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Merge pull request #16 from gha3mi/dev
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Feature Enhancements and Bug Fixes
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gha3mi authored Jun 22, 2024
2 parents 6434ba8 + 4144211 commit 206fa79
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3 changes: 0 additions & 3 deletions .github/workflows/fpm.yml
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Expand Up @@ -13,15 +13,12 @@ jobs:
toolchain:
- {compiler: gcc}
- {compiler: intel}
- {compiler: intel-classic}
- {compiler: nvidia-hpc}
exclude:
- os: windows-latest
toolchain: {compiler: nvidia-hpc}
- os: windows-latest
toolchain: {compiler: intel}
- os: windows-latest
toolchain: {compiler: intel-classic}
- os: macos-latest
toolchain: {compiler: nvidia-hpc}

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12 changes: 11 additions & 1 deletion CHANGELOG.md
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Expand Up @@ -28,6 +28,12 @@ The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.1.0/),
- Added `cmp_elemFace()` to extract element connectivity of faces.
- Added `cmp_degreeFace()` to extract the degrees of faces.
- Updated `example_volume_1` to use `cmp_elemFace()` and `cmp_degreeFace()`.
- Added `cmp_Xg()` to evaluate the geometry points.
- Added generic method `derivative2()` to compute the second derivative of a NURBS objects.
- Added `nearest_point2()` to compute the nearest point on a NURBS object using optimization.
- Added Interfaces.
- Added new tests: fdm_curve.f90, fdm_surface.f90, fdm_volume.f90.
- Updated nearest_point_* examples to use the new `nearest_point2()` method.

### Changed

Expand All @@ -44,7 +50,11 @@ The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.1.0/),
- Improved `elemConn_C0` to support higher order elements and check for the number of elements.
- Renamed test files to match the module name.
- Used `do concurrent` within `kron` and `basis_bspline` functions.
- Converted the `basis_bspline_der` function to a subroutine.
- Fixed NURBS derivative calculations.
- Made `basis` and `derivative` generic methods.

### Removed

- Excluded macOS from CI due to a problem with fpm.
- Excluded macOS from CI due to a problem with fpm.
- Removed `intel-classic` from CI (`ifort` is deprecated).
56 changes: 43 additions & 13 deletions example/nearest_point_1d.f90
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Expand Up @@ -4,24 +4,40 @@ program nearest_point_1d

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
type(nurbs_curve) :: shape !! Declare a NURBS curve object
real(rk), allocatable :: Xc(:,:), Wc(:) !! Arrays for control points and weights
real(rk) :: knot(6) !! Array for knot vector
real(rk), allocatable :: nearest_Xg(:) !! Array for the nearest point on the curve
real(rk) :: nearest_Xt !! Array for the parametric coordinates of the nearest point
integer :: id !! Variable for the id of the nearest point

!-----------------------------------------------------------------------------
! Setting up the NURBS circle
! Setting up the NURBS curve
!-----------------------------------------------------------------------------

!> 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)
!> 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, 1.1_rk, 1.0_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 shape%set(knot, Xc, Wc)

!-----------------------------------------------------------------------------
! Creating circle
! Creating the NURBS curve
!-----------------------------------------------------------------------------

!> Generate the NURBS circle with a resolution of 100
call shape%create(res = 100)
!> Generate the NURBS curve with a resolution of 20
call shape%create(20)

!-----------------------------------------------------------------------------
! Nearest point on the curve
Expand All @@ -31,15 +47,29 @@ program nearest_point_1d
! 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
call shape%nearest_point([4.5_rk, 4.5_rk, 5.0_rk], nearest_Xg, nearest_Xt, id)
print '(a,1x,g0,2x,g0,2x,g0,a,2x,g0,2x,a,1x,g0)',&
'Nearest point on the curve:', nearest_Xg, ' with parametric coordinates:', nearest_Xt, ' and id:', id

!-----------------------------------------------------------------------------
! Nearest point on the curve (Optimization)
!-----------------------------------------------------------------------------

!> Find the nearest point on the curve to a given point
!> The optimization method is used to find the nearest point
!> The optimization method is based on the Newton-Raphson method
! nearest_Xt: Corresponding parametric coordinates of the nearest point
! nearest_Xg: Coordinates of the nearest point on the curve (optional)
call shape%nearest_point2([4.5_rk, 4.5_rk, 5.0_rk], 1.0e-11_rk, 30, nearest_Xt, nearest_Xg)
print '(a,1x,g0,2x,g0,a,2x,g0,2x,g0)',&
'Nearest point on the curve:', nearest_Xg, ' with parametric coordinates:', nearest_Xt

!-----------------------------------------------------------------------------
! Finalizing
!-----------------------------------------------------------------------------

!> Finalize the NURBS curve object
call shape%finalize()
deallocate(nearest_Xg)
deallocate(nearest_Xg, Xc, Wc)

end program
35 changes: 29 additions & 6 deletions example/nearest_point_2d.f90
Original file line number Diff line number Diff line change
Expand Up @@ -8,14 +8,23 @@ program nearest_point_2d
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) :: Xc(4,3) !! Control points
real(rk) :: Wc(4) !! Weights of the control points

!-----------------------------------------------------------------------------
! 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
!> Set a surface with 4 control points
Xc(1,:) = [0.0_rk, 0.0_rk, 0.0_rk]
Xc(2,:) = [2.0_rk, 0.0_rk, 0.0_rk]
Xc(3,:) = [0.0_rk, 2.0_rk, 0.0_rk]
Xc(4,:) = [2.0_rk, 2.0_rk, 0.0_rk]

!> The weights of the control points (Wc) are optional.
call shape%set_tetragon(L=[2.0_rk, 3.0_rk], nc=[3,4])
Wc = [1.0_rk, 1.1_rk, 0.7_rk, 1.0_rk]

call shape%set(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], Xc=Xc, Wc=Wc)

!-----------------------------------------------------------------------------
! Creating the NURBS surface
Expand All @@ -25,22 +34,36 @@ program nearest_point_2d
call shape%create(30, 30)

!-----------------------------------------------------------------------------
! Nearest point on the surface
! Nearest point on the surface (Approximation)
!-----------------------------------------------------------------------------

!> 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
call shape%nearest_point([1.3_rk, 1.0_rk, 1.999999999_rk], nearest_Xg, nearest_Xt, id)
print '(a,1x,g0,2x,g0,2x,g0,a,2x,g0,2x,g0,2x,a,1x,g0)',&
'Nearest point on the surface:', nearest_Xg, ' with parametric coordinates:', nearest_Xt, ' and id:', id

!-----------------------------------------------------------------------------
! Nearest point on the surface (Optimization)
!-----------------------------------------------------------------------------

!> Find the nearest point on the surface to a given point
!> The optimization method is used to find the nearest point
!> The optimization method is based on the Newton-Raphson method
! nearest_Xt: Corresponding parametric coordinates of the nearest point
! nearest_Xg: Coordinates of the nearest point on the surface (optional)
call shape%nearest_point2([1.3_rk, 1.0_rk, 1.999999999_rk], 1.0e-11_rk, 30, nearest_Xt, nearest_Xg)
print '(a,1x,g0,2x,g0,2x,g0,a,2x,g0,2x,g0)',&
'Nearest point on the surface:', nearest_Xg, ' with parametric coordinates:', nearest_Xt

!-----------------------------------------------------------------------------
! Finalizing
!-----------------------------------------------------------------------------

!> Finalize the NURBS surface object
call shape%finalize()
deallocate(nearest_Xg, nearest_Xt)
! deallocate(nearest_Xg, nearest_Xt)

end program
44 changes: 37 additions & 7 deletions example/nearest_point_3d.f90
Original file line number Diff line number Diff line change
Expand Up @@ -8,21 +8,37 @@ program nearest_point_3d
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
real(rk) :: Xc(8,3) !! Control points
real(rk) :: Wc(8) !! Weights of the control points

!-----------------------------------------------------------------------------
! 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].
Xc(1,:) = [0.0_rk, 0.0_rk, 0.0_rk]
Xc(2,:) = [2.0_rk, 0.0_rk, 0.0_rk]
Xc(3,:) = [0.0_rk, 4.0_rk, 0.0_rk]
Xc(4,:) = [2.0_rk, 4.0_rk, 0.0_rk]
Xc(5,:) = [0.0_rk, 0.0_rk, 2.0_rk]
Xc(6,:) = [2.0_rk, 0.0_rk, 2.0_rk]
Xc(7,:) = [0.0_rk, 4.0_rk, 2.0_rk]
Xc(8,:) = [2.0_rk, 4.0_rk, 2.0_rk]

!> 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])
Wc = [1.0_rk, 1.1_rk, 1.11_rk, 1.0_rk, 0.5_rk, 0.5_rk, 1.2_rk, 1.0_rk]

call shape%set(&
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],&
Xc=Xc, Wc=Wc)

!-----------------------------------------------------------------------------
! Creating the NURBS volume
!-----------------------------------------------------------------------------

!> Generate the NURBS volume with resolutions of 8, 16 and 32
call shape%create(8, 16, 32)
!> Generate the NURBS volume with resolutions of 20, 20, 20
call shape%create(30, 30, 30)

!-----------------------------------------------------------------------------
! Nearest point on the volume
Expand All @@ -32,15 +48,29 @@ program nearest_point_3d
! 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
call shape%nearest_point([1.5_rk, 3.5_rk, 1.1_rk], nearest_Xg, nearest_Xt, id)
print '(a,1x,g0,2x,g0,2x,g0,a,2x,g0,2x,g0,2x,g0,2x,a,1x,g0)',&
'Nearest point on the volume:', nearest_Xg, ' with parametric coordinates:', nearest_Xt, ' and id:', id

!-----------------------------------------------------------------------------
! Nearest point on the volume (Optimization)
!-----------------------------------------------------------------------------

!> Find the nearest point on the volume to a given point
!> The optimization method is used to find the nearest point
!> The optimization method is based on the Newton-Raphson method
! nearest_Xt: Corresponding parametric coordinates of the nearest point
! nearest_Xg: Coordinates of the nearest point on the volume (optional)
call shape%nearest_point2([1.5_rk, 3.5_rk, 1.1_rk], 1.0e-11_rk, 500, nearest_Xt, nearest_Xg)
print '(a,1x,g0,2x,g0,2x,g0,a,2x,g0,2x,g0,2x,g0)',&
'Nearest point on the volume:', nearest_Xg, ' with parametric coordinates:', nearest_Xt

!-----------------------------------------------------------------------------
! Finalizing
!-----------------------------------------------------------------------------

!> Finalize the NURBS volume object
call shape%finalize()
deallocate(nearest_Xg, nearest_Xt)
! deallocate(nearest_Xg, nearest_Xt)

end program
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