cmake_minimum_required(VERSION 3.18) project(SeparateCompilation CUDA) #Goal for this example: #Build a static library that defines multiple methods and kernels that #use each other. #After that confirm that we can call those methods from dynamic libraries #and executables. #We complicate the matter by also testing that multiple static libraries #all containing cuda separable compilation code links properly set(CMAKE_CUDA_SEPARABLE_COMPILATION ON) add_library(CUDASeparateLibA STATIC file1.cu file2.cu file3.cu) target_compile_features(CUDASeparateLibA PRIVATE cuda_std_11) get_property(sep_comp TARGET CUDASeparateLibA PROPERTY CUDA_SEPARABLE_COMPILATION) if(NOT sep_comp) message(FATAL_ERROR "CUDA_SEPARABLE_COMPILATION not initialized") endif() set_target_properties(CUDASeparateLibA PROPERTIES POSITION_INDEPENDENT_CODE ON) unset(CMAKE_CUDA_SEPARABLE_COMPILATION) if(CMAKE_CUDA_SIMULATE_ID STREQUAL "MSVC") # Test adding a flag that is not in our CUDA flag table for VS. if(NOT CMAKE_CUDA_COMPILER_VERSION VERSION_LESS 8) string(APPEND CMAKE_CUDA_FLAGS " --ftemplate-depth 50") endif() # Test adding a flag that nvcc should pass to the host compiler. target_compile_options(CUDASeparateLibA PRIVATE -Xcompiler=-bigobj) endif() #Have file4 and file5 in different shared libraries so that we #verify that hidden visibility is passed to the device linker. #Otherwise we will get a segv when trying to run the executable # add_library(CUDASeparateLibB SHARED file4.cu) target_compile_features(CUDASeparateLibB PRIVATE cuda_std_11) target_link_libraries(CUDASeparateLibB PRIVATE CUDASeparateLibA) add_library(CUDASeparateLibC SHARED file5.cu) target_compile_features(CUDASeparateLibC PRIVATE cuda_std_11) target_link_libraries(CUDASeparateLibC PRIVATE CUDASeparateLibA) set_target_properties(CUDASeparateLibB CUDASeparateLibC PROPERTIES CUDA_SEPARABLE_COMPILATION ON POSITION_INDEPENDENT_CODE ON CUDA_VISIBILITY_PRESET hidden RUNTIME_OUTPUT_DIRECTORY "${CMAKE_CURRENT_BINARY_DIR}/main") add_subdirectory(main)