# $Id: binmake.gmk,v 1.6 2013/11/29 15:32:12 arce Exp $ # ---------------------------------------------------------- # Script defining rules and paths for making binaries. # First implementation: Gabriele Cosmo, 25/06/1998. # ---------------------------------------------------------- ifndef LDFLAGS # include $(G4INSTALL)/config/architecture.gmk include $(GAMOSINSTALL)/config/architecture.gmk endif G4LIBDIR := $(GAMOSINSTALL)/lib/$(G4SYSTEM) #?? G4LIBDIR := $(G4LIB)/$(G4SYSTEM) # Define variable checking for existence of centrally installed headers. # If check will be true, avoid explicit definition of paths to INCFLAGS. # G4INCLUDE_EXEC := $(shell [ -r $(G4INCLUDE)/globals.hh ] && echo 1) include $(G4INSTALL)/config/G4UI_USE.gmk include $(G4INSTALL)/config/G4VIS_USE.gmk include $(G4INSTALL)/config/interactivity.gmk include $(G4INSTALL)/config/analysis.gmk # Verify the existance of the global static libraries first. # if not verify the existance of global shared libraries (Unix only). # ifndef G4LIB_USE_GRANULAR GLOBALLIBS := $(shell test -f $(G4LIB)/$(G4SYSTEM)/libG4global.a && echo yes) ifndef GLOBALLIBS GLOBALLIBS := $(shell test -f $(G4LIB)/$(G4SYSTEM)/libG4global.$(SHEXT) && echo yes) SHAREDLIBS := $(shell test -f $(G4LIB)/$(G4SYSTEM)/libG4global.$(SHEXT) && echo yes) endif endif # Verify the existance of granular shared libraries (Unix) or global DLLs (Windows) # ifndef SHAREDLIBS SHAREDLIBS := $(shell test -f $(G4LIB)/$(G4SYSTEM)/libG4globman.$(SHEXT) && echo yes) endif ifneq (,$(findstring WIN32-VC,$(G4SYSTEM))) SHAREDLIBS := $(shell test -f $(G4LIB)/$(G4SYSTEM)/G4global.$(SHEXT) && echo yes) endif ifndef INCFLAGS ifeq ($(G4INCLUDE_EXEC),1) INCFLAGS := -I$(G4INCLUDE) else INCFLAGS := \ -I$(G4BASE)/global/management/include \ -I$(G4BASE)/global/HEPRandom/include \ -I$(G4BASE)/global/HEPGeometry/include \ -I$(G4BASE)/global/HEPNumerics/include \ -I$(G4BASE)/run/include \ -I$(G4BASE)/materials/include \ -I$(G4BASE)/parameterisations/gflash/include \ -I$(G4BASE)/particles/management/include \ -I$(G4BASE)/particles/adjoint/include \ -I$(G4BASE)/particles/bosons/include \ -I$(G4BASE)/particles/leptons/include \ -I$(G4BASE)/particles/hadrons/barions/include \ -I$(G4BASE)/particles/hadrons/ions/include \ -I$(G4BASE)/particles/hadrons/mesons/include \ -I$(G4BASE)/particles/shortlived/include \ -I$(G4BASE)/physics_lists/lists/include \ -I$(G4BASE)/physics_lists/builders/include \ -I$(G4BASE)/processes/management/include \ -I$(G4BASE)/processes/cuts/include \ -I$(G4BASE)/processes/biasing/include \ -I$(G4BASE)/processes/scoring/include \ -I$(G4BASE)/processes/decay/include \ -I$(G4BASE)/processes/optical/include \ -I$(G4BASE)/processes/transportation/include \ -I$(G4BASE)/processes/parameterisation/include \ -I$(G4BASE)/processes/electromagnetic/adjoint/include \ -I$(G4BASE)/processes/electromagnetic/standard/include \ -I$(G4BASE)/processes/electromagnetic/muons/include \ -I$(G4BASE)/processes/electromagnetic/utils/include \ -I$(G4BASE)/processes/electromagnetic/xrays/include \ -I$(G4BASE)/processes/electromagnetic/lowenergy/include \ -I$(G4BASE)/processes/electromagnetic/highenergy/include \ -I$(G4BASE)/processes/electromagnetic/polarisation/include \ -I$(G4BASE)/processes/hadronic/cross_sections/include \ -I$(G4BASE)/processes/hadronic/management/include \ -I$(G4BASE)/processes/hadronic/models/abrasion/include \ -I$(G4BASE)/processes/hadronic/models/binary_cascade/include \ -I$(G4BASE)/processes/hadronic/models/cascade/cascade/include \ -I$(G4BASE)/processes/hadronic/models/cascade/evaporation/include \ -I$(G4BASE)/processes/hadronic/models/cascade/utils/include \ -I$(G4BASE)/processes/hadronic/models/chiral_inv_phase_space/body/include \ -I$(G4BASE)/processes/hadronic/models/chiral_inv_phase_space/interface/include \ -I$(G4BASE)/processes/hadronic/models/chiral_inv_phase_space/cross_sections/include \ -I$(G4BASE)/processes/hadronic/models/chiral_inv_phase_space/fragmentation/include \ -I$(G4BASE)/processes/hadronic/models/chiral_inv_phase_space/processes/include \ -I$(G4BASE)/processes/hadronic/models/coherent_elastic/include \ -I$(G4BASE)/processes/hadronic/models/de_excitation/ablation/include \ -I$(G4BASE)/processes/hadronic/models/de_excitation/evaporation/include \ -I$(G4BASE)/processes/hadronic/models/de_excitation/fermi_breakup/include \ -I$(G4BASE)/processes/hadronic/models/de_excitation/fission/include \ -I$(G4BASE)/processes/hadronic/models/de_excitation/gem_evaporation/include \ -I$(G4BASE)/processes/hadronic/models/de_excitation/handler/include \ -I$(G4BASE)/processes/hadronic/models/de_excitation/management/include \ -I$(G4BASE)/processes/hadronic/models/de_excitation/multifragmentation/include \ -I$(G4BASE)/processes/hadronic/models/de_excitation/photon_evaporation/include \ -I$(G4BASE)/processes/hadronic/models/de_excitation/util/include \ -I$(G4BASE)/processes/hadronic/models/em_dissociation/include \ -I$(G4BASE)/processes/hadronic/models/general_finalstate/include \ -I$(G4BASE)/processes/hadronic/models/high_energy/include \ -I$(G4BASE)/processes/hadronic/models/im_r_matrix/include \ -I$(G4BASE)/processes/hadronic/models/incl/include \ -I$(G4BASE)/processes/hadronic/models/inucl/include \ -I$(G4BASE)/processes/hadronic/models/isotope_production/include \ -I$(G4BASE)/processes/hadronic/models/leading_particle/include \ -I$(G4BASE)/processes/hadronic/models/lll_fission/include \ -I$(G4BASE)/processes/hadronic/models/low_energy/include \ -I$(G4BASE)/processes/hadronic/models/management/include \ -I$(G4BASE)/processes/hadronic/models/neutron_hp/include \ -I$(G4BASE)/processes/hadronic/models/particle_hp/include \ -I$(G4BASE)/processes/hadronic/models/parton_string/diffraction/include \ -I$(G4BASE)/processes/hadronic/models/parton_string/hadronization/include \ -I$(G4BASE)/processes/hadronic/models/parton_string/management/include \ -I$(G4BASE)/processes/hadronic/models/parton_string/qgsm/include \ -I$(G4BASE)/processes/hadronic/models/photolepton_hadron/muon_nuclear/include \ -I$(G4BASE)/processes/hadronic/models/pre_equilibrium/exciton_model/include \ -I$(G4BASE)/processes/hadronic/models/qmd/include \ -I$(G4BASE)/processes/hadronic/models/quark_molecular_dynamics/body/include \ -I$(G4BASE)/processes/hadronic/models/quark_molecular_dynamics/util/include \ -I$(G4BASE)/processes/hadronic/models/radioactive_decay/include \ -I$(G4BASE)/processes/hadronic/models/relativistic_qmd/include \ -I$(G4BASE)/processes/hadronic/models/relativistic_qmd/uplusplus/include \ -I$(G4BASE)/processes/hadronic/models/rpg/include \ -I$(G4BASE)/processes/hadronic/models/theo_high_energy/include \ -I$(G4BASE)/processes/hadronic/models/lepto_nuclear/include/ \ -I$(G4BASE)/processes/hadronic/models/util/include \ -I$(G4BASE)/processes/hadronic/processes/include \ -I$(G4BASE)/processes/hadronic/stopping/include \ -I$(G4BASE)/processes/hadronic/util/include \ -I$(G4BASE)/geometry/management/include \ -I$(G4BASE)/geometry/solids/CSG/include \ -I$(G4BASE)/geometry/solids/specific/include \ -I$(G4BASE)/geometry/solids/BREPS/include \ -I$(G4BASE)/geometry/solids/Boolean/include \ -I$(G4BASE)/geometry/divisions/include \ -I$(G4BASE)/geometry/volumes/include \ -I$(G4BASE)/geometry/navigation/include \ -I$(G4BASE)/geometry/magneticfield/include \ -I$(G4BASE)/geometry/biasing/include \ -I$(G4BASE)/track/include \ -I$(G4BASE)/tracking/include \ -I$(G4BASE)/digits_hits/detector/include \ -I$(G4BASE)/digits_hits/hits/include \ -I$(G4BASE)/digits_hits/digits/include \ -I$(G4BASE)/digits_hits/scorer/include \ -I$(G4BASE)/digits_hits/utils/include \ -I$(G4BASE)/persistency/ascii/include \ -I$(G4BASE)/persistency/gdml/include \ -I$(G4BASE)/persistency/mctruth/include \ -I$(G4BASE)/readout/include \ -I$(G4BASE)/event/include \ -I$(G4BASE)/error_propagation/include \ -I$(G4BASE)/graphics_reps/include \ -I$(G4BASE)/intercoms/include \ -I$(G4BASE)/externals/clhep/include ifdef GAMOS_NO_ROOT INCFLAGS += -DGAMOS_NO_ROOT endif ifdef G4LIB_USE_G3TOG4 INCFLAGS += -I$(G4BASE)/g3tog4/include endif endif endif CPPFLAGS += $(INCFLAGS) LDFLAGS += -L$(G4LIBDIR) G4TMPDIR := $(G4TMP)/$(G4SYSTEM)/$(G4TARGET) G4BINDIR := $(G4BIN)/$(G4SYSTEM) ifdef G4EXLIB G4LIBDIR := $(G4TMPDIR) LDFLAGS += -L$(G4LIBDIR) ifdef SHAREDLIBS ifdef G4RUNPATHOPTION # For the example dependent directory, keep the # path to the shared lib in the executable. LDFLAGS += $(G4RUNPATHOPTION)$(G4LIBDIR) endif endif include $(GAMOSINSTALL)/config/common.gmk endif ifdef LDLIBS USER_DEFINED_LDLIBS := 1 endif # Because of the script for granular libraries which replaces part of LDLIBS # and because of the way user defined LDLIBS was augmented historically I # have split LDLIBS into 4 parts... # ifndef USER_DEFINED_LDLIBS # TARGETLIB is the library generated for the final user application; # TARGOBJEXT defines the target object extension # ifdef G4EXLIB ifeq (,$(findstring WIN32-VC,$(G4SYSTEM))) # Unix TARGETLIB := -l$(G4TARGET) TARGOBJEXT := o else # Windows TARGETLIB := lib$(G4TARGET).a TARGOBJEXT := OBJ endif endif # LDLIBS1 contains the very high level libraries... # LDLIBS1 := $(EXTRALIBS) # VISLIBS (and UILIBS?) is handled by the granular library script... # ifdef GLOBALLIBS LDLIBS2 := $(VISLIBS) -lG4interfaces -lG4persistency ifdef G4LIB_USE_G3TOG4 LDLIBS2 += -lG3toG4 endif LDLIBS2 += -L$(G4INSTALL)/lib/Linux-g++ \ -lG4interfaces -lG4persistency -lG4analysis -lG4error_propagation -lG4readout -lG4physicslists -lG4run -lG4event -lG4tracking -lG4parmodels -lG4processes -lG4digits_hits -lG4track -lG4particles -lG4geometry -lG4materials -lG4graphics_reps -lG4intercoms -lG4global -lG4FR -lG4GMocren -lG4OpenGL -lG4RayTracer -lG4Tree -lG4VRML -lG4clhep -lG4gl2ps -lG4visHepRep -lG4visXXX -lG4vis_management -lG4modeling -lG4zlib else # The next lines specifically should read LDLIBS2 = , not LDLIBS2 :=, so # that it is not expanded until the directory G4TMPDIR is created. ifeq ($(G4INCLUDE_EXEC),1) LDLIBS2 = $(shell \ G4TMP=$(G4TMP); export G4TMP; \ if [ \( -f $(G4LIB)/$(G4SYSTEM)/liblist \ -a -f $(G4LIB)/$(G4SYSTEM)/libname.map \) ]; then \ $(G4LIB)/$(G4SYSTEM)/liblist \ -m $(G4LIB)/$(G4SYSTEM) \ < $(G4LIB)/$(G4SYSTEM)/libname.map; fi) else LDLIBS2 = $(shell \ G4TMP=$(G4TMP); export G4TMP; \ if [ \( -f $(G4LIB)/$(G4SYSTEM)/liblist \ -a -f $(G4LIB)/$(G4SYSTEM)/libname.map \) ]; then \ $(G4LIB)/$(G4SYSTEM)/liblist \ -d $(G4TMPDIR) \ < $(G4LIB)/$(G4SYSTEM)/libname.map; fi) # Warning: do not add to LDLIBS2 with += because this causes it to be # expanded too soon. Hence extra libraries must have a different name... # Extra libraries to resolve remaining circular dependencies... # LDLIBS2EXTRA = endif endif ifdef G4LIB_USE_ZLIB # LDLIBS2 += -lG4zlib endif # LDLIBS3 contains the first set of low level libraries... # ifdef G4LIB_USE_GDML LDLIBS3 += $(GDMLLIBS) endif LDLIBS3 += $(INTYLIBS) LDLIBS3 += $(ANALYSISLIBS) endif # ifndef USER_DEFINED_LDLIBS # LDLIBS4 contains the next set of low level libraries which historically # (why?) the user is not supposed to be able to define... # LDLIBS4 += $(LOADLIBS) # Finally assemble libraries... # ifdef USER_DEFINED_LDLIBS LDLIBS_PREFINAL := $(LDLIBS) LDLIBS_KERNEL := $(LDLIBS) else # Again, do not use := or +=. See note on LDLIBS2 above. LDLIBS_PREFINAL = $(LDLIBS1) $(LDLIBS2) $(LDLIBS2EXTRA) $(LDLIBS3) # Version leaving out EXTRALIBS LDLIBS_KERNEL = $(LDLIBS2) $(LDLIBS2EXTRA) $(LDLIBS3) endif LDLIBS_PREFINAL += $(LDLIBS4) LDLIBS_KERNEL += $(LDLIBS4) ifneq (,$(findstring WIN32-VC,$(G4SYSTEM))) # Windows WIN32TMP := $(patsubst -L%,$(LIB_PATH)%,$(LDFLAGS)) LDFLAGS = $(patsubst /,$(PATH_DEL),$(WIN32TMP)) WIN32TMP2 := $(patsubst -L%,$(LIB_PATH)%,$(LDLIBS_PREFINAL)) WIN32TMP3 := $(patsubst -L%,$(LIB_PATH)%,$(LDLIBS1)) WIN32TMP4 := $(patsubst -L%,$(LIB_PATH)%,$(LDLIBS_KERNEL)) ifdef SHAREDLIBS ifdef G4LIB_USE_DLL LDLIBS = $(TARGETLIB) $(patsubst -l%,lib%.a,$(WIN32TMP3)) $(patsubst -l%,lib%.lib,$(WIN32TMP4)) else LDLIBS = $(TARGETLIB) $(patsubst -l%,lib%.lib,$(WIN32TMP2)) endif else LDLIBS = $(TARGETLIB) $(patsubst -l%,lib%.a,$(WIN32TMP2)) endif OUT := /Fe else # Unix LDLIBS = $(TARGETLIB) $(LDLIBS_PREFINAL) OUT := -o endif ifdef transform-RPath # Invoke system specific transformation of include $(G4INSTALL)/config/sys/$(G4SYSTEM)-runpath.gmk endif sources := $(wildcard $(G4TARGET).cc) objects := $(patsubst %.cc,$(G4TMPDIR)/exe/%.$(TARGOBJEXT),$(sources)) dependencies := $(patsubst %.cc,$(G4TMPDIR)/exe/%.d,$(sources)) LINK_DEPENDENCIES := $(G4TMPDIR)/exe/obj.last $(EXTRA_LINK_DEPENDENCIES) .PHONY: bin clean clean_bin debug # Make $(G4TARGET) executable. bin: $(G4BINDIR)/$(G4TARGET) $(G4BINDIR)/$(G4TARGET): $(LINK_DEPENDENCIES) ifndef USER_DEFINED_LDLIBS ifndef GLOBALLIBS @echo "Using granular libraries ... $(G4LIB)/$(G4SYSTEM)/liblist " @if [ ! \( -f $(G4LIB)/$(G4SYSTEM)/liblist \ -a -f $(G4LIB)/$(G4SYSTEM)/libname.map \) ]; then \ echo "ERROR: No liblist program or library map file."; \ echo " These are needed for building with granular"; \ echo " libraries."; \ echo ' cd $$G4INSTALL/source'; \ echo " gmake"; \ echo " or if you are sure you have already made all the"; \ echo " granular libraries:"; \ echo " gmake libmap"; \ exit 1; fi else @echo "Using global libraries ..." endif endif @if [ ! -d $(G4BINDIR) ] ; then mkdir $(G4BINDIR) ;fi ifdef CPPVERBOSE $(CXX) $(CXXFLAGS) $(CPPFLAGS) \ $(OUT)$(G4BINDIR)/$(G4TARGET) $(objects) $(LDFLAGS) \ $(TARGETLIB) $(EXTRALIBS) $(LDLIBS) # $(LDLIBS) else @echo Linking $(G4TARGET) ... @$(CXX) $(CXXFLAGS) $(CPPFLAGS) \ $(OUT)$(G4BINDIR)/$(G4TARGET) $(objects) $(LDFLAGS) \ $(TARGETLIB) $(EXTRALIBS) $(LDLIBS) # $(LDLIBS) @if [ \( -f $(G4BINDIR)/$(G4TARGET) \) ]; then \ echo "... Done!"; fi endif # Touch the versioning file ifdef G4EXLIB $(G4TMPDIR)/exe/obj.last: lib $(objects) else $(G4TMPDIR)/exe/obj.last: $(objects) endif @$(TOUCH) $@ # Make the $(G4TARGET).$(TARGOBJEXT) file. $(G4TMPDIR)/exe/$(G4TARGET).$(TARGOBJEXT) : $(G4TARGET).cc ifdef CPPVERBOSE $(CXX) $(CXXFLAGS) $(CPPFLAGS) $(APPFLAGS) \ -c $(OUT_OBJ)$(G4TMPDIR)/exe/$(G4TARGET).$(TARGOBJEXT) $(G4TARGET).cc else @echo Compiling $(G4TARGET).cc ... @$(CXX) $(CXXFLAGS) $(CPPFLAGS) $(APPFLAGS) \ -c $(OUT_OBJ)$(G4TMPDIR)/exe/$(G4TARGET).$(TARGOBJEXT) $(G4TARGET).cc endif GPPFLAGS := "-M" # Make the $(G4TARGET).d file and include it. # The ideas for this come from the GNU Make Manual, Section 4.12, # Generating Prerequisites Automatically. The g++ compiler has an # option -M or -MM to write to standard output a list of dependencies # based on the #include statements. The "sed" adds the dependency # file itself as a second target. The result is a mini-makefile which # specifies the .o and .d files as targets which depend on all the # files found through the #include statements. This file is then # included, causing GNU Make to honour these dependencies. # The "set -e" causes the shell to exit with an error when the "g++" # fails (otherwise it would only notice the last command in the # pipeline, namely "sed"). GNU Make notices the error and exits # sooner than it otherwise would (still not as soon as I expect, # though!). Even then, an empty file is made, so "[ -s $@ ] || rm -f # $@" removes it ([ -s filename ] gives zero exit code only if file # exists and has a size greater than zero). This avoids making # corrupt .d files which would play havoc with your next build. $(G4TMPDIR)/exe/$(G4TARGET).d: $(G4TARGET).cc @if [ ! -d $(G4TMP)/$(G4SYSTEM) ] ; then mkdir $(G4TMP)/$(G4SYSTEM) ;fi @if [ ! -d $(G4TMPDIR) ] ; then mkdir $(G4TMPDIR) ;fi @if [ ! -d $(G4TMPDIR)/exe ] ; then mkdir $(G4TMPDIR)/exe ;fi @echo Making dependency for file $< ... @set -e;\ g++ $(GPPFLAGS) $(CPPFLAGS) -w $< |\ sed 's!$(G4TARGET)\.$(TARGOBJEXT)!$(G4TMPDIR)/exe/& $@!' >$@;\ [ -s $@ ] || rm -f $@ ifneq ($(dependencies),) ifneq ($(MAKECMDGOALS),clean) -include $(dependencies) endif endif clean:: @echo Cleaning up ... @rm -f ./core @rm -rf $(G4TMPDIR) @rm -f $(G4LIBDIR)/lib$(G4TARGET).a @rm -f $(G4LIBDIR)/lib$(G4TARGET).$(SHEXT) @rm -f $(G4BINDIR)/$(G4TARGET) ifdef CFRONT @rm -rf $(G4TREP)/exec endif clean_bin:: @echo Removing application $(G4TARGET) ... @rm -f ./core @rm -f $(G4BINDIR)/$(G4TARGET)