final/libomptarget/deviceRTLs/nvptx/CMakeLists.txt - openmp - Git at Google

 ##===----------------------------------------------------------------------===##
 #
 #                     The LLVM Compiler Infrastructure
 #
 # This file is dual licensed under the MIT and the University of Illinois Open
 # Source Licenses. See LICENSE.txt for details.
 #
 ##===----------------------------------------------------------------------===##
 #
 # Build the NVPTX (CUDA) Device RTL if the CUDA tools are available
 #
 ##===----------------------------------------------------------------------===##

 set(LIBOMPTARGET_NVPTX_ALTERNATE_HOST_COMPILER "" CACHE STRING
   "Path to alternate NVCC host compiler to be used by the NVPTX device RTL.")

 if(LIBOMPTARGET_NVPTX_ALTERNATE_HOST_COMPILER)
   find_program(ALTERNATE_CUDA_HOST_COMPILER NAMES ${LIBOMPTARGET_NVPTX_ALTERNATE_HOST_COMPILER})
   if(NOT ALTERNATE_CUDA_HOST_COMPILER)
     libomptarget_say("Not building CUDA offloading device RTL: invalid NVPTX alternate host compiler.")
   endif()
   set(CUDA_HOST_COMPILER ${ALTERNATE_CUDA_HOST_COMPILER} CACHE FILEPATH "" FORCE)
 endif()

 # We can't use clang as nvcc host preprocessor, so we attempt to replace it with
 # gcc.
 if(CUDA_HOST_COMPILER MATCHES clang)

   find_program(LIBOMPTARGET_NVPTX_ALTERNATE_GCC_HOST_COMPILER NAMES gcc)

   if(NOT LIBOMPTARGET_NVPTX_ALTERNATE_GCC_HOST_COMPILER)
     libomptarget_say("Not building CUDA offloading device RTL: clang is not supported as NVCC host compiler.")
     libomptarget_say("Please include gcc in your path or set LIBOMPTARGET_NVPTX_ALTERNATE_HOST_COMPILER to the full path of of valid compiler.")
     return()
   endif()
   set(CUDA_HOST_COMPILER "${LIBOMPTARGET_NVPTX_ALTERNATE_GCC_HOST_COMPILER}" CACHE FILEPATH "" FORCE)
 endif()

 if(LIBOMPTARGET_DEP_CUDA_FOUND)
   libomptarget_say("Building CUDA offloading device RTL.")

   # We really don't have any host code, so we don't need to care about
   # propagating host flags.
   set(CUDA_PROPAGATE_HOST_FLAGS OFF)

   set(cuda_src_files
       src/cancel.cu
       src/critical.cu
       src/data_sharing.cu
       src/libcall.cu
       src/loop.cu
       src/omptarget-nvptx.cu
       src/parallel.cu
       src/reduction.cu
       src/sync.cu
       src/task.cu
   )

   set(omp_data_objects src/omp_data.cu)

   # Get the compute capability the user requested or use SM_35 by default.
   # SM_35 is what clang uses by default.
   set(default_capabilities 35)
   if (DEFINED LIBOMPTARGET_NVPTX_COMPUTE_CAPABILITY)
     set(default_capabilities ${LIBOMPTARGET_NVPTX_COMPUTE_CAPABILITY})
     libomptarget_warning_say("LIBOMPTARGET_NVPTX_COMPUTE_CAPABILITY is deprecated, please use LIBOMPTARGET_NVPTX_COMPUTE_CAPABILITIES")
   endif()
   set(LIBOMPTARGET_NVPTX_COMPUTE_CAPABILITIES ${default_capabilities} CACHE STRING
     "List of CUDA Compute Capabilities to be used to compile the NVPTX device RTL.")
   string(REPLACE "," ";" nvptx_sm_list ${LIBOMPTARGET_NVPTX_COMPUTE_CAPABILITIES})

   foreach(sm ${nvptx_sm_list})
     set(CUDA_ARCH ${CUDA_ARCH} -gencode arch=compute_${sm},code=sm_${sm})
   endforeach()

   # Activate RTL message dumps if requested by the user.
   set(LIBOMPTARGET_NVPTX_DEBUG FALSE CACHE BOOL
     "Activate NVPTX device RTL debug messages.")
   if(${LIBOMPTARGET_NVPTX_DEBUG})
     set(CUDA_DEBUG -DOMPTARGET_NVPTX_DEBUG=-1 -g --ptxas-options=-v)
   endif()

   # NVPTX runtime library has to be statically linked. Dynamic linking is not
   # yet supported by the CUDA toolchain on the device.
   set(BUILD_SHARED_LIBS OFF)
   set(CUDA_SEPARABLE_COMPILATION ON)

   cuda_add_library(omptarget-nvptx STATIC ${cuda_src_files} ${omp_data_objects}
       OPTIONS ${CUDA_ARCH} ${CUDA_DEBUG})

   # Install device RTL under the lib destination folder.
   install(TARGETS omptarget-nvptx ARCHIVE DESTINATION "${OPENMP_INSTALL_LIBDIR}")

   target_link_libraries(omptarget-nvptx ${CUDA_LIBRARIES})


   # Check if we can create an LLVM bitcode implementation of the runtime library
   # that could be inlined in the user application. For that we need to find
   # a Clang compiler capable of compiling our CUDA files to LLVM bitcode and
   # an LLVM linker.
   set(LIBOMPTARGET_NVPTX_CUDA_COMPILER "" CACHE STRING
     "Location of a CUDA compiler capable of emitting LLVM bitcode.")
   set(LIBOMPTARGET_NVPTX_BC_LINKER "" CACHE STRING
     "Location of a linker capable of linking LLVM bitcode objects.")

   include(LibomptargetNVPTXBitcodeLibrary)

   set(bclib_default FALSE)
   if (${LIBOMPTARGET_NVPTX_BCLIB_SUPPORTED})
     set(bclib_default TRUE)
   endif()
   set(LIBOMPTARGET_NVPTX_ENABLE_BCLIB ${bclib_default} CACHE BOOL
     "Enable CUDA LLVM bitcode offloading device RTL.")
   if (${LIBOMPTARGET_NVPTX_ENABLE_BCLIB})
     if (NOT ${LIBOMPTARGET_NVPTX_BCLIB_SUPPORTED})
       libomptarget_error_say("Cannot build CUDA LLVM bitcode offloading device RTL!")
     endif()
     libomptarget_say("Building CUDA LLVM bitcode offloading device RTL.")

     # Set flags for LLVM Bitcode compilation.
     set(bc_flags ${LIBOMPTARGET_NVPTX_SELECTED_CUDA_COMPILER_FLAGS})
     if(${LIBOMPTARGET_NVPTX_DEBUG})
       set(bc_flags ${bc_flags} -DOMPTARGET_NVPTX_DEBUG=-1)
     else()
       set(bc_flags ${bc_flags} -DOMPTARGET_NVPTX_DEBUG=0)
     endif()

     # CUDA 9 header files use the nv_weak attribute which clang is not yet prepared
     # to handle. Therefore, we use 'weak' instead. We are compiling only for the
     # device, so it should be equivalent.
     if(CUDA_VERSION_MAJOR GREATER 8)
       set(bc_flags ${bc_flags} -Dnv_weak=weak)
     endif()

     # Create target to build all Bitcode libraries.
     add_custom_target(omptarget-nvptx-bc)

     # Generate a Bitcode library for all the compute capabilities the user requested.
     foreach(sm ${nvptx_sm_list})
       set(cuda_arch --cuda-gpu-arch=sm_${sm})

       # Compile CUDA files to bitcode.
       set(bc_files "")
       foreach(src ${cuda_src_files})
         get_filename_component(infile ${src} ABSOLUTE)
         get_filename_component(outfile ${src} NAME)

         add_custom_command(OUTPUT ${outfile}-sm_${sm}.bc
           COMMAND ${LIBOMPTARGET_NVPTX_SELECTED_CUDA_COMPILER} ${bc_flags} ${cuda_arch}
             -c ${infile} -o ${outfile}-sm_${sm}.bc
           DEPENDS ${infile}
           IMPLICIT_DEPENDS CXX ${infile}
           COMMENT "Building LLVM bitcode ${outfile}-sm_${sm}.bc"
           VERBATIM
         )
         set_property(DIRECTORY APPEND PROPERTY ADDITIONAL_MAKE_CLEAN_FILES ${outfile}-sm_${sm}.bc)

         list(APPEND bc_files ${outfile}-sm_${sm}.bc)
       endforeach()

       # Link to a bitcode library.
       add_custom_command(OUTPUT ${CMAKE_CURRENT_BINARY_DIR}/libomptarget-nvptx-sm_${sm}.bc
           COMMAND ${LIBOMPTARGET_NVPTX_SELECTED_BC_LINKER}
             -o ${CMAKE_CURRENT_BINARY_DIR}/libomptarget-nvptx-sm_${sm}.bc ${bc_files}
           DEPENDS ${bc_files}
           COMMENT "Linking LLVM bitcode libomptarget-nvptx-sm_${sm}.bc"
       )
       set_property(DIRECTORY APPEND PROPERTY ADDITIONAL_MAKE_CLEAN_FILES libomptarget-nvptx-sm_${sm}.bc)

       add_custom_target(omptarget-nvptx-${sm}-bc ALL DEPENDS ${CMAKE_CURRENT_BINARY_DIR}/libomptarget-nvptx-sm_${sm}.bc)
       add_dependencies(omptarget-nvptx-bc omptarget-nvptx-${sm}-bc)

       # Copy library to destination.
       add_custom_command(TARGET omptarget-nvptx-${sm}-bc POST_BUILD
                          COMMAND ${CMAKE_COMMAND} -E copy ${CMAKE_CURRENT_BINARY_DIR}/libomptarget-nvptx-sm_${sm}.bc
                          $<TARGET_FILE_DIR:omptarget-nvptx>)

       # Install bitcode library under the lib destination folder.
       install(FILES ${CMAKE_CURRENT_BINARY_DIR}/libomptarget-nvptx-sm_${sm}.bc DESTINATION "${OPENMP_INSTALL_LIBDIR}")
     endforeach()
   endif()

   add_subdirectory(test)
 else()
   libomptarget_say("Not building CUDA offloading device RTL: CUDA tools not found in the system.")
 endif()
	##===----------------------------------------------------------------------===##
	#
	# The LLVM Compiler Infrastructure
	#
	# This file is dual licensed under the MIT and the University of Illinois Open
	# Source Licenses. See LICENSE.txt for details.
	#
	##===----------------------------------------------------------------------===##
	#
	# Build the NVPTX (CUDA) Device RTL if the CUDA tools are available
	#
	##===----------------------------------------------------------------------===##

	set(LIBOMPTARGET_NVPTX_ALTERNATE_HOST_COMPILER "" CACHE STRING
	"Path to alternate NVCC host compiler to be used by the NVPTX device RTL.")

	if(LIBOMPTARGET_NVPTX_ALTERNATE_HOST_COMPILER)
	find_program(ALTERNATE_CUDA_HOST_COMPILER NAMES ${LIBOMPTARGET_NVPTX_ALTERNATE_HOST_COMPILER})
	if(NOT ALTERNATE_CUDA_HOST_COMPILER)
	libomptarget_say("Not building CUDA offloading device RTL: invalid NVPTX alternate host compiler.")
	endif()
	set(CUDA_HOST_COMPILER ${ALTERNATE_CUDA_HOST_COMPILER} CACHE FILEPATH "" FORCE)
	endif()

	# We can't use clang as nvcc host preprocessor, so we attempt to replace it with
	# gcc.
	if(CUDA_HOST_COMPILER MATCHES clang)

	find_program(LIBOMPTARGET_NVPTX_ALTERNATE_GCC_HOST_COMPILER NAMES gcc)

	if(NOT LIBOMPTARGET_NVPTX_ALTERNATE_GCC_HOST_COMPILER)
	libomptarget_say("Not building CUDA offloading device RTL: clang is not supported as NVCC host compiler.")
	libomptarget_say("Please include gcc in your path or set LIBOMPTARGET_NVPTX_ALTERNATE_HOST_COMPILER to the full path of of valid compiler.")
	return()
	endif()
	set(CUDA_HOST_COMPILER "${LIBOMPTARGET_NVPTX_ALTERNATE_GCC_HOST_COMPILER}" CACHE FILEPATH "" FORCE)
	endif()

	if(LIBOMPTARGET_DEP_CUDA_FOUND)
	libomptarget_say("Building CUDA offloading device RTL.")

	# We really don't have any host code, so we don't need to care about
	# propagating host flags.
	set(CUDA_PROPAGATE_HOST_FLAGS OFF)

	set(cuda_src_files
	src/cancel.cu
	src/critical.cu
	src/data_sharing.cu
	src/libcall.cu
	src/loop.cu
	src/omptarget-nvptx.cu
	src/parallel.cu
	src/reduction.cu
	src/sync.cu
	src/task.cu
	)

	set(omp_data_objects src/omp_data.cu)

	# Get the compute capability the user requested or use SM_35 by default.
	# SM_35 is what clang uses by default.
	set(default_capabilities 35)
	if (DEFINED LIBOMPTARGET_NVPTX_COMPUTE_CAPABILITY)
	set(default_capabilities ${LIBOMPTARGET_NVPTX_COMPUTE_CAPABILITY})
	libomptarget_warning_say("LIBOMPTARGET_NVPTX_COMPUTE_CAPABILITY is deprecated, please use LIBOMPTARGET_NVPTX_COMPUTE_CAPABILITIES")
	endif()
	set(LIBOMPTARGET_NVPTX_COMPUTE_CAPABILITIES ${default_capabilities} CACHE STRING
	"List of CUDA Compute Capabilities to be used to compile the NVPTX device RTL.")
	string(REPLACE "," ";" nvptx_sm_list ${LIBOMPTARGET_NVPTX_COMPUTE_CAPABILITIES})

	foreach(sm ${nvptx_sm_list})
	set(CUDA_ARCH ${CUDA_ARCH} -gencode arch=compute_${sm},code=sm_${sm})
	endforeach()

	# Activate RTL message dumps if requested by the user.
	set(LIBOMPTARGET_NVPTX_DEBUG FALSE CACHE BOOL
	"Activate NVPTX device RTL debug messages.")
	if(${LIBOMPTARGET_NVPTX_DEBUG})
	set(CUDA_DEBUG -DOMPTARGET_NVPTX_DEBUG=-1 -g --ptxas-options=-v)
	endif()

	# NVPTX runtime library has to be statically linked. Dynamic linking is not
	# yet supported by the CUDA toolchain on the device.
	set(BUILD_SHARED_LIBS OFF)
	set(CUDA_SEPARABLE_COMPILATION ON)

	cuda_add_library(omptarget-nvptx STATIC ${cuda_src_files} ${omp_data_objects}
	OPTIONS ${CUDA_ARCH} ${CUDA_DEBUG})

	# Install device RTL under the lib destination folder.
	install(TARGETS omptarget-nvptx ARCHIVE DESTINATION "${OPENMP_INSTALL_LIBDIR}")

	target_link_libraries(omptarget-nvptx ${CUDA_LIBRARIES})


	# Check if we can create an LLVM bitcode implementation of the runtime library
	# that could be inlined in the user application. For that we need to find
	# a Clang compiler capable of compiling our CUDA files to LLVM bitcode and
	# an LLVM linker.
	set(LIBOMPTARGET_NVPTX_CUDA_COMPILER "" CACHE STRING
	"Location of a CUDA compiler capable of emitting LLVM bitcode.")
	set(LIBOMPTARGET_NVPTX_BC_LINKER "" CACHE STRING
	"Location of a linker capable of linking LLVM bitcode objects.")

	include(LibomptargetNVPTXBitcodeLibrary)

	set(bclib_default FALSE)
	if (${LIBOMPTARGET_NVPTX_BCLIB_SUPPORTED})
	set(bclib_default TRUE)
	endif()
	set(LIBOMPTARGET_NVPTX_ENABLE_BCLIB ${bclib_default} CACHE BOOL
	"Enable CUDA LLVM bitcode offloading device RTL.")
	if (${LIBOMPTARGET_NVPTX_ENABLE_BCLIB})
	if (NOT ${LIBOMPTARGET_NVPTX_BCLIB_SUPPORTED})
	libomptarget_error_say("Cannot build CUDA LLVM bitcode offloading device RTL!")
	endif()
	libomptarget_say("Building CUDA LLVM bitcode offloading device RTL.")

	# Set flags for LLVM Bitcode compilation.
	set(bc_flags ${LIBOMPTARGET_NVPTX_SELECTED_CUDA_COMPILER_FLAGS})
	if(${LIBOMPTARGET_NVPTX_DEBUG})
	set(bc_flags ${bc_flags} -DOMPTARGET_NVPTX_DEBUG=-1)
	else()
	set(bc_flags ${bc_flags} -DOMPTARGET_NVPTX_DEBUG=0)
	endif()

	# CUDA 9 header files use the nv_weak attribute which clang is not yet prepared
	# to handle. Therefore, we use 'weak' instead. We are compiling only for the
	# device, so it should be equivalent.
	if(CUDA_VERSION_MAJOR GREATER 8)
	set(bc_flags ${bc_flags} -Dnv_weak=weak)
	endif()

	# Create target to build all Bitcode libraries.
	add_custom_target(omptarget-nvptx-bc)

	# Generate a Bitcode library for all the compute capabilities the user requested.
	foreach(sm ${nvptx_sm_list})
	set(cuda_arch --cuda-gpu-arch=sm_${sm})

	# Compile CUDA files to bitcode.
	set(bc_files "")
	foreach(src ${cuda_src_files})
	get_filename_component(infile ${src} ABSOLUTE)
	get_filename_component(outfile ${src} NAME)

	add_custom_command(OUTPUT ${outfile}-sm_${sm}.bc
	COMMAND ${LIBOMPTARGET_NVPTX_SELECTED_CUDA_COMPILER} ${bc_flags} ${cuda_arch}
	-c ${infile} -o ${outfile}-sm_${sm}.bc
	DEPENDS ${infile}
	IMPLICIT_DEPENDS CXX ${infile}
	COMMENT "Building LLVM bitcode ${outfile}-sm_${sm}.bc"
	VERBATIM
	)
	set_property(DIRECTORY APPEND PROPERTY ADDITIONAL_MAKE_CLEAN_FILES ${outfile}-sm_${sm}.bc)

	list(APPEND bc_files ${outfile}-sm_${sm}.bc)
	endforeach()

	# Link to a bitcode library.
	add_custom_command(OUTPUT ${CMAKE_CURRENT_BINARY_DIR}/libomptarget-nvptx-sm_${sm}.bc
	COMMAND ${LIBOMPTARGET_NVPTX_SELECTED_BC_LINKER}
	-o ${CMAKE_CURRENT_BINARY_DIR}/libomptarget-nvptx-sm_${sm}.bc ${bc_files}
	DEPENDS ${bc_files}
	COMMENT "Linking LLVM bitcode libomptarget-nvptx-sm_${sm}.bc"
	)
	set_property(DIRECTORY APPEND PROPERTY ADDITIONAL_MAKE_CLEAN_FILES libomptarget-nvptx-sm_${sm}.bc)

	add_custom_target(omptarget-nvptx-${sm}-bc ALL DEPENDS ${CMAKE_CURRENT_BINARY_DIR}/libomptarget-nvptx-sm_${sm}.bc)
	add_dependencies(omptarget-nvptx-bc omptarget-nvptx-${sm}-bc)

	# Copy library to destination.
	add_custom_command(TARGET omptarget-nvptx-${sm}-bc POST_BUILD
	COMMAND ${CMAKE_COMMAND} -E copy ${CMAKE_CURRENT_BINARY_DIR}/libomptarget-nvptx-sm_${sm}.bc
	$<TARGET_FILE_DIR:omptarget-nvptx>)

	# Install bitcode library under the lib destination folder.
	install(FILES ${CMAKE_CURRENT_BINARY_DIR}/libomptarget-nvptx-sm_${sm}.bc DESTINATION "${OPENMP_INSTALL_LIBDIR}")
	endforeach()
	endif()

	add_subdirectory(test)
	else()
	libomptarget_say("Not building CUDA offloading device RTL: CUDA tools not found in the system.")
	endif()