspline_1d ( f_Xt , f_knot , f_degree , f_nc , f_ng ) result ( f_Tgc ) import :: rk real ( rk ), intent ( in ), contiguous :: f_Xt (:) real ( rk ), intent ( in ), contiguous :: f_knot (:) integer , intent ( in ) :: f_degree integer , intent ( in ) :: f_nc integer , intent ( in ) :: f_ng real ( rk ), allocatable :: f_Tgc (:,:) end function end interface ! Set parameter values if ( present ( Xt )) then if ( allocated ( this % Xt )) deallocate ( this % Xt ) this % Xt = Xt elseif ( present ( res )) then if ( allocated ( this % Xt )) deallocate ( this % Xt ) allocate ( this % Xt ( res )) this % Xt = [( real ( i - 1 , rk ) / real ( res - 1 , rk ), i = 1 , res )] ! else ! this%Xt = this%Xt end if ! Set number of geometry points this % ng = size ( this % Xt , 1 ) if ( this % is_rational ()) then ! NURBS Tgc = compute_Tgc_nurbs_1d ( this % Xt , this % knot , this % degree , this % nc , this % ng , this % Wc ) else ! B-Spline Tgc = compute_Tgc_bspline_1d ( this % Xt , this % knot , this % degree , this % nc , this % ng ) end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function is_rational ( this ) result ( r ) class ( nurbs_curve ), intent ( in ) :: this logical :: r r = . false . if ( allocated ( this % Wc )) then if ( any ( this % Wc /= this % Wc ( 1 ))) then r = . true . end if end if end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_elem_Xc_vis ( this , elemConn ) class ( nurbs_curve ), intent ( inout ) :: this integer , intent ( in ), contiguous :: elemConn (:,:) if ( allocated ( this % elemConn_Xc_vis )) deallocate ( this % elemConn_Xc_vis ) this % elemConn_Xc_vis = elemConn end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_elem_Xg_vis ( this , elemConn ) class ( nurbs_curve ), intent ( inout ) :: this integer , intent ( in ), contiguous :: elemConn (:,:) if ( allocated ( this % elemConn_Xg_vis )) deallocate ( this % elemConn_Xg_vis ) this % elemConn_Xg_vis = elemConn end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_elem ( this , elemConn ) class ( nurbs_curve ), intent ( inout ) :: this integer , intent ( in ), contiguous :: elemConn (:,:) if ( allocated ( this % elemConn )) deallocate ( this % elemConn ) this % elemConn = elemConn end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_elem_Xc_vis ( this ) result ( elemConn ) class ( nurbs_curve ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) elemConn = this % elemConn_Xc_vis end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_elem_Xg_vis ( this ) result ( elemConn ) class ( nurbs_curve ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) elemConn = this % elemConn_Xg_vis end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function get_elem ( this ) result ( elemConn ) class ( nurbs_curve ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) elemConn = this % elemConn end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine remove_knots ( this , Xth , r ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: Xth (:) integer , intent ( in ), contiguous :: r (:) integer :: k , i , s , dim , j , nc_new , t real ( rk ), allocatable :: Xcw (:,:), Xcw_new (:,:), Xc_new (:,:), Wc_new (:), knot_new (:) if ( this % is_rational ()) then ! NURBS do i = 1 , size ( Xth ) k = findspan ( this % nc - 1 , this % degree , Xth ( i ), this % knot ) if ( this % knot ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot , Xth ( i )) else s = 0 end if k = k + 1 dim = size ( this % Xc , 2 ) allocate ( Xcw ( size ( this % Xc , 1 ), dim + 1 )) do j = 1 , size ( this % Xc , 1 ) Xcw ( j , 1 : dim ) = this % Xc ( j , 1 : dim ) * this % Wc ( j ) end do Xcw (:, dim + 1 ) = this % Wc (:) call remove_knots_A_5_8 (& this % degree ,& this % knot ,& Xcw ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xcw_new ) if ( allocated ( Xcw )) deallocate ( Xcw ) if ( t == 0 ) then ! no change else nc_new = size ( Xcw_new , 1 ) allocate ( Xc_new ( nc_new , dim )) allocate ( Wc_new ( nc_new )) do j = 1 , nc_new Xc_new ( j ,:) = Xcw_new ( j , 1 : dim ) / Xcw_new ( j , dim + 1 ) end do Wc_new (:) = Xcw_new (:, dim + 1 ) call this % set ( knot = knot_new , Xc = Xc_new , Wc = Wc_new ) if ( allocated ( Xcw_new )) deallocate ( Xcw_new ) if ( allocated ( Xc_new )) deallocate ( Xc_new ) if ( allocated ( Wc_new )) deallocate ( Wc_new ) end if end do else ! B-Spline do i = 1 , size ( Xth ) k = findspan ( this % nc - 1 , this % degree , Xth ( i ), this % knot ) if ( this % knot ( k + 1 ) == Xth ( i )) then s = compute_multiplicity ( this % knot , Xth ( i )) else s = 0 end if k = k + 1 call remove_knots_A_5_8 (& this % degree ,& this % knot ,& this % Xc ,& Xth ( i ),& k ,& s ,& r ( i ),& t ,& knot_new ,& Xc_new ) if ( t == 0 ) then ! no change else call this % set ( knot = knot_new , Xc = Xc_new ) end if end do end if end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_circle ( this , center , radius ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: center (:) real ( rk ), intent ( in ) :: radius real ( rk ), allocatable :: Xc (:,:), Wc (:), knot (:) integer :: i ! Define control points for circle allocate ( Xc ( 7 , 3 )) Xc ( 1 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 3 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 4 ,:) = [ - 2.0_rk , 0.0_rk , 0.0_rk ] Xc ( 5 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 6 ,:) = [ 1.0_rk , - sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 7 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] ! Scale and translate the control points do i = 1 , size ( Xc , 1 ) Xc ( i ,:) = center + Xc ( i ,:) * radius end do ! Define weights for the control points Wc = [ 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ] ! Define knot vector knot = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk / 3.0_rk , 1.0_rk / 3.0_rk , 2.0_rk / 3.0_rk , 2.0_rk / 3.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] ! Set knot vector, control points, and weights call this % set ( knot , Xc , Wc ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_C ( this , center , radius ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: center (:) real ( rk ), intent ( in ) :: radius real ( rk ), allocatable :: Xc (:,:), Wc (:), knot (:) integer :: i ! Define control points for C-shape allocate ( Xc ( 5 , 3 )) Xc ( 1 ,:) = [ 1.0_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 1.0_rk , sqrt ( 3.0_rk ), 0.0_rk ] Xc ( 3 ,:) = [ - 0.5_rk , sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] Xc ( 4 ,:) = [ - 2.0_rk , 0.0_rk , 0.0_rk ] Xc ( 5 ,:) = [ - 0.5_rk , - sqrt ( 3.0_rk ) / 2.0_rk , 0.0_rk ] ! Scale and translate the control points do i = 1 , size ( Xc , 1 ) Xc ( i ,:) = center + Xc ( i ,:) * radius end do ! Define weights for the control points Wc = [ 1.0_rk , 0.5_rk , 1.0_rk , 0.5_rk , 1.0_rk ] ! Define knot vector knot = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk / 2.0_rk , 1.0_rk / 2.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] ! Set knot vector, control points, and weights call this % set ( knot , Xc , Wc ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure function cmp_elem ( this ) result ( elemConn ) class ( nurbs_curve ), intent ( in ) :: this integer , allocatable :: elemConn (:,:) call elemConn_Cn ( this % nc , this % degree , unique ( this % knot ), this % get_multiplicity (),& elemConn ) end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine rotate_Xc ( this , alpha , beta , theta ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ) :: alpha , beta , theta integer :: i do i = 1 , this % nc this % Xc ( i , :) = matmul ( rotation ( alpha , beta , theta ), this % Xc ( i , :)) end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine rotate_Xg ( this , alpha , beta , theta ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ) :: alpha , beta , theta integer :: i do i = 1 , this % ng this % Xg ( i , :) = matmul ( rotation ( alpha , beta , theta ), this % Xg ( i , :)) end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine translate_Xc ( this , vec ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ) :: vec (:) integer :: i do i = 1 , this % nc this % Xc ( i , :) = this % Xc ( i , :) + vec end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine translate_Xg ( this , vec ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ) :: vec (:) integer :: i do i = 1 , this % nc this % Xg ( i , :) = this % Xg ( i , :) + vec end do end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure subroutine show ( this , vtkfile_Xc , vtkfile_Xg ) class ( nurbs_curve ), intent ( inout ) :: this character ( len =* ), intent ( in ) :: vtkfile_Xc , vtkfile_Xg character ( len = 3000 ) :: pyvista_script pyvista_script = & \"import pyvista as pv\" // achar ( 10 ) // & \"pv.global_theme.color = 'white'\" // achar ( 10 ) // & \"Xc = pv.read('\" // trim ( vtkfile_Xc ) // \"')\" // achar ( 10 ) // & \"Xg = pv.read('\" // trim ( vtkfile_Xg ) // \"')\" // achar ( 10 ) // & \"p = pv.Plotter(lighting='light kit')\" // achar ( 10 ) // & \"actor_Xcp = p.add_mesh(\" // achar ( 10 ) // & \" Xc,\" // achar ( 10 ) // & \" style='points',\" // achar ( 10 ) // & \" point_size=10,\" // achar ( 10 ) // & \" color='red',\" // achar ( 10 ) // & \" render_points_as_spheres=True,\" // achar ( 10 ) // & \" opacity=0.5,\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"actor_Xcw = p.add_mesh(\" // achar ( 10 ) // & \" Xc,\" // achar ( 10 ) // & \" show_edges=True,\" // achar ( 10 ) // & \" color='yellow',\" // achar ( 10 ) // & \" line_width=3,\" // achar ( 10 ) // & \" style='wireframe',\" // achar ( 10 ) // & \" opacity=0.2\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"actor_Xg = p.add_mesh(\" // achar ( 10 ) // & \" Xg,\" // achar ( 10 ) // & \" show_edges=False,\" // achar ( 10 ) // & \" color='cyan',\" // achar ( 10 ) // & \" line_width=7,\" // achar ( 10 ) // & \" metallic=0.6,\" // achar ( 10 ) // & \" pbr=True,\" // achar ( 10 ) // & \" split_sharp_edges=True,\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_axes(interactive=False)\" // achar ( 10 ) // & \"def point_picker_callback(point):\" // achar ( 10 ) // & \" mesh = Xc\" // achar ( 10 ) // & \" point_id = mesh.find_closest_point(point)\" // achar ( 10 ) // & \" point_coords = mesh.points[point_id]\" // achar ( 10 ) // & \" label = f'ID: {point_id + 1}\\n({point_coords[0]:.3f}, {point_coords[1]:.3f}, {point_coords[2]:.3f})'\" // achar ( 10 ) // & \" p.add_point_labels(\" // achar ( 10 ) // & \" [point_coords],\" // achar ( 10 ) // & \" [label],\" // achar ( 10 ) // & \" font_size=14,\" // achar ( 10 ) // & \" text_color='black',\" // achar ( 10 ) // & \" show_points=False,\" // achar ( 10 ) // & \" fill_shape=False,\" // achar ( 10 ) // & \" shape=None,\" // achar ( 10 ) // & \" )\" // achar ( 10 ) // & \"picker = p.enable_point_picking(callback=point_picker_callback, show_message=False)\" // achar ( 10 ) // & \"window_size = p.window_size\" // achar ( 10 ) // & \"y_pos = window_size[1]\" // achar ( 10 ) // & \"def Xcp_toggle_vis(flag):\" // achar ( 10 ) // & \" actor_Xcp.SetVisibility(flag)\" // achar ( 10 ) // & \"def Xcw_toggle_vis(flag):\" // achar ( 10 ) // & \" actor_Xcw.SetVisibility(flag)\" // achar ( 10 ) // & \"def Xg_toggle_vis(flag):\" // achar ( 10 ) // & \" actor_Xg.SetVisibility(flag)\" // achar ( 10 ) // & \"p.add_checkbox_button_widget(\" // achar ( 10 ) // & \" Xcp_toggle_vis,\" // achar ( 10 ) // & \" value=True,\" // achar ( 10 ) // & \" color_on='red',\" // achar ( 10 ) // & \" size=25,\" // achar ( 10 ) // & \" position=(0, y_pos - 1 * 25),\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_checkbox_button_widget(\" // achar ( 10 ) // & \" Xcw_toggle_vis,\" // achar ( 10 ) // & \" value=True,\" // achar ( 10 ) // & \" color_on='yellow',\" // achar ( 10 ) // & \" size=25,\" // achar ( 10 ) // & \" position=(0, y_pos - 2 * 25),\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_checkbox_button_widget(\" // achar ( 10 ) // & \" Xg_toggle_vis,\" // achar ( 10 ) // & \" value=True,\" // achar ( 10 ) // & \" color_on='cyan',\" // achar ( 10 ) // & \" size=25,\" // achar ( 10 ) // & \" position=(0, y_pos - 3 * 25),\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'Xc (Points)',\" // achar ( 10 ) // & \" position=(25 + 3, y_pos - 1 * 25),\" // achar ( 10 ) // & \" font_size=8,\" // achar ( 10 ) // & \" color='black',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'Xc (Control geometry)',\" // achar ( 10 ) // & \" position=(25 + 3, y_pos - 2 * 25),\" // achar ( 10 ) // & \" font_size=8,\" // achar ( 10 ) // & \" color='black',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'Xg (Geometry)',\" // achar ( 10 ) // & \" position=(25 + 3, y_pos - 3 * 25),\" // achar ( 10 ) // & \" font_size=8,\" // achar ( 10 ) // & \" color='black',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.add_text('ForCAD', position=(0.0, 10.0), font_size=14, color='black', font='times')\" // achar ( 10 ) // & \"p.add_text(\" // achar ( 10 ) // & \" 'https://github.com/gha3mi/forcad',\" // achar ( 10 ) // & \" position=(0.0, 0.0),\" // achar ( 10 ) // & \" font_size=7,\" // achar ( 10 ) // & \" color='blue',\" // achar ( 10 ) // & \" font='times',\" // achar ( 10 ) // & \")\" // achar ( 10 ) // & \"p.show(title='ForCAD', interactive=True)\" call execute_command_line ( 'python -c \"' // trim ( adjustl ( pyvista_script )) // '\"' ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine set_half_circle ( this , center , radius ) class ( nurbs_curve ), intent ( inout ) :: this real ( rk ), intent ( in ), contiguous :: center (:) real ( rk ), intent ( in ) :: radius real ( rk ), allocatable :: Xc (:,:), Wc (:), knot (:) integer :: i ! Define control points for half circle allocate ( Xc ( 5 , 3 )) Xc ( 1 ,:) = [ 0.5_rk , 0.0_rk , 0.0_rk ] Xc ( 2 ,:) = [ 0.5_rk , 0.5_rk , 0.0_rk ] Xc ( 3 ,:) = [ 0.0_rk , 0.5_rk , 0.0_rk ] Xc ( 4 ,:) = [ - 0.5_rk , 0.5_rk , 0.0_rk ] Xc ( 5 ,:) = [ - 0.5_rk , 0.0_rk , 0.0_rk ] ! Scale and translate the control points do i = 1 , size ( Xc , 1 ) Xc ( i ,:) = center + Xc ( i ,:) * radius end do ! Define weights for the control points Wc = [ 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk , 1.0_rk / sqrt ( 2.0_rk ), 1.0_rk ] ! Define knot vector knot = [ 0.0_rk , 0.0_rk , 0.0_rk , 1.0_rk / 2.0_rk , & 1.0_rk / 2.0_rk , 1.0_rk , 1.0_rk , 1.0_rk ] ! Set knot vector, control points, and weights call this % set ( knot , Xc , Wc ) end subroutine !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause pure subroutine nearest_point ( this , point_Xg , nearest_Xg , nearest_Xt , id ) class ( nurbs_curve ), intent ( in ) :: this real ( rk ), intent ( in ) :: point_Xg (:) real ( rk ), intent ( out ), allocatable , optional :: nearest_Xg (:) real ( rk ), intent ( out ), optional :: nearest_Xt integer , intent ( out ), optional :: id integer :: id_ real ( rk ), allocatable :: distances (:) interface pure function nearest_point_help_1d ( f_ng , f_Xg , f_point_Xg ) result ( f_distances ) import :: rk integer , intent ( in ) :: f_ng real ( rk ), intent ( in ), contiguous :: f_Xg (:,:) real ( rk ), intent ( in ), contiguous :: f_point_Xg (:) real ( rk ), allocatable :: f_distances (:) end function end interface allocate ( distances ( this % ng )) distances = nearest_point_help_1d ( this % ng , this % Xg , point_Xg ) id_ = minloc ( distances , dim = 1 ) if ( present ( id )) id = id_ if ( present ( nearest_Xg )) nearest_Xg = this % Xg ( id_ ,:) if ( present ( nearest_Xt )) nearest_Xt = this % Xt ( id_ ) end subroutine !=============================================================================== end module forcad_nurbs_curve !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Xg_nurbs_1d ( Xt , knot , degree , nc , ng , Xc , Wc ) result ( Xg ) use forcad_utils , only : rk , basis_bspline implicit none real ( rk ), intent ( in ), contiguous :: Xt (:) real ( rk ), intent ( in ), contiguous :: knot (:) integer , intent ( in ) :: degree integer , intent ( in ) :: nc integer , intent ( in ) :: ng real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), intent ( in ), contiguous :: Wc (:) real ( rk ), allocatable :: Xg (:,:) real ( rk ), allocatable :: Tgc (:) integer :: i allocate ( Xg ( ng , size ( Xc , 2 ))) allocate ( Tgc ( nc )) !$OMP PARALLEL DO PRIVATE(Tgc) do i = 1 , ng Tgc = basis_bspline ( Xt ( i ), knot , nc , degree ) Tgc = Tgc * ( Wc / ( dot_product ( Tgc , Wc ))) Xg ( i ,:) = matmul ( Tgc , Xc ) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Xg_bspline_1d ( Xt , knot , degree , nc , ng , Xc ) result ( Xg ) use forcad_utils , only : rk , basis_bspline implicit none real ( rk ), intent ( in ), contiguous :: Xt (:) real ( rk ), intent ( in ), contiguous :: knot (:) integer , intent ( in ) :: degree integer , intent ( in ) :: nc integer , intent ( in ) :: ng real ( rk ), intent ( in ), contiguous :: Xc (:,:) real ( rk ), allocatable :: Xg (:,:) integer :: i allocate ( Xg ( ng , size ( Xc , 2 ))) !$OMP PARALLEL DO do i = 1 , ng Xg ( i ,:) = matmul ( basis_bspline ( Xt ( i ), knot , nc , degree ), Xc ) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_dTgc_nurbs_1d ( Xt , knot , degree , nc , ng , Wc ) result ( dTgc ) use forcad_utils , only : rk , basis_bspline_der implicit none real ( rk ), intent ( in ), contiguous :: Xt (:) real ( rk ), intent ( in ), contiguous :: knot (:) integer , intent ( in ) :: degree integer , intent ( in ) :: nc integer , intent ( in ) :: ng real ( rk ), intent ( in ), contiguous :: Wc (:) real ( rk ), allocatable :: dTgc (:,:) real ( rk ), allocatable :: dTgci (:) integer :: i allocate ( dTgc ( ng , nc )) !$OMP PARALLEL DO PRIVATE(dTgci) do i = 1 , size ( Xt ) dTgci = basis_bspline_der ( Xt ( i ), knot , nc , degree ) dTgci = dTgci * ( Wc / ( dot_product ( dTgci , Wc ))) dTgc ( i ,:) = dTgci end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_dTgc_bspline_1d ( Xt , knot , degree , nc , ng ) result ( dTgc ) use forcad_utils , only : rk , basis_bspline_der implicit none real ( rk ), intent ( in ), contiguous :: Xt (:) real ( rk ), intent ( in ), contiguous :: knot (:) integer , intent ( in ) :: degree integer , intent ( in ) :: nc integer , intent ( in ) :: ng real ( rk ), allocatable :: dTgc (:,:) integer :: i allocate ( dTgc ( ng , nc )) !$OMP PARALLEL DO do i = 1 , size ( Xt ) dTgc ( i ,:) = basis_bspline_der ( Xt ( i ), knot , nc , degree ) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Tgc_nurbs_1d ( Xt , knot , degree , nc , ng , Wc ) result ( Tgc ) use forcad_utils , only : rk , basis_bspline implicit none real ( rk ), intent ( in ), contiguous :: Xt (:) real ( rk ), intent ( in ), contiguous :: knot (:) integer , intent ( in ) :: degree integer , intent ( in ) :: nc integer , intent ( in ) :: ng real ( rk ), intent ( in ), contiguous :: Wc (:) real ( rk ), allocatable :: Tgc (:,:) real ( rk ), allocatable :: Tgci (:) integer :: i allocate ( Tgc ( ng , nc )) !$OMP PARALLEL DO PRIVATE(Tgci) do i = 1 , size ( Xt , 1 ) Tgci = basis_bspline ( Xt ( i ), knot , nc , degree ) Tgci = Tgci * ( Wc / ( dot_product ( Tgci , Wc ))) Tgc ( i ,:) = Tgci end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function compute_Tgc_bspline_1d ( Xt , knot , degree , nc , ng ) result ( Tgc ) use forcad_utils , only : rk , basis_bspline implicit none real ( rk ), intent ( in ), contiguous :: Xt (:) real ( rk ), intent ( in ), contiguous :: knot (:) integer , intent ( in ) :: degree integer , intent ( in ) :: nc integer , intent ( in ) :: ng real ( rk ), allocatable :: Tgc (:,:) integer :: i allocate ( Tgc ( ng , nc )) !$OMP PARALLEL DO do i = 1 , size ( Xt , 1 ) Tgc ( i ,:) = basis_bspline ( Xt ( i ), knot , nc , degree ) end do !$OMP END PARALLEL DO end function !=============================================================================== !=============================================================================== !> author: Seyed Ali Ghasemi !> license: BSD 3-Clause impure function nearest_point_help_1d ( ng , Xg , point_Xg ) result ( distances ) use forcad_utils , only : rk implicit none integer , intent ( in ) :: ng real ( rk ), intent ( in ), contiguous :: Xg (:,:) real ( rk ), intent ( in ), contiguous :: point_Xg (:) real ( rk ), allocatable :: distances (:) integer :: i allocate ( distances ( ng )) !$OMP PARALLEL DO do i = 1 , ng distances ( i ) = norm2 ( Xg ( i ,:) - point_Xg ) end do !$OMP END PARALLEL DO end function !===============================================================================","tags":"","loc":"sourcefile/forcad_nurbs_curve.f90.html"},{"title":"shape_half_circle.f90 – ForCAD","text":"This file depends on sourcefile~~shape_half_circle.f90~~EfferentGraph sourcefile~shape_half_circle.f90 shape_half_circle.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_half_circle.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_half_circle use forcad , only : rk , nurbs_curve implicit none type ( nurbs_curve ) :: shape !> Set up a half circle shape centered at the 0,0,0 with a radius of 1 call shape % set_half_circle ([ 0.0_rk , 0.0_rk , 0.0_rk ], 1.0_rk ) !> Export the control points to a VTK file for visualization. call shape % export_Xc ( 'vtk/shape_half_circle_Xc.vtk' ) !> Create the shape using the specified number of elements in each direction. call shape % create ( 60 ) !> Export the geometry to a VTK file for visualization. call shape % export_Xg ( 'vtk/shape_half_circle_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_half_circle_Xc.vtk' , 'vtk/shape_half_circle_Xg.vtk' ) !> Finalize and clean up the shape object. call shape % finalize () end program","tags":"","loc":"sourcefile/shape_half_circle.f90.html"},{"title":"shape_C_1d.f90 – ForCAD","text":"This file depends on sourcefile~~shape_c_1d.f90~~EfferentGraph sourcefile~shape_c_1d.f90 shape_C_1d.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_c_1d.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_C_1d use forcad , only : rk , nurbs_curve implicit none type ( nurbs_curve ) :: shape !----------------------------------------------------------------------------- ! Setting up NURBS C-shape !----------------------------------------------------------------------------- !> Set a C-shape with radius 2.0 and center at [0.0, 0.0, 0.0] call shape % set_C ( center = [ 0.0_rk , 0.0_rk , 0.0_rk ], radius = 2.0_rk ) !> Export control points to a VTK file call shape % export_Xc ( 'vtk/shape_C_1d_Xc.vtk' ) !----------------------------------------------------------------------------- ! Creating C-shape !----------------------------------------------------------------------------- !> Generate the NURBS C-shape with a resolution of 100 call shape % create ( res = 100 ) !> Export the generated cirlce to a VTK file call shape % export_Xg ( 'vtk/shape_C_1d_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_C_1d_Xc.vtk' , 'vtk/shape_C_1d_Xg.vtk' ) !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS curve object call shape % finalize () end program","tags":"","loc":"sourcefile/shape_c_1d.f90.html"},{"title":"nearest_point_3d.f90 – ForCAD","text":"This file depends on sourcefile~~nearest_point_3d.f90~~EfferentGraph sourcefile~nearest_point_3d.f90 nearest_point_3d.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~nearest_point_3d.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program nearest_point_3d use forcad , only : rk , nurbs_volume implicit none type ( nurbs_volume ) :: shape !! Declare a NURBS volume object real ( rk ), allocatable :: nearest_Xg (:) !! Coordinates of the nearest point on the volume real ( rk ), allocatable :: nearest_Xt (:) !! Corresponding parametric coordinates of the nearest point integer :: id !! id of the nearest point !----------------------------------------------------------------------------- ! Setting up the NURBS hexahedron !----------------------------------------------------------------------------- !> Set up a hexahedron shape with dimensions L = [2.0, 4.0, 8.0] and a specified number of control points nc = [4, 6, 8]. !> The weights of the control points (Wc) are optional. call shape % set_hexahedron ( L = [ 2.0_rk , 4.0_rk , 8.0_rk ], nc = [ 4 , 6 , 8 ]) !----------------------------------------------------------------------------- ! Creating the NURBS volume !----------------------------------------------------------------------------- !> Generate the NURBS volume with resolutions of 8, 16 and 32 call shape % create ( 8 , 16 , 32 ) !----------------------------------------------------------------------------- ! Nearest point on the volume !----------------------------------------------------------------------------- !> Find the nearest point on the volume to a given point ! nearest_Xg: Coordinates of the nearest point on the volume (optional) ! nearest_Xt: Corresponding parametric coordinates of the nearest point (optional) ! id: id of the nearest point (optional) call shape % nearest_point ([ 2.0_rk , 3.0_rk , 5.0_rk ], nearest_Xg , nearest_Xt , id ) print * , 'Nearest point on the volume:' , nearest_Xg , 'with parametric coordinates:' , nearest_Xt , 'and id:' , id !----------------------------------------------------------------------------- ! Finalizing !----------------------------------------------------------------------------- !> Finalize the NURBS volume object call shape % finalize () deallocate ( nearest_Xg , nearest_Xt ) end program","tags":"","loc":"sourcefile/nearest_point_3d.f90.html"},{"title":"shape_half_ring_3d.f90 – ForCAD","text":"This file depends on sourcefile~~shape_half_ring_3d.f90~~EfferentGraph sourcefile~shape_half_ring_3d.f90 shape_half_ring_3d.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_half_ring_3d.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_half_ring_3d use forcad , only : rk , nurbs_volume implicit none type ( nurbs_volume ) :: shape !> Set up a half ring centered at 0,0,0 with inner radius 1, outer radius 2, and length 1. call shape % set_half_ring ([ 0.0_rk , 0.0_rk , 0.0_rk ], 1.0_rk , 2.0_rk , 1.0_rk ) !> Export the control points to a VTK file for visualization. call shape % export_Xc ( 'vtk/shape_half_ring_3d_Xc.vtk' ) !> Create the shape using the specified number of elements in each direction. call shape % create ( 60 , 15 , 10 ) !> Export the geometry to a VTK file for visualization. call shape % export_Xg ( 'vtk/shape_half_ring_3d_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_half_ring_3d_Xc.vtk' , 'vtk/shape_half_ring_3d_Xg.vtk' ) !> Finalize and clean up the shape object. call shape % finalize () end program","tags":"","loc":"sourcefile/shape_half_ring_3d.f90.html"},{"title":"shape_hexahedron.f90 – ForCAD","text":"This file depends on sourcefile~~shape_hexahedron.f90~~EfferentGraph sourcefile~shape_hexahedron.f90 shape_hexahedron.f90 sourcefile~forcad.f90 forcad.f90 sourcefile~shape_hexahedron.f90->sourcefile~forcad.f90 sourcefile~forcad_nurbs_curve.f90 forcad_nurbs_curve.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_curve.f90 sourcefile~forcad_nurbs_surface.f90 forcad_nurbs_surface.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_surface.f90 sourcefile~forcad_nurbs_volume.f90 forcad_nurbs_volume.f90 sourcefile~forcad.f90->sourcefile~forcad_nurbs_volume.f90 sourcefile~forcad_utils.f90 forcad_utils.f90 sourcefile~forcad.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_curve.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_surface.f90->sourcefile~forcad_utils.f90 sourcefile~forcad_nurbs_volume.f90->sourcefile~forcad_utils.f90 Help Graph Key Nodes of different colours represent the following: Graph Key Source File Source File This Page's Entity This Page's Entity Solid arrows point from a file to a file which it depends on. A file\nis dependent upon another if the latter must be compiled before the former\ncan be. Where possible, edges connecting nodes are\ngiven different colours to make them easier to distinguish in\nlarge graphs. Source Code program shape_hexahedron use forcad , only : rk , nurbs_volume implicit none type ( nurbs_volume ) :: shape !> Set up a hexahedron shape with dimensions L = [2.0, 4.0, 8.0] and a specified number of control points nc = [4, 6, 8]. !> The weights of the control points (Wc) are optional. call shape % set_hexahedron ( L = [ 2.0_rk , 4.0_rk , 8.0_rk ], nc = [ 4 , 6 , 8 ]) ! Additional modifications can be made to control points and weights, or the NURBS can be refined using knot insertion or degree elevation. ! call shape%insert_knots(...) ! call shape%elevate_degree(...) ! ... !> Export the control points to a VTK file for visualization. call shape % export_Xc ( 'vtk/shape_hexahedron_Xc.vtk' ) !> Create the shape using the specified number of elements in each direction. call shape % create ( 8 , 16 , 32 ) !> Export the geometry to a VTK file for visualization. call shape % export_Xg ( 'vtk/shape_hexahedron_Xg.vtk' ) !----------------------------------------------------------------------------- ! Visualization using PyVista ! Note: PyVista is required for visualization. Install it using `pip install pyvista` !----------------------------------------------------------------------------- !> Show the control geometry and geometry using PyVista call shape % show ( 'vtk/shape_hexahedron_Xc.vtk' , 'vtk/shape_hexahedron_Xg.vtk' ) !> Finalize and clean up the shape object. call shape % finalize () end program","tags":"","loc":"sourcefile/shape_hexahedron.f90.html"}]} \ No newline at end of file diff --git a/type/nurbs_curve.html b/type/nurbs_curve.html index 09bfcbe74..6121d099e 100644 --- a/type/nurbs_curve.html +++ b/type/nurbs_curve.html @@ -118,17 +118,17 @@

    Variables

    @@ -155,62 +155,62 @@

    Type-Bound Procedures

    @@ -243,7 +243,7 @@

    Components
    - + real(kind=rk), private,
    - + real(kind=rk), private,
    - + real(kind=rk), private,
    - + real(kind=rk), private,
    - + integer, private
    - + integer, private,
    - + integer, private,
    - + integer, private,
    - + real(kind=rk), private,
    - + integer, private
    - + integer, private
    - + real(kind=rk), private,
    - + real(kind=rk), private,
    - + real(kind=rk), private,
    - + real(kind=rk), private,
    - + integer, private
    - + integer, private,
    - + integer, private,
    - + integer, private,
    - + integer, private
    - + integer, private
    - + real(kind=rk), private,
    - + real(kind=rk), private,
    - + real(kind=rk), private,
    - + real(kind=rk), private,
    - + integer, private
    - + integer, private,
    - + real(kind=rk), private,
    - + integer, private
    - + integer, private