DAMASK_EICMD/code/Makefile

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SHELL = /bin/sh
########################################################################################
# Makefile to compile the Material subroutine for BVP solution using spectral method
########################################################################################
# Be sure to remove all files compiled with different options by using "make clean"
########################################################################################
# OPTIONS = standard (alternative): meaning
#-------------------------------------------------------------
# F90 = ifort (gfortran): compiler type, choose Intel or GNU
# COMPILERNAME = name of the compiler executable (if not the same as the ype), e.g. using mpich-g90 instead of ifort
# PORTABLE = TRUE (FALSE): decision, if executable is optimized for the machine on which it was built.
# OPTIMIZATION = DEFENSIVE (OFF,AGGRESSIVE,ULTRA): Optimization mode: O2, O0, O3 + further options for most files, O3 + further options for all files
# OPENMP = TRUE (FALSE): OpenMP multiprocessor support
# PREFIX = arbitrary prefix (before compilername)
# OPTION = arbitrary option (just before file to compile)
# SUFFIX = arbitrary suffix (after file to compile)
# STANDARD_CHECK = checking for Fortran 2008, compiler dependend
########################################################################################
# including PETSc files. PETSC_ARCH is loaded from these files.
DAMASKVERSION :=$(shell cat ../VERSION)
include ${PETSC_DIR}/lib/petsc/conf/variables
include ${PETSC_DIR}/lib/petsc/conf/rules
INCLUDE_DIRS := $(PETSC_FC_INCLUDES) -DPETSc -I../lib
LIBRARIES := $(PETSC_WITH_EXTERNAL_LIB)
COMPILERNAME ?= $(FC)
CCOMPILERNAME ?= $(CC)
LINKERNAME ?= $(FLINKER)
# MPI compiler wrappers will tell if they are pointing to ifort or gfortran
COMPILEROUT :=$(shell $(FC) -show)
# search in FC or COMPILEROUT for gfortran/ifort if not defined
ifeq ($(strip $(F90)),)
F90 :=$(findstring gfortran,$(FC) $(COMPILEROUT))
endif
ifeq ($(strip $(F90)),)
F90 :=$(findstring ifort,$(FC) $(COMPILEROUT))
endif
OPENMP ?= ON
OPTIMIZATION ?= DEFENSIVE
ifeq "$(OPTIMIZATION)" "OFF"
OPTI := OFF
MAXOPTI := OFF
endif
ifeq "$(OPTIMIZATION)" "DEFENSIVE"
OPTI := DEFENSIVE
MAXOPTI := DEFENSIVE
endif
ifeq "$(OPTIMIZATION)" "AGGRESSIVE"
OPTI := AGGRESSIVE
MAXOPTI := DEFENSIVE
endif
ifeq "$(OPTIMIZATION)" "ULTRA"
OPTI := AGGRESSIVE
MAXOPTI := AGGRESSIVE
endif
ifndef OPTI
OPTI := DEFENSIVE
MAXOPTI := DEFENSIVE
endif
# settings for shared memory multicore support
ifeq "$(OPENMP)" "ON"
OPENMP_FLAG_ifort =-openmp -openmp-report0 -parallel
OPENMP_FLAG_gfortran =-fopenmp
endif
ifdef STANDARD_CHECK
STANDARD_CHECK_ifort =$(STANDARD_CHECK)
STANDARD_CHECK_gfortran =$(STANDARD_CHECK)
endif
STANDARD_CHECK_ifort ?=-stand f08 -standard-semantics
STANDARD_CHECK_gfortran ?=-std=f2008ts -pedantic-errors
#-pedantic: more strict on standard, enables some warnings
# -pedantic-errors: like pedantic, but errors instead of warnings
OPTIMIZATION_OFF_ifort :=-O0 -no-ip
OPTIMIZATION_OFF_gfortran :=-O0
OPTIMIZATION_DEFENSIVE_ifort :=-O2
OPTIMIZATION_DEFENSIVE_gfortran :=-O2
OPTIMIZATION_AGGRESSIVE_ifort :=-ipo -O3 -no-prec-div -fp-model fast=2 -xHost #-fast = -ipo, -O3, -no-prec-div, -static, -fp-model fast=2, and -xHost
OPTIMIZATION_AGGRESSIVE_gfortran :=-O3 -ffast-math -funroll-loops -ftree-vectorize
LINK_OPTIONS_ifort :=-shared-intel
COMPILE_OPTIONS_ifort :=-DDAMASKVERSION=\"${DAMASKVERSION}\"\
-fpp\
-ftz\
-assume byterecl,fpe_summary\
-diag-disable 5268\
-warn declarations\
-warn general\
-warn usage\
-warn interfaces\
-warn ignore_loc\
-warn alignments\
-warn unused
###################################################################################################
#COMPILE SWITCHES
#-shared-intel: Link against shared Intel libraries instead of static ones
#-fpp: preprocessor
#-ftz: flush unterflow to zero, automatically set if O<0,1,2,3> >0
#-assume byterecl record length is given in bytes (also set by -standard-semantics)
# fpe_summary print list of floating point exceptions occured during execution
#-fimplicit-none: assume "implicit-none" even if not present in source
#-diag-disable: disables warnings, where
# warning ID 5268: the text exceeds right hand column allowed on the line (we have only comments there)
#-warn: enables warnings, where
# declarations: any undeclared names (alternative name: -implicitnone)
# general: warning messages and informational messages are issued by the compiler
# usage: questionable programming practices
# interfaces: checks the interfaces of all SUBROUTINEs called and FUNCTIONs invoked in your compilation against an external set of interface blocks
# ignore_loc: %LOC is stripped from an actual argument
# alignments: data that is not naturally aligned
# unused: declared variables that are never used
# stderrors: warnings about Fortran standard violations are changed to errors (STANDARD_CHECK)
#
###################################################################################################
#MORE OPTIONS FOR DEBUGGING DURING COMPILATION
#-warn: enables warnings, where
# truncated_source: Determines whether warnings occur when source exceeds the maximum column width in fixed-format files. (too many warnings because we have comments beyond character 132)
# uncalled: Determines whether warnings occur when a statement function is never called
# all:
# -name as_is: case sensitive Fortran!
DEBUG_OPTIONS_ifort :=-g\
-traceback\
-gen-interfaces\
-fp-stack-check\
-fp-model strict\
-check bounds,format,output_conversion,pointers,uninit\
-ftrapuv\
-fpe-all0\
-warn errors\
-warn stderrors\
-debug-parameters all
###################################################################################################
#COMPILE SWITCHES FOR RUNTIME DEBUGGING
#-g: Generate symbolic debugging information in the object file
#-traceback: Generate extra information in the object file to provide source file traceback information when a severe error occurs at run time.
#-gen-interfaces: Generate an interface block for each routine. http://software.intel.com/en-us/blogs/2012/01/05/doctor-fortran-gets-explicit-again/
#-fp-stack-check: Generate extra code after every function call to ensure that the floating-point (FP) stack is in the expected state.
#-ftrapuv Trap uninitalized variables
#-check: checks at runtime, where
# bounds: check if an array index is too small (<1) or too large!
# format: Checking for the data type of an item being formatted for output.
# output_conversion: Checking for the fit of data items within a designated format descriptor field.
# pointers: Checking for certain disassociated or uninitialized pointers or unallocated allocatable objects.
# uninit: Checking for uninitialized variables.
#-fpe-all0 capture all floating-point exceptions, sets -ftz automatically
#-warn: enables warnings, where
# errors: warnings are changed to errors
# stderrors: warnings about Fortran standard violations are changed to errors
# information on http://software.intel.com/en-us/articles/determining-root-cause-of-sigsegv-or-sigbus-errors/
###################################################################################################
#MORE OPTIONS FOR RUNTIME DEBUGGING
#-heap-arrays: should not be done for OpenMP, but set "ulimit -s unlimited" on shell. Probably it helps also to unlimit other limits
#-check: checks at runtime, where
# arg_temp_created: will cause a lot of warnings because we create a bunch of temporary arrays (performance?)
# stack:
LINK_OPTIONS_gfortran :=-Wl,-undefined,dynamic_lookup
COMPILE_OPTIONS_gfortran :=-DDAMASKVERSION=\"${DAMASKVERSION}\"\
-xf95-cpp-input\
-ffree-line-length-132\
-fimplicit-none\
-fmodule-private\
-Wall\
-Wextra\
-Wcharacter-truncation\
-Wunderflow\
-Wsuggest-attribute=pure\
-Wsuggest-attribute=noreturn\
-Wconversion-extra\
-Wimplicit-procedure\
-Wno-unused-parameter
#-ffpe-summary=all only for newer gfortran
###################################################################################################
#COMPILE SWITCHES
#-shared
#-Wl,-undefined,dynamic_lookup:ensure to link against dynamic libraries
#-xf95-cpp-input: preprocessor
#-ffree-line-length-132: restrict line length to the standard 132 characters
#-ffpe-summary: print summary of floating point exeptions (invalid, zero, overflow, underflow, inexact and denormal)
#-fimplicit-none: assume "implicit-none" even if not present in source
#-fmodule-private: assume "private" even if not present in source
#-Wcharacter-truncation: warn if character expressions (strings) are truncated
#-Wunderflow: produce a warning when numerical constant expressions are encountered, which yield an UNDERFLOW during compilation
#-Wsuggest-attribute=pure:
#-Wsuggest-attribute=noreturn:
#-Wconversion-extra
#-Wimplicit-procedure
#-Wall: sets the following Fortran options:
# -Waliasing: warn about possible aliasing of dummy arguments. Specifically, it warns if the same actual argument is associated with a dummy argument with "INTENT(IN)" and a dummy argument with "INTENT(OUT)" in a call with an explicit interface.
# -Wampersand: checks if a character expression is continued proberly by an ampersand at the end of the line and at the beginning of the new line
# -Warray-bounds: checks if array reference is out of bounds at compile time. use -fcheck-bounds to also check during runtime
# -Wconversion: warn about implicit conversions between different type
# -Wsurprising: warn when "suspicious" code constructs are encountered. While technically legal these usually indicate that an error has been made.
# -Wc-binding-type:
# -Wintrinsics-std: only standard intrisics are available, e.g. "call flush(6)" will cause an error
# -Wno-tabs: do not allow tabs in source
# -Wintrinsic-shadow: warn if a user-defined procedure or module procedure has the same name as an intrinsic
# -Wline-truncation:
# -Wtarget-lifetime:
# -Wreal-q-constant: warn about real-literal-constants with 'q' exponent-letter
# -Wunused: a number of unused-xxx warnings
# these are general (non -Fortran options) implied by -Wall
# -Waddress
# -Warray-bounds (only with -O2)
# -Wc++11-compat
# -Wchar-subscripts
# -Wcomment
# -Wformat
# -Wmaybe-uninitialized
# -Wnonnull
# -Wparentheses
# -Wpointer-sign
# -Wreorder
# -Wreturn-type
# -Wsequence-point
# -Wstrict-aliasing
# -Wstrict-overflow=1
# -Wswitch
# -Wtrigraphs
# -Wuninitialized
# -Wunknown-pragmas
# -Wunused-function
# -Wunused-label
# -Wunused-value
# -Wunused-variable
# -Wvolatile-register-var
#-Wextra: sets the following Fortran options:
# -Wunuses-parameter:
# -Wcompare-reals:
# these are general (non -Fortran options) implied by -Wextra
# -Wclobbered
# -Wempty-body
# -Wignored-qualifiers
# -Wmissing-field-initializers
# -Woverride-init
# -Wsign-compare
# -Wtype-limits
# -Wuninitialized
# -Wunused-but-set-parameter (only with -Wunused or -Wall)
# -Wno-globals
###################################################################################################
#MORE OPTIONS FOR DEBUGGING DURING COMPILATION
#-Warray-temporarieswarnings: because we have many temporary arrays (performance issue?):
#-Wimplicit-interface: no interfaces for lapack routines
#-Wunsafe-loop-optimizations: warn if the loop cannot be optimized due to nontrivial assumptions.
#-Wstrict-overflow:
DEBUG_OPTIONS_gfortran :=-g\
-fbacktrace\
-fdump-core\
-fcheck=all\
-ffpe-trap=invalid,zero,overflow
###################################################################################################
#COMPILE SWITCHES FOR RUNTIME DEBUGGING
#-ffpe-trap=invalid,\ stop execution if floating point exception is detected (NaN is silent)
# zero,\
# overflow
#-fcheck=all: sets the following Fortran options:
#array-temps
#bounds
#do
#mem
#pointer
#recursion
###################################################################################################
#MORE OPTIONS FOR RUNTIME DEBUGGING
#-ffpe-trap=precision,\
# denormal, \
# underflow
ifeq "$(DEBUG)" "ON"
COMPILE_OPTIONS_$(F90) +=$(DEBUG_OPTIONS_$(F90))
LINK_OPTIONS_$(F90) +=$(DEBUG_OPTIONS_$(F90))
endif
LINK_OPTIONS_$(F90) += $(OPTIMIZATION_$(MAXOPTI)_$(F90))
PRECISION_ifort :=-real-size 64 -integer-size 32 -DFLOAT=8 -DINT=4
#-real-size 32: set precision to one of those 32/64/128 (= 4/8/16 bytes) for standard real (=8 for pReal)
#-integer-size 16: set precision to one of those 16/32/64 (= 2/4/8 bytes) for standard integer (=4 for pInt)
PRECISION_gfortran :=-fdefault-real-8 -fdefault-double-8 -DFLOAT=8 -DINT=4
#-fdefault-real-8: set precision to 8 bytes for standard real (=8 for pReal). Will set size of double to 16 bytes as long as -fdefault-double-8 is not set
#-fdefault-double-8: set precision to 8 bytes for double real, would be 16 bytes because -fdefault-real-8 is used
#-fdefault-integer-8: Use it to set precision to 8 bytes for integer, don't use it for the standard case of pInt=4 (there is no -fdefault-integer-4)
###################################################################################################
COMPILE =$(OPENMP_FLAG_$(F90)) $(STANDARD_CHECK_$(F90)) $(OPTIMIZATION_$(OPTI)_$(F90)) $(COMPILE_OPTIONS_$(F90)) $(INCLUDE_DIRS) $(PRECISION_$(F90))
COMPILE_MAXOPTI =$(OPENMP_FLAG_$(F90)) $(STANDARD_CHECK_$(F90)) $(OPTIMIZATION_$(MAXOPTI)_$(F90)) $(COMPILE_OPTIONS_$(F90)) $(INCLUDE_DIRS) $(PRECISION_$(F90))
###################################################################################################
SOURCE_FILES = \
source_thermal_dissipation.o source_thermal_externalheat.o \
source_damage_isoBrittle.o source_damage_isoDuctile.o source_damage_anisoBrittle.o source_damage_anisoDuctile.o \
source_vacancy_phenoplasticity.o source_vacancy_irradiation.o source_vacancy_thermalfluc.o
KINEMATICS_FILES = \
kinematics_cleavage_opening.o kinematics_slipplane_opening.o \
kinematics_thermal_expansion.o \
kinematics_vacancy_strain.o kinematics_hydrogen_strain.o
PLASTIC_FILES = \
plastic_dislotwin.o plastic_disloUCLA.o plastic_isotropic.o plastic_j2.o \
plastic_phenopowerlaw.o plastic_titanmod.o plastic_nonlocal.o plastic_none.o \
plastic_phenoplus.o
THERMAL_FILES = \
thermal_isothermal.o thermal_adiabatic.o thermal_conduction.o
DAMAGE_FILES = \
damage_none.o damage_local.o damage_nonlocal.o
VACANCYFLUX_FILES = \
vacancyflux_isoconc.o vacancyflux_isochempot.o vacancyflux_cahnhilliard.o
POROSITY_FILES = \
porosity_none.o porosity_phasefield.o
HYDROGENFLUX_FILES = \
hydrogenflux_isoconc.o hydrogenflux_cahnhilliard.o
HOMOGENIZATION_FILES = \
homogenization_RGC.o homogenization_isostrain.o homogenization_none.o
#####################
# Spectral Solver
#####################
DAMASK_spectral.exe: IGNORE := \#
DAMASK_spectral.exe: COMPILE += -DSpectral
DAMASK_spectral.exe: COMPILE_MAXOPTI += -DSpectral
DAMASK_spectral.exe: MESHNAME := mesh.f90
DAMASK_spectral.exe: INTERFACENAME := spectral_interface.f90
DAMASK_spectral.o: IGNORE := \#
DAMASK_spectral.o: COMPILE += -DSpectral
DAMASK_spectral.o: COMPILE_MAXOPTI += -DSpectral
DAMASK_spectral.o: MESHNAME := mesh.f90
DAMASK_spectral.o: INTERFACENAME := spectral_interface.f90
SPECTRAL_SOLVER_FILES = spectral_mech_AL.o spectral_mech_Basic.o spectral_mech_Polarisation.o \
spectral_thermal.o spectral_damage.o
SPECTRAL_FILES = C_routines.o system_routines.o prec.o DAMASK_interface.o IO.o libs.o numerics.o debug.o math.o \
FEsolving.o mesh.o material.o lattice.o \
$(SOURCE_FILES) $(KINEMATICS_FILES) $(PLASTIC_FILES) constitutive.o \
crystallite.o \
$(THERMAL_FILES) $(DAMAGE_FILES) $(VACANCYFLUX_FILES) $(HYDROGENFLUX_FILES) $(POROSITY_FILES) \
$(HOMOGENIZATION_FILES) homogenization.o \
CPFEM2.o \
spectral_utilities.o \
$(SPECTRAL_SOLVER_FILES)
DAMASK_spectral.exe: DAMASK_spectral.o
$(PREFIX) $(LINKERNAME) $(OPENMP_FLAG_$(F90)) $(LINK_OPTIONS_$(F90)) $(STANDARD_CHECK_$(F90)) $(OPTIMIZATION_$(MAXOPTI)_$(F90)) \
-o DAMASK_spectral.exe DAMASK_spectral.o \
$(SPECTRAL_FILES) $(LIBRARIES) $(SUFFIX)
DAMASK_spectral.o: DAMASK_spectral.f90 \
$(SPECTRAL_SOLVER_FILES)
$(PREFIX) $(COMPILERNAME) $(COMPILE_MAXOPTI) -c DAMASK_spectral.f90 $(SUFFIX)
spectral_mech_AL.o: spectral_mech_AL.f90 \
spectral_utilities.o
spectral_mech_Polarisation.o: spectral_mech_Polarisation.f90 \
spectral_utilities.o
spectral_mech_Basic.o: spectral_mech_Basic.f90 \
spectral_utilities.o
spectral_thermal.o: spectral_thermal.f90 \
spectral_utilities.o
spectral_damage.o: spectral_damage.f90 \
spectral_utilities.o
spectral_utilities.o: spectral_utilities.f90 \
CPFEM2.o
#####################
# FEM Solver
#####################
VPATH := ../private/FEM/code
DAMASK_FEM.exe: COMPILE += -DFEM
DAMASK_FEM.exe: COMPILE_MAXOPTI += -DFEM
DAMASK_FEM.exe: MESHNAME := ../private/FEM/code/meshFEM.f90
DAMASK_FEM.exe: INTERFACENAME := ../private/FEM/code/DAMASK_FEM_interface.f90
DAMASK_FEM.exe: INCLUDE_DIRS += -I./
FEM_SOLVER_FILES = FEM_mech.o FEM_thermal.o FEM_damage.o FEM_vacancyflux.o FEM_porosity.o FEM_hydrogenflux.o
FEM_FILES = prec.o DAMASK_interface.o FEZoo.o IO.o libs.o numerics.o debug.o math.o \
FEsolving.o mesh.o material.o lattice.o \
$(SOURCE_FILES) $(KINEMATICS_FILES) $(PLASTIC_FILES) constitutive.o \
crystallite.o \
$(THERMAL_FILES) $(DAMAGE_FILES) $(VACANCYFLUX_FILES) $(HYDROGENFLUX_FILES) $(POROSITY_FILES) \
$(HOMOGENIZATION_FILES) homogenization.o \
CPFEM.o \
FEM_utilities.o $(FEM_SOLVER_FILES)
DAMASK_FEM.exe: DAMASK_FEM_driver.o
$(PREFIX) $(LINKERNAME) $(OPENMP_FLAG_$(F90)) $(LINK_OPTIONS_$(F90)) $(STANDARD_CHECK_$(F90)) $(OPTIMIZATION_$(MAXOPTI)_$(F90)) \
-o DAMASK_FEM.exe DAMASK_FEM_driver.o \
$(FEM_FILES) $(LIBRARIES) $(SUFFIX)
DAMASK_FEM_driver.o: DAMASK_FEM_driver.f90 $(FEM_SOLVER_FILES)
$(PREFIX) $(COMPILERNAME) $(COMPILE_MAXOPTI) -c ../private/FEM/code/DAMASK_FEM_driver.f90 $(SUFFIX)
FEM_mech.o: FEM_mech.f90 \
FEM_utilities.o
FEM_thermal.o: FEM_thermal.f90 \
FEM_utilities.o
FEM_damage.o: FEM_damage.f90 \
FEM_utilities.o
FEM_vacancyflux.o: FEM_vacancyflux.f90 \
FEM_utilities.o
FEM_porosity.o: FEM_porosity.f90 \
FEM_utilities.o
FEM_hydrogenflux.o: FEM_hydrogenflux.f90 \
FEM_utilities.o
FEM_utilities.o: FEM_utilities.f90 \
CPFEM.o
FEZoo.o: $(wildcard FEZoo.f90) \
IO.o
$(IGNORE) $(PREFIX) $(COMPILERNAME) $(COMPILE) -c ../private/FEM/code/FEZoo.f90 $(SUFFIX)
touch FEZoo.o
CPFEM.o: CPFEM.f90 \
homogenization.o
CPFEM2.o: CPFEM2.f90 \
homogenization.o
homogenization.o: homogenization.f90 \
$(THERMAL_FILES) \
$(DAMAGE_FILES) \
$(VACANCYFLUX_FILES) \
$(POROSITY_FILES) \
$(HYDROGENFLUX_FILES) \
$(HOMOGENIZATION_FILES)
thermal_isothermal.o: thermal_isothermal.f90 \
crystallite.o
thermal_adiabatic.o: thermal_adiabatic.f90 \
crystallite.o
thermal_conduction.o: thermal_conduction.f90 \
crystallite.o
damage_none.o: damage_none.f90 \
crystallite.o
damage_local.o: damage_local.f90 \
crystallite.o
damage_nonlocal.o: damage_nonlocal.f90 \
crystallite.o
thermal_conduction.o: thermal_conduction.f90 \
crystallite.o
vacancyflux_isoconc.o: vacancyflux_isoconc.f90 \
crystallite.o
vacancyflux_isochempot.o: vacancyflux_isochempot.f90 \
crystallite.o
vacancyflux_cahnhilliard.o: vacancyflux_cahnhilliard.f90 \
crystallite.o
porosity_none.o: porosity_none.f90 \
crystallite.o
porosity_phasefield.o: porosity_phasefield.f90 \
crystallite.o
hydrogenflux_isoconc.o: hydrogenflux_isoconc.f90 \
crystallite.o
hydrogenflux_cahnhilliard.o: hydrogenflux_cahnhilliard.f90 \
crystallite.o
homogenization_RGC.o: homogenization_RGC.f90 \
crystallite.o
homogenization_isostrain.o: homogenization_isostrain.f90 \
crystallite.o
homogenization_none.o: homogenization_none.f90 \
crystallite.o
crystallite.o: crystallite.f90 \
constitutive.o
constitutive.o: constitutive.f90 \
$(SOURCE_FILES) \
$(KINEMATICS_FILES) \
$(PLASTIC_FILES)
source_thermal_dissipation.o: source_thermal_dissipation.f90 \
lattice.o
source_thermal_externalheat.o: source_thermal_externalheat.f90 \
lattice.o
source_damage_isoBrittle.o: source_damage_isoBrittle.f90 \
lattice.o
source_damage_isoDuctile.o: source_damage_isoDuctile.f90 \
lattice.o
source_damage_anisoBrittle.o: source_damage_anisoBrittle.f90 \
lattice.o
source_damage_anisoDuctile.o: source_damage_anisoDuctile.f90 \
lattice.o
source_vacancy_phenoplasticity.o: source_vacancy_phenoplasticity.f90 \
lattice.o
source_vacancy_irradiation.o: source_vacancy_irradiation.f90 \
lattice.o
source_vacancy_thermalfluc.o: source_vacancy_thermalfluc.f90 \
lattice.o
kinematics_cleavage_opening.o: kinematics_cleavage_opening.f90 \
lattice.o
kinematics_slipplane_opening.o: kinematics_slipplane_opening.f90 \
lattice.o
kinematics_thermal_expansion.o: kinematics_thermal_expansion.f90 \
lattice.o
kinematics_vacancy_strain.o: kinematics_vacancy_strain.f90 \
lattice.o
kinematics_hydrogen_strain.o: kinematics_hydrogen_strain.f90 \
lattice.o
plastic_nonlocal.o: plastic_nonlocal.f90 \
lattice.o
plastic_titanmod.o: plastic_titanmod.f90 \
lattice.o
plastic_disloUCLA.o: plastic_disloUCLA.f90 \
lattice.o
plastic_dislotwin.o: plastic_dislotwin.f90 \
lattice.o
plastic_phenopowerlaw.o: plastic_phenopowerlaw.f90 \
lattice.o
plastic_phenoplus.o: plastic_phenoplus.f90 \
lattice.o
plastic_isotropic.o: plastic_isotropic.f90 \
lattice.o
plastic_j2.o: plastic_j2.f90 \
lattice.o
plastic_none.o: plastic_none.f90 \
lattice.o
ifeq "$(F90)" "gfortran"
lattice.o: lattice.f90 \
material.o
$(PREFIX) $(COMPILERNAME) $(COMPILE) -ffree-line-length-240 -c lattice.f90 $(SUFFIX)
# long lines for interaction matrix
else
lattice.o: lattice.f90 \
material.o
endif
material.o: material.f90 \
mesh.o
mesh.o: mesh.f90 \
$(wildcard meshFEM.f90) \
FEsolving.o \
math.o \
FEZoo.o
$(PREFIX) $(COMPILERNAME) $(COMPILE) -c $(MESHNAME) -o mesh.o $(SUFFIX)
FEsolving.o: FEsolving.f90 \
debug.o
math.o: math.f90 \
debug.o
debug.o: debug.f90 \
numerics.o
numerics.o: numerics.f90 \
libs.o
libs.o: libs.f90 \
IO.o
IO.o: IO.f90 \
DAMASK_interface.o
DAMASK_interface.o: spectral_interface.f90 \
$(wildcard DAMASK_FEM_interface.f90) \
prec.o
prec.o: prec.f90 \
system_routines.o
C_routines.o: C_routines.c
system_routines.o: system_routines.f90 \
C_routines.o
%.o : %.f90
$(PREFIX) $(COMPILERNAME) $(COMPILE) -c $< $(SUFFIX)
%.o : %.c
$(CCOMPILERNAME) -c $<
.PHONY: tidy
tidy:
@rm -rf *.o
@rm -rf *.mod
@rm -rf *.inst.f90 # for instrumentation
@rm -rf *.pomp.f90 # for instrumentation
@rm -rf *.pp.f90 # for instrumentation
@rm -rf *.pdb # for instrumnentation
@rm -rf *.opari.inc # for instrumnentation
.PHONY: cleanDAMASK
cleanDAMASK:
@rm -rf *.exe
@rm -rf *.marc
@rm -rf *.o
@rm -rf *.mod
@rm -rf *.inst.f90 # for instrumentation
@rm -rf *.pomp.f90 # for instrumentation
@rm -rf *.pp.f90 # for instrumentation
@rm -rf *.pdb # for instrumentation
@rm -rf *.opari.inc # for instrumentation
.PHONY: help
help:
F90="$(F90)"
COMPILERNAME="$(COMPILERNAME)"
COMPILEROUT="$(COMPILEROUT)"