Makefile

#Developed by Sandeep Sharma and Garnet K.-L. Chan, 2012                      
#Copyright (c) 2012, Garnet K.-L. Chan                                                                                                                     
#This program is integrated in Molpro with the permission of 
#Sandeep Sharma and Garnet K.-L. Chan

######### GENERAL OPTIONS FOR USER #########

# change to icpc for Intel
#CXX = clang++
#MPICXX = mpiicpc
CXX = g++
MPICXX = mpic++
export CXX
export MPICXX

# BOOST include directory
#BOOSTDIR=/software/StackBlock/boost_1_58_0
#BOOSTINCLUDE = ${BOOSTDIR}/include
BOOSTDIR=/usr/lib
BOOSTINCLUDE =/usr/include

# set to yes if using BOOST version >= 1.56.0
USE_BOOST56 = yes
ifeq ($(USE_BOOST56), yes)
	B56 = -DBOOST_1_56_0
endif

# BOOST and LAPACK/BLAS linker 
#BOOSTLIB = -L/home/sharma/apps/forServer/boost_1_53_0_mt/boost_1_53_0/stage/lib -lboost_serialization -lboost_system -lboost_filesystem
#BOOSTLIB = -L/home/sharma/apps/boost/boost_1_55_0/stage/lib -lboost_serialization -lboost_system -lboost_filesystem 
#BOOSTLIB = -lboost_serialization -lboost_system -lboost_filesystem
#BOOSTLIB = -L${BOOSTDIR}/lib -lboost_system-mt -lboost_filesystem-mt -lboost_serialization-mt
# Note: Newer boost libraries are typically thread-safe => "-mt" suffix not required. 
BOOSTLIB = -L${BOOSTDIR}/lib -lboost_system -lboost_filesystem -lboost_serialization

#LAPACKBLAS = -lblas -llapack
#LAPACKBLAS =    /usr/lib/liblapack.dylib /usr/lib/libblas.dylib
LAPACKBLAS = 

# set if we will use MPI or OpenMP
USE_MPI = no
OPENMP = no

# FLAGS for linking in MKL
USE_MKL = no

ifeq ($(USE_MKL), yes)
# LAPACKBLAS = -L${MKLLIB} -lmkl_gf_lp64 -lmkl_sequential -lmkl_core #-lrt #-liomp5 
LAPACKBLAS = -Wl,--no-as-needed -L${MKLROOT}/lib/intel64 -lmkl_gf_lp64 -lmkl_core -lmkl_sequential -lm -ldl -lrt
MKLFLAGS = ${MKLROOT}/include
MKLOPT = -D_HAS_INTEL_MKL
else
MKLFLAGS = .
endif


######### ADVANCED OPTIONS (GENERALLY THESE DO NOT NEED TO BE SET) #########


# add Molcas interface to libqcdmrg.so
# molcas compilation w/ -64 option requires I8 as well
MOLCAS = no

# Link to Molpro
MOLPRO = no
# use this variable to set if we will use integer size of 8 or not.
# molpro compilation requires I8, since their integers are long
I8_OPT = no

# Optional MALLOC library 
MALLOC = #-L/home/sharma/apps/forServer/tcalloc/tcalloc_install/lib -ltcmalloc

DOPROF = no

RUN_UNITTEST=no
ifeq ($(RUN_UNITTEST), yes)
UNITTEST = -DUNITTEST
endif

AR=ar
ARFLAGS=-qs
RANLIB=ranlib

ifeq ($(I8_OPT), yes)
	I8 = -D_FORTINT_64
endif

EXECUTABLE = block.spin_adapted

BLOCKHOME = .
HOME = .
NEWMATINCLUDE = $(BLOCKHOME)/newmat10/
INCLUDE1 = $(BLOCKHOME)/include/
INCLUDE2 = $(BLOCKHOME)/
NEWMATLIB = $(BLOCKHOME)/newmat10/
BTAS = $(BLOCKHOME)/btas
.SUFFIXES: .C .cpp


MOLPROINCLUDE=.
ifeq ($(MOLPRO), yes)
   MOLPROINCLUDE=$(BLOCKHOME)/../
   MOLPRO_BLOCK= -DMOLPRO

endif

ifeq ($(MOLCAS), yes)
	MOLCAS_BLOCK= -DMOLCAS -fPIC
endif

FLAGS =  -I${MKLFLAGS} -I$(INCLUDE1) -I$(INCLUDE2) -I$(NEWMATINCLUDE) -I$(BOOSTINCLUDE) -I$(MOLPROINCLUDE) \
         -I$(HOME)/modules/generate_blocks/ -I$(HOME)/modules/onepdm -I$(HOME)/modules/twopdm/ \
         -I$(HOME)/modules/npdm -I$(HOME)/modules/two_index_ops -I$(HOME)/modules/three_index_ops -I$(HOME)/modules/four_index_ops -std=c++0x \
	 -I$(HOME)/modules/ResponseTheory -I$(HOME)/modules/nevpt2 -I$(HOME)/molcas -I$(HOME)/modules/mps_nevpt

LIBS +=  -L$(NEWMATLIB) -lnewmat $(BOOSTLIB) $(LAPACKBLAS) $(MALLOC)
MPI_OPT = -DSERIAL




ifeq (icpc, $(CXX))
   ifeq ($(OPENMP), yes)
      OPENMP_FLAGS= -qopenmp
	#ifeq ($(USE_MPI), yes)
	#OPENMP_FLAGS += -lmpi_mt
	#endif
   endif
# Intel compiler
  OPT = -DNDEBUG -O2 -g -funroll-loops #-ipo
#  OPT = -g
#  # Useful option to define a newer g++ binary if the default g++ is too old
#  OPT += -gxx-name=g++-4.7
   ifeq ($(USE_MPI), no)
      CXX = icpc
   endif
endif

ifeq (g++, $(CXX))
   ifeq ($(OPENMP), yes)
      OPENMP_FLAGS= -fopenmp 
	#ifeq ($(USE_MPI), yes)
	#OPENMP_FLAGS += -lmpi
	#endif
   endif
# GNU compiler
   OPT = -DNDEBUG -O2 -g -funroll-loops -Werror -Wno-error=deprecated-declarations -fdiagnostics-color=always
#   OPT = -g -pg
endif

ifeq (clang++, $(CXX))
   ifeq ($(OPENMP), yes)
      OPENMP_FLAGS= -fopenmp #-D_OPENMP 
   endif

   OPT = -DNDEBUG -g -Werror -funroll-loops
endif

ifeq ($(DOPROF),yes)
     OPT += -pg
endif

ifeq ($(USE_MPI), yes)
     MPI_OPT = 
     MPI_LIB = -lboost_mpi
     LIBS += $(MPI_LIB)
     CXX = $(MPICXX)
endif


OPT	+= $(OPENMP_FLAGS) -DBLAS -DUSELAPACK $(MPI_OPT) $(I8) $(B56) $(MOLPRO_BLOCK) $(MOLCAS_BLOCK)  -DFAST_MTP -D_HAS_CBLAS  ${MKLOPT} ${UNITTEST}

SRC_genetic = genetic/CrossOver.C genetic/Evaluate.C genetic/GAInput.C genetic/GAOptimize.C genetic/Generation.C genetic/Mutation.C genetic/RandomGenerator.C genetic/ReadIntegral.C

SRC_npdm = modules/npdm/npdm.C modules/npdm/npdm_driver.C modules/npdm/npdm_patterns.C modules/npdm/npdm_expectations.C modules/npdm/npdm_expectations_engine.C  \
           modules/npdm/npdm_permutations.C modules/npdm/npdm_spin_adaptation.C modules/npdm/npdm_operator_selector.C modules/npdm/npdm_spin_ops.C \
           modules/npdm/onepdm_container.C modules/npdm/twopdm_container.C modules/npdm/threepdm_container.C modules/npdm/fourpdm_container.C  \
           modules/two_index_ops/two_index_wrappers.C modules/three_index_ops/three_index_wrappers.C modules/four_index_ops/four_index_wrappers.C  \
           modules/three_index_ops/three_index_compound_ops.C modules/four_index_ops/four_index_compound_ops.C  \
           modules/three_index_ops/three_index_op_components.C modules/four_index_ops/four_index_op_components.C  \
           modules/three_index_ops/three_index_ops.C modules/four_index_ops/four_index_ops.C  \
           modules/three_index_ops/build_3index_ops.C modules/four_index_ops/build_4index_ops.C modules/npdm/pairpdm_container.C \
           modules/npdm/nevpt2_npdm_driver.C modules/npdm/nevpt2_container.C modules/npdm/externalsort.C modules/three_index_ops/build_3index_singleoperator.C modules/npdm/npdm_driver_2.C

SRC_mps_nevpt = modules/mps_nevpt/nevpt_op_component.C modules/mps_nevpt/type1.C modules/mps_nevpt/mps_nevpt.C

SRC_spin_adapted = saveBlock.C Stackspinblock.C operatorUtilities.C Stack_op_components.C stackguess_wavefunction.C Stackwavefunction.C Stackdensity.C stackopxop.C StackBaseOperator.C StackOperators.C modules/ResponseTheory/sweepResponse.C modules/ResponseTheory/sweepCompress.C pario.C dmrg.C fiedler.C least_squares.C sweep_mps.C set_stackspinblock_components.C linear.C main.C readinput.C  timer.C SpinQuantum.C Symmetry.C input.C hfOccGenerator.C Schedule.C orbstring.C slater.C csf.C StateInfo.C  screen.C MatrixBLAS.C operatorfunctions.C solver.C davidson.C sweep_params.C sweep.C partial_sweep.C BlockAndDecimate.C initblocks.C rotationmat.C renormalise.C couplingCoeffs.C distribute.C new_anglib.C fci.C IrrepSpace.C modules/generate_blocks/sweep.C $(SRC_genetic) SpinSpace.C include/IntegralMatrix.C modules/onepdm/sweep.C modules/onepdm/onepdm.C $(SRC_npdm) $(SRC_mps_nevpt) fciqmchelper.C #modules/twopdm/sweep.C modules/twopdm/twopdm.C modules/twopdm/twopdm_2.C 

SRC_OH = wrapper.C fciqmchelper.C saveBlock.C Stackspinblock.C operatorUtilities.C Stack_op_components.C stackguess_wavefunction.C Stackwavefunction.C Stackdensity.C stackopxop.C StackBaseOperator.C StackOperators.C modules/ResponseTheory/sweepResponse.C modules/ResponseTheory/sweepCompress.C pario.C dmrg.C fiedler.C least_squares.C sweep_mps.C set_stackspinblock_components.C linear.C readinput.C  timer.C SpinQuantum.C Symmetry.C input.C hfOccGenerator.C Schedule.C orbstring.C slater.C csf.C StateInfo.C  screen.C MatrixBLAS.C operatorfunctions.C solver.C davidson.C sweep_params.C sweep.C partial_sweep.C BlockAndDecimate.C initblocks.C rotationmat.C renormalise.C couplingCoeffs.C distribute.C new_anglib.C fci.C IrrepSpace.C modules/generate_blocks/sweep.C $(SRC_genetic) SpinSpace.C include/IntegralMatrix.C modules/onepdm/sweep.C modules/onepdm/onepdm.C  $(SRC_npdm) $(SRC_mps_nevpt) 
OBJ_OH= OverlapHelement.o

SRC_Applycd = wrapper.C fciqmchelper.C saveBlock.C Stackspinblock.C operatorUtilities.C Stack_op_components.C stackguess_wavefunction.C Stackwavefunction.C Stackdensity.C stackopxop.C StackBaseOperator.C StackOperators.C modules/ResponseTheory/sweepResponse.C modules/ResponseTheory/sweepCompress.C pario.C dmrg.C fiedler.C least_squares.C sweep_mps.C set_stackspinblock_components.C linear.C readinput.C  timer.C SpinQuantum.C Symmetry.C input.C hfOccGenerator.C Schedule.C orbstring.C slater.C csf.C StateInfo.C  screen.C MatrixBLAS.C operatorfunctions.C solver.C davidson.C sweep_params.C sweep.C partial_sweep.C BlockAndDecimate.C initblocks.C rotationmat.C renormalise.C couplingCoeffs.C distribute.C new_anglib.C fci.C IrrepSpace.C modules/generate_blocks/sweep.C $(SRC_genetic) SpinSpace.C include/IntegralMatrix.C modules/onepdm/sweep.C modules/onepdm/onepdm.C
OBJ_Applycd= ApplyExcitation.o

SRC_CSFOH = CSFOverlapHelement.C modules/ResponseTheory/sweepResponse.C modules/ResponseTheory/sweepCompress.C wrapper.C fciqmchelper.C pario.C dmrg.C fiedler.C least_squares.C sweep_mps.C set_stackspinblock_components.C linear.C readinput.C  save_load_block.C timer.C SpinQuantum.C Symmetry.C Schedule.C input.C hfOccGenerator.C orbstring.C slater.C csf.C StateInfo.C  Operators.C BaseOperator.C screen.C MatrixBLAS.C operatorfunctions.C opxop.C wavefunction.C solver.C davidson.C sweep_params.C sweep.C partial_sweep.C BlockAndDecimate.C initblocks.C guess_wavefunction.C density.C rotationmat.C renormalise.C couplingCoeffs.C distribute.C new_anglib.C fci.C spinblock.C op_components.C IrrepSpace.C modules/generate_blocks/sweep.C modules/onepdm/sweep.C modules/onepdm/onepdm.C modules/twopdm/sweep.C modules/twopdm/twopdm.C modules/twopdm/twopdm_2.C $(SRC_genetic) SpinSpace.C include/IntegralMatrix.C $(SRC_npdm) $(SRC_nevpt2)  $(SRC_mps_nevpt)

SRC_DeterminantMPS = DeterminantMPS.C modules/ResponseTheory/sweepResponse.C modules/ResponseTheory/sweepCompress.C wrapper.C fciqmchelper.C pario.C dmrg.C fiedler.C least_squares.C sweep_mps.C set_stackspinblock_components.C linear.C readinput.C  save_load_block.C timer.C SpinQuantum.C Symmetry.C Schedule.C input.C hfOccGenerator.C orbstring.C slater.C csf.C StateInfo.C  Operators.C BaseOperator.C screen.C MatrixBLAS.C operatorfunctions.C opxop.C wavefunction.C solver.C davidson.C sweep_params.C sweep.C partial_sweep.C BlockAndDecimate.C initblocks.C guess_wavefunction.C density.C rotationmat.C renormalise.C couplingCoeffs.C distribute.C new_anglib.C fci.C spinblock.C op_components.C IrrepSpace.C modules/generate_blocks/sweep.C modules/onepdm/sweep.C modules/onepdm/onepdm.C modules/twopdm/sweep.C modules/twopdm/twopdm.C modules/twopdm/twopdm_2.C $(SRC_genetic) SpinSpace.C include/IntegralMatrix.C $(SRC_npdm) $(SRC_nevpt2)  $(SRC_mps_nevpt)

SRC_PTn = PTn.C modules/ResponseTheory/sweepResponse.C modules/ResponseTheory/sweepCompress.C wrapper.C fciqmchelper.C pario.C dmrg.C fiedler.C least_squares.C sweep_mps.C set_stackspinblock_components.C linear.C readinput.C  save_load_block.C timer.C SpinQuantum.C Symmetry.C Schedule.C input.C hfOccGenerator.C orbstring.C slater.C csf.C StateInfo.C  Operators.C BaseOperator.C screen.C MatrixBLAS.C operatorfunctions.C opxop.C wavefunction.C solver.C davidson.C sweep_params.C sweep.C partial_sweep.C BlockAndDecimate.C initblocks.C guess_wavefunction.C density.C rotationmat.C renormalise.C couplingCoeffs.C distribute.C new_anglib.C fci.C spinblock.C op_components.C IrrepSpace.C modules/generate_blocks/sweep.C modules/onepdm/sweep.C modules/onepdm/onepdm.C modules/twopdm/sweep.C modules/twopdm/twopdm.C modules/twopdm/twopdm_2.C $(SRC_genetic) SpinSpace.C include/IntegralMatrix.C $(SRC_npdm) $(SRC_nevpt2)  $(SRC_mps_nevpt)

SRC_RDM = RDM.C modules/ResponseTheory/sweepResponse.C modules/ResponseTheory/sweepCompress.C wrapper.C fciqmchelper.C pario.C dmrg.C fiedler.C least_squares.C sweep_mps.C set_stackspinblock_components.C linear.C readinput.C  save_load_block.C timer.C SpinQuantum.C Symmetry.C Schedule.C input.C hfOccGenerator.C orbstring.C slater.C csf.C StateInfo.C  Operators.C BaseOperator.C screen.C MatrixBLAS.C operatorfunctions.C opxop.C wavefunction.C solver.C davidson.C sweep_params.C sweep.C partial_sweep.C BlockAndDecimate.C initblocks.C guess_wavefunction.C density.C rotationmat.C renormalise.C couplingCoeffs.C distribute.C new_anglib.C fci.C spinblock.C op_components.C IrrepSpace.C modules/generate_blocks/sweep.C modules/onepdm/sweep.C modules/onepdm/onepdm.C modules/twopdm/sweep.C modules/twopdm/twopdm.C modules/twopdm/twopdm_2.C $(SRC_genetic) SpinSpace.C include/IntegralMatrix.C $(SRC_npdm) $(SRC_nevpt2)  $(SRC_mps_nevpt)


SRC_COEF= modules/ResponseTheory/sweepResponse.C modules/ResponseTheory/sweepCompress.C wrapper.C fciqmchelper.C pario.C dmrg.C fiedler.C least_squares.C sweep_mps.C set_stackspinblock_components.C linear.C readinput.C  save_load_block.C timer.C SpinQuantum.C Symmetry.C Schedule.C input.C hfOccGenerator.C orbstring.C slater.C csf.C StateInfo.C  Operators.C BaseOperator.C screen.C MatrixBLAS.C operatorfunctions.C opxop.C wavefunction.C solver.C davidson.C sweep_params.C sweep.C partial_sweep.C BlockAndDecimate.C initblocks.C guess_wavefunction.C density.C rotationmat.C renormalise.C couplingCoeffs.C distribute.C new_anglib.C fci.C spinblock.C op_components.C IrrepSpace.C modules/generate_blocks/sweep.C modules/onepdm/sweep.C modules/onepdm/onepdm.C modules/twopdm/sweep.C modules/twopdm/twopdm.C modules/twopdm/twopdm_2.C $(SRC_genetic) SpinSpace.C include/IntegralMatrix.C $(SRC_npdm) $(SRC_nevpt2)  $(SRC_mps_nevpt)
OBJ_COEF= Coefficients.o

SRC_spin_library = saveBlock.C Stackspinblock.C operatorUtilities.C Stack_op_components.C stackguess_wavefunction.C Stackwavefunction.C Stackdensity.C stackopxop.C StackBaseOperator.C StackOperators.C modules/ResponseTheory/sweepResponse.C modules/ResponseTheory/sweepCompress.C pario.C dmrg.C fiedler.C least_squares.C sweep_mps.C set_stackspinblock_components.C linear.C readinput.C  timer.C SpinQuantum.C Symmetry.C input.C hfOccGenerator.C Schedule.C orbstring.C slater.C csf.C StateInfo.C  screen.C MatrixBLAS.C operatorfunctions.C solver.C davidson.C sweep_params.C sweep.C partial_sweep.C BlockAndDecimate.C initblocks.C rotationmat.C renormalise.C couplingCoeffs.C distribute.C new_anglib.C fci.C IrrepSpace.C modules/generate_blocks/sweep.C $(SRC_genetic) SpinSpace.C include/IntegralMatrix.C modules/onepdm/sweep.C modules/onepdm/onepdm.C $(SRC_npdm) $(SRC_mps_nevpt) fciqmchelper.C

SRC_nevpt2 = modules/nevpt2/nevpt2.C modules/nevpt2/nevpt2_info.C modules/nevpt2/nevpt2_mpi.C \
             modules/nevpt2/nevpt2_opconstruct.C modules/nevpt2/nevpt2_operators.C \
             modules/nevpt2/nevpt2_pal.C modules/nevpt2/nevpt2_renormalize.C \
             modules/nevpt2/nevpt2_util.C modules/nevpt2/ripdm.C modules/nevpt2/sweep_gen_nevpt2.C \
             modules/nevpt2/sweep_nevpt2.C

SRC_molcas = molcas/block_calldmrg.C molcas/molpro_fcidump.C molcas/loadNpdm.C molcas/sortNpdm.C molcas/tranNpdm.C

OBJ_OH+=$(SRC_OH:.C=.o)
OBJ_Applycd+=$(SRC_Applycd:.C=.o)
OBJ_CSFOH+=$(SRC_CSFOH:.C=.o)
OBJ_PTn+=$(SRC_PTn:.C=.o)
OBJ_DeterminantMPS+=$(SRC_DeterminantMPS:.C=.o)
OBJ_RDM+=$(SRC_RDM:.C=.o)
OBJ_COEF+=$(SRC_COEF:.C=.o)
OBJ_spin_adapted=$(SRC_spin_adapted:.C=.o)
OBJ_spin_library=$(SRC_spin_library:.C=.o)
OBJ_nevpt2=$(SRC_nevpt2:.C=.o)
OBJ_mps_nevpt=$(SRC_mps_nevpt:.C=.o)
ifeq ($(MOLCAS), yes)
	OBJ_spin_library+=$(SRC_molcas:.C=.o)
endif

.C.o :
	$(CXX)  $(FLAGS) $(OPT) -c $< -o $@
.cpp.o :
	$(CXX) $(FLAGS) $(OPT) -c $< -o $@


$(EXECUTABLE) : $(OBJ_spin_adapted) $(NEWMATLIB)/libnewmat.a
	$(CXX)   $(FLAGS) $(OPT) -o  $(EXECUTABLE) $(OBJ_spin_adapted) $(LIBS)

all	: library $(EXECUTABLE) OH COEF CSFOH RDM PTn

library : libqcdmrg.a $(NEWMATLIB)/libnewmat.a libqcdmrg.so

libqcdmrg.a : $(OBJ_spin_library) $(OBJ_molcas)
	$(AR) $(ARFLAGS) $@ $^
	$(RANLIB) $@

libqcdmrg.so : $(OBJ_spin_library) $(OBJ_molcas)
	$(CXX) -shared -o $@ $^ $(LIBS)


OH : $(OBJ_OH) $(NEWMATLIB)/libnewmat.a
	$(CXX)   $(FLAGS) $(OPT) -o  OH $(OBJ_OH) $(LIBS)

Applycd : $(OBJ_Applycd) $(NEWMATLIB)/libnewmat.a
	$(CXX)   $(FLAGS) $(OPT) -o  Applycd $(OBJ_Applycd) $(LIBS)

CSFOH : $(OBJ_CSFOH) $(NEWMATLIB)/libnewmat.a
	$(CXX)   $(FLAGS) $(OPT) -o  CSFOH $(OBJ_CSFOH) $(LIBS)

DeterminantMPS : $(OBJ_DeterminantMPS) $(NEWMATLIB)/libnewmat.a
	$(CXX)   $(FLAGS) $(OPT) -o  DeterminantMPS $(OBJ_DeterminantMPS) $(LIBS)

PTn : $(OBJ_PTn) $(NEWMATLIB)/libnewmat.a
	$(CXX)   $(FLAGS) $(OPT) -o  PTn $(OBJ_PTn) $(LIBS)

RDM : $(OBJ_RDM) $(NEWMATLIB)/libnewmat.a
	$(CXX)   $(FLAGS) $(OPT) -o  RDM $(OBJ_RDM) $(LIBS)

COEF : $(OBJ_COEF) $(NEWMATLIB)/libnewmat.a
	$(CXX)   $(FLAGS) $(OPT) -o  COEF $(OBJ_COEF) $(LIBS)

$(NEWMATLIB)/libnewmat.a :
	cd $(NEWMATLIB) && $(MAKE) -f makefile libnewmat.a

clean:
	rm -f *.o include/*.o modules/generate_blocks/*.o modules/onepdm/*.o modules/twopdm/*.o modules/npdm/*.o $(NEWMATLIB)*.o libqcdmrg.a libqcdmrg.so $(EXECUTABLE) $(NEWMATLIB)/libnewmat.a genetic/gaopt genetic/*.o btas/lib/*.o btas/lib/libbtas.a modules/two_index_ops/*.o modules/three_index_ops/*.o modules/four_index_ops/*.o modules/ResponseTheory/*.o modules/nevpt2/*.o molcas/*.o modules/mps_nevpt/*o
	find . -name "*.o" |xargs rm -f
check-syntax:
	$(CXX) $(FLAGS) $(OPT) -o nul -S -Wall -Wextra -pedantic -fsyntax-only -Wno-variadic-macros $(CHK_SOURCES)
# DO NOT DELETE