#  Clover inverter for Schroedinger Functional
#  MIMD version 7

#  Generic make-include file for clover_invert code in the
#  Schroedinger functional formalism.
#  This template file defines rules and macros common to all architectures
#  It is intended to be an include file for other Makefiles.
#  Don't use it by itself!
#
#	"su3_schr_cl_cg" PCAC correlators
#	"su3_schr_cl_bi" PCAC correlators with bi-conjugate gradient inverter
#	"su3_schr_cl_mr" PCAC correlators with MR inverter

MYINCLUDEDIR = .
INCLUDEDIR = ../include
#Where the complex and su3 libraries are
LIBDIR = ../libraries

# To force a remake when changing headers

GLOBAL_HEADERS = ${INCLUDEDIR} ../libraries/include

INLINE_HEADERS = \
  ../sse/include/ \
  ../sse2/include/ \
  ../libraries/include/

MY_HEADERS = \
  lattice.h \
  params.h \
  defines.h \
  schroed_cl_includes.h \
  ${ADDHEADERS}

HEADERS = ${GLOBAL_HEADERS} ${MY_HEADERS} ${INLINE_HEADERS} ${SCIDAC_HEADERS}

# All required object files
# Basic set from current directory
MY_OBJECTS =         \
  clover_info.o      \
  control_cl.o       \
  setup_cl.o         \
  schroed_meson.o    \
  ape_smear_SF.o     \
  zv_meas.o          \
  gauge_info.o

# Basic set from generic directory
G_OBJECTS =          \
  check_unitarity.o  \
  d_plaq4.o          \
  io_helpers.o       \
  io_lat4.o          \
  io_lat_utils.o     \
  make_lattice.o     \
  nersc_cksum.o \
  plaquette4.o       \
  remap_stdio_from_args.o \
  reunitarize2.o

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

# Basic set from generic_wilson directory
G_WILSON_OBJECTS =   \
  dslash_lean2.o     \
  gauss_smear_w.o    \
  io_source_w_fm.o   \
  meson_cont.o       \
  wilson_invert.o

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

# Basic set from generic_clover directory
G_CLOVER_OBJECTS =   \
  canopy2weyl_rot.o \
  f_mu_nu.o          \
  make_clov2.o

# Basic set from generic_schroed directory
G_SCHROED_OBJECTS =  \
  make_schroed_lattice.o

# Objects depending on architecture and software package 

# Selection of layout
ifeq ($(strip ${QCDOC}),true)
  LAYOUT = layout_qcdoc.o # Required
else
  ifeq ($(strip ${HAVEQDP}),true)
    LAYOUT = layout_qdp.o # Required
  else
    LAYOUT = layout_hyper_prime.o # Choices possible here
  endif
endif

# Selection of the fermion links algorithm (i.e. clover term)
FLINKS_WILSON = ${FLINKS_WILSONQOP}

# Selection of the conjugate gradient algorithm
# There is currently no QOP support for Schroedinger boundary
# conditions.

CONGRAD_CL = \
      cl_solver_utilities.o \
      d_cgilu_cl.o     \
      d_hopilu_cl.o    \
      d_mrilu_cl.o     \
      d_bicgilu_cl.o

CL_OBJECTS = ${FLINKS_WILSON} ${CONGRAD_CL}

# EDRAM allocation for QCDOC
ifeq ($(strip ${QCDOC}),true)
  QCDOC_OBJECTS = qcdoc_alloc.o
endif

ADD_OBJECTS = ${MACHINE_DEP_IO} ${COMMPKG} ${QCDOC_OBJECTS} ${QDP_OBJECTS} \
   ${SCIDAC_OBJECTS}

# Generic QOP objects
ifeq ($(strip ${HAVEQOP}),true)
  ADD_OBJECTS += ${GENERICQOP}
endif

OBJECTS = ${MY_OBJECTS} ${G_OBJECTS} ${G_WILSON_OBJECTS} \
  ${G_CLOVER_OBJECTS} ${G_SCHROED_OBJECTS} ${LAYOUT} \
  ${CL_OBJECTS} ${ADD_OBJECTS} ${EXTRA_OBJECTS}

#Libraries for complex numbers and su3 functions
P = $(strip ${PRECISION})
QCDLIB = ${LIBDIR}/su3.${P}.a ${LIBDIR}/complex.${P}.a 

LIBRARIES = ${QCDLIB} ${SCIDAC_LIBRARIES}

# Default rule for C compilation
.c.o: ; ${CC} -c ${CFLAGS} $<

# To force a full remake when changing targets
LASTMAKE = .lastmake.${MAKEFILE}.${P}.${MYTARGET}

${LASTMAKE}: ${ALL_MAKES}
	-/bin/rm -f .lastmake.*
	${MAKE} -f ${MAKEFILE} clean
	touch ${LASTMAKE}

# All make files used in this compilation
ALL_MAKES = \
  Make_template \
  ${MAKEFILE} \
  ../Make_template_qop \
  ../Make_template_scidac \
  ../generic/Make_template \
  ../generic_wilson/Make_template \
  ../generic_clover/Make_template \
  ../generic_schroed/Make_template

# To force a remake when changing any make file, header, or target
${OBJECTS} : ${HEADERS} ${LASTMAKE} ${ALL_MAKES}

ifeq ($(strip ${QCDOC}),true)
  DQCDOC = -DQCDOC
endif

ifeq ($(strip ${HAVEQMP}),true)
  DHAVE_QMP = -DHAVE_QMP
endif

ifeq ($(strip ${HAVEQIO}),true)
  DHAVE_QIO = -DHAVE_QIO
endif

ifeq ($(strip ${HAVEQDP}),true)
  DHAVE_QDP = -DHAVE_QDP
endif

ifeq ($(strip ${HAVEQOP}),true)
  DHAVE_QOP = -DHAVE_QOP
endif

DARCH = ${DQCDOC} ${DHAVE_QMP} ${DHAVE_QIO} ${DHAVE_QDP} ${DHAVE_QOP}

########################################################
# Note: we prefer double precison version of inverters {for global sums}

# Optional DEFINES for timing:
# -DIOTIME for I/O timing
# -DPRTIME for propagator timing
# -DCGTIME for cg timing and iterations

su3_schr_cl_cg::
	${MAKE} -f ${MAKEFILE} target "MYTARGET= $@" \
	"DEFINES= -DCL_CG=CG" 

su3_schr_cl_bi::
	${MAKE} -f ${MAKEFILE} target "MYTARGET= $@" \
	"DEFINES= -DCL_CG=BICG" \

su3_schr_cl_mr::
	${MAKE} -f ${MAKEFILE} target "MYTARGET= $@" \
	"DEFINES= -DCL_CG=MR"

clean:
	-/bin/rm -f *.o

# Rules for generic routines
include ../generic/Make_template

# Rules for generic_wilson routines
include ../generic_wilson/Make_template

# Rules for generic_clover routines
include ../generic_clover/Make_template

# Rules for generic_schroed routines
include ../generic_schroed/Make_template


libmake:
	@echo Building libraries with ${MAKELIBRARIES}
	cd ${LIBDIR} ;\
	${MAKE} -f ${MAKELIBRARIES} "APP_CC=${CC}" "PRECISION=${PRECISION}" all

localmake: ${OBJECTS} ${LIBRARIES}
	${LD} -o ${MYTARGET} ${LDFLAGS} \
	${OBJECTS} ${QCDLIB} ${ILIB} -lm
	touch localmake

target: libmake localmake 
