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Sun, Dec 1, 08:41

Makefile.intel

PROGRAM_NAME := liblenstoolhpc.so
#CXX=g++ -lm -ffast-math -ftree-loop-vectorize
CXX=icpc
#
program_CXX_SRCS := $(wildcard *.cpp)
$(info $$program_CXX_SRCS is [${program_CXX_SRCS}])
program_CXX_OBJS := ${program_CXX_SRCS:.cpp=.o}
$(info $$program_CXX_OBJS is [${program_CXX_OBJS}])
#
program_C_SRCS := $(wildcard *.c)
program_C_OBJS := ${program_C_SRCS:.c=.o}
#
#program_CU_SRCS := $(wildcard *.cu)
#program_CU_SRCS += $(wildcard ../../*.cu) #Find CUDA source files from additional directories
#program_CU_HEADERS := $(wildcard *.cuh) #Optional: Include .cuh files as dependencies
#program_CU_HEADERS += $(wildcard ../../*.cuh) #Find .cuh files from additional directories
#program_CU_OBJS := ${program_CU_SRCS:.cu=.cuo}
#
program_INCLUDE_DIRS := . /usr/local/cuda-7.5/include/ #C++ Include directories
program_INCLUDE_DIRS += $(CFITSIO_ROOT)/include
program_INCLUDE_DIRS += $(LENSTOOL_ROOT)/include
program_INCLUDE_DIRS += $(GSL_ROOT)/include
#program_INCLUDE_DIRS += /users/fgilles/bin/iaca-lin32/include
#program_CU_INCLUDE_DIRS := /home/users/amclaugh/CUB/cub-1.3.2/ #CUDA Include directories
#
program_INCLUDE_LIBS := /usr/lib64/ #Include libraries
program_INCLUDE_LIBS += $(CFITSIO_ROOT)/lib #Include libraries
program_INCLUDE_LIBS += $(LENSTOOL_ROOT)/src
#program_INCLUDE_LIBS += /home/epfl/cerschae/LENSTOOL/lenstool-6.8.1/src
#
# Compiler flags
CPPFLAGS += $(foreach includedir,$(program_INCLUDE_DIRS),-I$(includedir))
CPPFLAGS += $(foreach includelib,$(program_INCLUDE_LIBS),-L$(includelib) )
#CXXFLAGS += -march=core-avx2 -g -O3 -std=c++0x -Wall -pedantic
CPPFLAGS += -fPIC -ftz -qopenmp -xHost -fma -pedantic -lcfitsio
#CPPFLAGS += -no-vec
#CPPFLAGS += -qopt-prefetch-distance=64,8 -qopt-streaming-cache-evict=0 -fPIC -qopenmp -xMIC-AVX512 -fma -g -O3 -std=c++0x -Wall -pedantic
#CPPFLAGS += -qopt-report=5 -S
CXXFLAGS += -g -O3 -std=c++0x -Wall
#
#GEN_SM35 := -gencode=arch=compute_35,code=\"sm_35,compute_35\" #Target CC 3.5, for example
OBJECTS = $(program_CXX_OBJS) $(program_C_OBJS)
$(info $$OBJECTS is [${OBJECTS}])
#
.PHONY: all clean distclean
#
all: $(PROGRAM_NAME)
#
debug: CXXFLAGS = -g -O0 -fPIC -std=c++0x -Wall -pedantic -DDEBUG $(EXTRA_FLAGS)
debug: NVFLAGS = -O0 $(GEN_SM35) -g -G -Xcompiler $(CPPFLAGS)
debug: NVFLAGS += $(foreach includedir,$(program_CU_INCLUDE_DIRS),-I$(includedir))
debug: $(PROGRAM_NAME)
# Rule for compilation of CUDA source (C++ source can be handled automatically)
#%.cuo: %.cu %.cuh
# nvcc $(NVFLAGS) -o $@ -dc $<
%.o: %.cpp %.h
$(CXX) $(CXXFLAGS) $(CPPFLAGS) -c -o $@ $<
# This is pretty ugly...details below
# The program depends on both C++ and CUDA Objects, but storing CUDA objects as .o files results in circular dependency
# warnings from Make. However, nvcc requires that object files for linking end in the .o extension, else it will throw
# an error saying that it doesn't know how to handle the file. Using a non .o rule for Make and then renaming the file
# to have the .o extension for nvcc won't suffice because the program will depend on the non .o file but the files in
# the directory after compilation will have a .o suffix. Thus, when one goes to recompile the code all files will be
# recompiled instead of just the ones that have been updated.
#
# The solution below solves these issues by silently converting the non .o suffix needed by make to the .o suffix
# required by nvcc, calling nvcc, and then converting back to the non .o suffix for future, dependency-based
# compilation.
$(PROGRAM_NAME): $(OBJECTS)
$(CXX) $(CPPFLAGS) -shared -o $@ $(program_CXX_OBJS) $(program_C_OBJS) -llenstool
#$(PROGRAM_NAME): $(OBJECTS)
# @ for cu_obj in $(program_CU_OBJS); \
# do \
# mv $$cu_obj $$cu_obj.o; \
# done #append a .o suffix for nvcc
# $(CXX) $(CPPFLAGS) -shared -o $@ $(program_CXX_OBJS) $(program_C_OBJS) $(CUO_O_OBJECTS)
# @ for cu_obj in $(CUO_O_OBJECTS); \
# do \
# mv $$cu_obj $${cu_obj%.*}; \
# done #remove the .o for make
clean:
@- $(RM) $(PROGRAM_NAME) $(OBJECTS) *~ *.o *.optrpt *.so
distclean: clean

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