Make_template_combos

# This is not a standalone Makefile
# It is intended to be included in other Makefiles

# It defines standard ccmbinations of generic object files for building code
# These definitions are intended to apply to all builds.
# If you want to customize a build, this list can be used as a starting point
# for making changes.


######################################################################
# Standard lattice routines
######################################################################

# These are required for essentially all applications

STANDARD_OBJECTS = \
  field_translation.o \
  field_utilities.o  \
  gauge_utilities.o  \
  io_detect.o \
  io_helpers.o \
  io_lat_utils.o \
  make_lattice.o \
  ranstuff.o \
  remap_stdio_from_args.o

ifeq ($(strip ${HAVEQIO}),true)
  STANDARD_OBJECTS +=  file_types_milc_usqcd.o io_scidac.o io_scidac_types.o
endif

# These use the gauge field extensively

GAUGE_OBJECTS = \
  ape_smear.o        \
  check_unitarity.o  \
  d_plaq4.o          \
  gaugefix2.o        \
  io_lat4.o \
  momentum_twist.o \
  nersc_cksum.o \
  path_product.o     \
  project_su3_hit.o  \
  reunitarize2.o     \
  show_generic_opts.o

ifeq ($(strip ${HAVEQOP}),true)
  GAUGE_OBJECTS += map_milc_to_qopqdp.o milc_to_qop_utilities.o
endif

ifeq ($(strip ${WANTQUDA}),true)
  GAUGE_OBJECTS += milc_to_quda_utilities.o
endif

ifeq ($(strip ${HAVEFFTW}),true)
  FFT_OBJECTS = remap_fftw_fourier.o
else
  FFT_OBJECTS = restrict_fourier.o
endif

######################################################################
# Standard fermion routines
######################################################################

# These are needed for either KS or Clover sources:

FERMION_OBJECTS = \
  discretize_wf.o    \
  gammas.o \
  io_source_cmplx_fm.o \
  phases.o \
  quark_source.o     \
  quark_source_io.o  \
  quark_source_sink_op.o \
  spin_taste_ops.o

# These are used to build propagators

KS_LINKS_OBJECTS = \
  fermion_links_from_site.o \
  f_meas.o \
  gauss_smear_ks.o \
  grsource_imp.o    \
  naik_eps_utilities.o \
  path_transport.o \
  rephase.o      \
  show_generic_ks_opts.o \
  show_hisq_links_opts.o \
  show_hypisq_links_opts.o


# These are used to read propagators

KS_IO_OBJECTS =  \
  io_helpers_ks.o   \
  io_prop_ks.o \
  io_prop_ks_fm.o \
  io_source_ks_fm.o

# These are used to compute the spectrum

KS_SPECTRUM_OBJECTS = \
  ks_baryon.o \
  ks_meson_mom.o

ifeq ($(strip ${HAVEQIO}),true)
  KS_IO_OBJECTS += io_scidac_ks.o
endif

# These are used to build propagators

CL_LINKS_OBJECTS = \
  gauss_smear_w.o

# These are used to read propagators

CL_IO_OBJECTS  = \
  canopy2weyl_rot.o  \
  io_helpers_w.o     \
  io_prop_w.o        \
  io_prop_w_fm.o     \
  io_source_w_fm.o   \
  staggered2naive.o 

# These are used to compute the spectrum

CL_SPECTRUM_OBJECTS = \
  baryon_cont.o      \
  w_baryon.o         \
  w_baryon_hl.o      \
  w_meson_mom.o      \
  w_meson_open_mom.o


ifeq ($(strip ${HAVEQIO}),true)
  CL_IO_OBJECTS += io_scidac_w.o
endif

######################################################################
# Staggered fermion links routines
######################################################################

# Standard MILC combinations

  FLINKS =  fermion_links.o fermion_links_fn_load_milc.o \
    fermion_links_fn_twist_milc.o general_staple.o fn_links_milc.o

  FLINKS_FN_MILC_CPU = fermion_links_milc.o ${FLINKS} ks_action_paths.o

  FLINKS_HISQ_MILC_CPU = fermion_links_hisq_milc.o fermion_links_hisq_load_milc.o \
    ${FLINKS} ks_action_paths_hisq.o su3_mat_op.o stout_smear.o

  FLINKS_HYPISQ_MILC_CPU = fermion_links_hypisq_milc.o fermion_links_hypisq_load_milc.o \
    ${FLINKS} ks_action_paths_hypisq.o su3_mat_op.o stout_smear.o

  FLINKS_EO_MILC = fermion_links.o fermion_links_milc.o fermion_links_eo_load_milc.o \
    eo_links_milc.o ks_action_paths.o

# GPU support

  FLINKS_FN_MILC_GPU = fermion_links_milc.o \
	fermion_links_fn_load_gpu.o \
	${FLINKS} ks_action_paths.o
  
  FLINKS_HISQ_MILC_GPU = fermion_links_hisq_milc.o \
	fermion_links_fn_load_gpu.o \
	fermion_links_hisq_load_milc.o fermion_links_hisq_load_gpu.o \
	${FLINKS} ks_action_paths_hisq.o su3_mat_op.o stout_smear.o

# Standard QOP combinations

  FLINKS_QOP = fermion_links.o

  FLINKS_FN_QOP = ${FLINKS_QOP} fn_links_qop.o fermion_links_asqtad_qop.o \
      fermion_links_fn_twist_qop.o ks_action_coeffs_asqtad_qop.o ks_action_paths.o

  FLINKS_HISQ_QOP = ${FLINKS_QOP} fn_links_qop.o hisq_links_qop.o \
      fermion_links_hisq_qop.o fermion_links_fn_twist_qop.o \
      ks_action_coeffs_hisq_qop.o ks_action_paths_hisq.o \
      su3_mat_op.o

# Generic actions are not supported in QOP, so we use MILC
  FLINKS_EO_QOP = ${FLINKS_EO_MILC}

ifeq ($(strip ${HAVE_FL_GPU}),true)
  FLINKS_FN_MILC = ${FLINKS_FN_MILC_GPU}
  FLINKS_HISQ_MILC = ${FLINKS_HISQ_MILC_GPU}
else
  FLINKS_FN_MILC = ${FLINKS_FN_MILC_CPU}
  FLINKS_HISQ_MILC = ${FLINKS_HISQ_MILC_CPU}
  FLINKS_HYPISQ_MILC = ${FLINKS_HYPISQ_MILC_CPU}
endif

######################################################################
# Staggered Dslash routine
######################################################################

# Standard MILC

# Choices here are dslash_fn.o dslash_fn2.o dslash_fn_dblstore.o
  DSLASH_FN_MILC = dslash_fn_dblstore.o

# No other choice
  DSLASH_EO = dslash_eo.o

  DSLASH_CL =  dslash_w_space.o dslash_w3.o

# Standard QOP

  DSLASH_FN_QOP = dslash_fn_qop.o


######################################################################
# Staggered single-mass inverters
######################################################################

# Standard MILC combinations

  CONGRAD_FN_BASE = mat_invert.o ks_invert.o d_congrad5_fn.o d_congrad_opt.o report_invert_status.o

  CONGRAD_FN_MILC_CPU = d_congrad5_two_src.o d_congrad5_fn_milc.o ${CONGRAD_FN_BASE}

# No other choice
  CONGRAD_EO = d_congrad5_eo.o d_congrad_opt.o mat_invert.o ks_invert.o report_invert_status.o

# GPU support

  CONGRAD_FN_MILC_GPU = d_congrad5_fn_gpu.o ${CONGRAD_FN_MILC_CPU}
  
# Standard QOP combinations

  CONGRAD_FN_QOP = d_congrad5_fn_qop_two_src.o d_congrad5_fn_qop.o \
     d_congrad5_fn_qop_D.o d_congrad5_fn_qop_F.o ${CONGRAD_FN_BASE}

ifeq ($(strip ${HAVE_FN_CG_GPU}),true)
  CONGRAD_FN_MILC = ${CONGRAD_FN_MILC_GPU}
else
  CONGRAD_FN_MILC = ${CONGRAD_FN_MILC_CPU}
endif

######################################################################
# Staggered multimass inverters
######################################################################

# Standard MILC combinations

  MULTI_INV_FN_MILC_CPU = ks_multicg.o ks_multicg_offset.o

# No other choice
  MULTI_INV_EO = ks_multicg.o ks_multicg_offset.o

# GPU support

  MULTI_INV_FN_MILC_GPU = ks_multicg_offset_gpu.o ${MULTI_INV_FN_MILC_CPU}
  
# Standard QOP combinations

  MULTI_INV_FN_QOP = ks_multicg.o ks_multicg_offset_qop.o \
    ks_multicg_offset_qop_D.o  ks_multicg_offset_qop_F.o

ifeq ($(strip ${HAVE_FN_CG_GPU}),true)
  MULTI_INV_FN_MILC = ${MULTI_INV_FN_MILC_GPU}
else
  MULTI_INV_FN_MILC = ${MULTI_INV_FN_MILC_CPU}
endif

######################################################################
# Staggered fermion force routines
######################################################################

# Standard MILC combinations

  FORCE = show_hisq_force_opts.o show_hypisq_force_opts.o ff_opt.o 

  ASQ_FORCE_MILC_CPU  = fermion_force_asqtad.o fermion_force_multi.o \
	fermion_force_fn_multi.o ${FORCE}

  HISQ_FORCE_MILC_CPU = fermion_force_hisq_multi.o ${FORCE}

  HYPISQ_FORCE_MILC_CPU = fermion_force_hypisq_multi.o ${FORCE}

# No other choice
  EO_FORCE   = fermion_force_eo_milc.o ${FORCE}

# GPU support

  ASQ_FORCE_MILC_GPU = ${ASQ_FORCE_MILC_CPU} fermion_force_asqtad_gpu.o 

  HISQ_FORCE_MILC_GPU = ${HISQ_FORCE_MILC_CPU}
  
# Standard QOP combinations

  ASQ_FORCE_QOP = fermion_force_asqtad_qop.o fermion_force_asqtad_qop_F.o \
     fermion_force_asqtad_qop_D.o ${FORCE}

  HISQ_FORCE_QOP = fermion_force_hisq_qop.o fermion_force_hisq_qop_F.o \
     fermion_force_hisq_qop_D.o ${FORCE}

ifeq ($(strip ${HAVE_FF_GPU}),true)
  ASQ_FORCE_MILC = ${ASQ_FORCE_MILC_GPU}
  HISQ_FORCE_MILC = ${HISQ_FORCE_MILC_GPU}
else
  ASQ_FORCE_MILC = ${ASQ_FORCE_MILC_CPU}
  HISQ_FORCE_MILC = ${HISQ_FORCE_MILC_CPU}
  HYPISQ_FORCE_MILC = ${HYPISQ_FORCE_MILC_CPU}
endif

######################################################################
# Clover link creation
######################################################################

  FLINKS_CL = f_mu_nu.o make_clov2.o

######################################################################
# Clover inverters
######################################################################

  CONGRAD_CL_BASE = d_cgilu_cl.o d_hopilu_cl.o d_mrilu_cl.o cl_solver_utilities.o \
      wilson_invert.o

  CONGRAD_CL_QOP = d_bicgilu_cl_qop.o  d_bicgilu_cl_qop_D.o d_bicgilu_cl_qop_F.o \
      ${CONGRAD_CL_BASE}

# Standard MILC combinations
  CONGRAD_CL_MILC_CPU = d_bicgilu_cl.o ${CONGRAD_CL_BASE}
  
# GPU support 
  CONGRAD_CL_MILC_GPU = d_bicgilu_cl_gpu.o ${CONGRAD_CL_BASE}

ifeq ($(strip ${HAVE_CL_GPU}),true)
  CONGRAD_CL_MILC = ${CONGRAD_CL_MILC_GPU}
else
  CONGRAD_CL_MILC = ${CONGRAD_CL_MILC_CPU}
endif


######################################################################
# Gauge force routines
######################################################################

# Standard MILC combinations

  GAUGE_FORCE_MILC_CPU = gauge_force_imp.o gauge_stuff.o ranmom.o

# GPU support

  GAUGE_FORCE_MILC_GPU = gauge_force_imp_gpu.o update_u_gpu.o gauge_stuff.o ranmom.o
  
# Standard QOP combinations

  GAUGE_FORCE_QOP = gauge_force_symzk1_qop.o  gauge_stuff.o ranmom.o

ifeq ($(strip ${HAVE_GF_GPU}),true)
  GAUGE_FORCE_MILC = ${GAUGE_FORCE_MILC_GPU}
else
  GAUGE_FORCE_MILC = ${GAUGE_FORCE_MILC_CPU}
endif

######################################################################
# QOP or MILC/GPU
######################################################################

ifeq ($(strip ${HAVEQOP}),true)
# Interface to access QOP
  CONGRAD_CL    = ${CONGRAD_CL_QOP}
  FLINKS_EO     = ${FLINKS_EO_QOP}
  FLINKS_FN     = ${FLINKS_FN_QOP}
  FLINKS_HISQ   = ${FLINKS_HISQ_QOP}
  DSLASH_FN     = ${DSLASH_FN_QOP}
  CONGRAD_FN    = ${CONGRAD_FN_QOP}
  MULTI_INV_FN  = ${MULTI_INV_FN_QOP}
  GAUGE_FORCE   = ${GAUGE_FORCE_QOP}
  ASQ_FORCE     = ${ASQ_FORCE_QOP}
  HISQ_FORCE    = ${HISQ_FORCE_QOP}
else	        
  CONGRAD_CL    = ${CONGRAD_CL_MILC}
  FLINKS_EO     = ${FLINKS_EO_MILC}
  FLINKS_FN     = ${FLINKS_FN_MILC}
  FLINKS_HISQ   = ${FLINKS_HISQ_MILC}
  FLINKS_HYPISQ = ${FLINKS_HYPISQ_MILC}
  DSLASH_FN     = ${DSLASH_FN_MILC}
  CONGRAD_FN    = ${CONGRAD_FN_MILC}
  MULTI_INV_FN  = ${MULTI_INV_FN_MILC}
  GAUGE_FORCE   = ${GAUGE_FORCE_MILC}
  ASQ_FORCE     = ${ASQ_FORCE_MILC}
  HISQ_FORCE    = ${HISQ_FORCE_MILC}
  HYPISQ_FORCE  = ${HYPISQ_FORCE_MILC}
endif

######################################################################
# Standard lists of objects for staggered fermion links and inverters
######################################################################


CL_OBJECTS = \
  ${CL_LINKS_OBJECTS} \
  ${FLINKS_CL} \
  ${CONGRAD_CL} \
  ${DSLASH_CL}

EO_OBJECTS = \
  ${KS_LINKS_OBJECTS} \
  ${FLINKS_EO} \
  ${CONGRAD_EO} \
  ${DSLASH_EO} \
  ${MULTI_INV_EO}

FN_OBJECTS = \
  ${KS_LINKS_OBJECTS} \
  ${FLINKS_FN} \
  ${CONGRAD_FN} \
  ${DSLASH_FN} \
  ${MULTI_INV_FN}

HISQ_OBJECTS = \
  ${KS_LINKS_OBJECTS} \
  ${FLINKS_HISQ} \
  ${CONGRAD_FN} \
  ${DSLASH_FN} \
  ${MULTI_INV_FN}

HYPISQ_OBJECTS = \
  ${KS_LINKS_OBJECTS} \
  ${FLINKS_HYPISQ} \
  ${CONGRAD_FN} \
  ${DSLASH_FN} \
  ${MULTI_INV_FN}