# Distributed under the OSI-approved BSD 3-Clause License. See accompanying # file Copyright.txt or https://cmake.org/licensing for details. # Function to compile a source file to identify the compiler ABI. # This is used internally by CMake and should not be included by user # code. include(${CMAKE_ROOT}/Modules/CMakeParseImplicitIncludeInfo.cmake) include(${CMAKE_ROOT}/Modules/CMakeParseImplicitLinkInfo.cmake) include(${CMAKE_ROOT}/Modules/CMakeParseLibraryArchitecture.cmake) include(CMakeTestCompilerCommon) function(CMAKE_DETERMINE_COMPILER_ABI lang src) if(NOT DEFINED CMAKE_${lang}_ABI_COMPILED) message(CHECK_START "Detecting ${lang} compiler ABI info") # Compile the ABI identification source. set(BIN "${CMAKE_PLATFORM_INFO_DIR}/CMakeDetermineCompilerABI_${lang}.bin") set(CMAKE_FLAGS ) set(COMPILE_DEFINITIONS ) if(DEFINED CMAKE_${lang}_VERBOSE_FLAG) set(CMAKE_FLAGS "-DEXE_LINKER_FLAGS=${CMAKE_${lang}_VERBOSE_FLAG}") set(COMPILE_DEFINITIONS "${CMAKE_${lang}_VERBOSE_FLAG}") endif() if(DEFINED CMAKE_${lang}_VERBOSE_COMPILE_FLAG) set(COMPILE_DEFINITIONS "${CMAKE_${lang}_VERBOSE_COMPILE_FLAG}") endif() if(lang STREQUAL "CUDA") if(CMAKE_CUDA_ARCHITECTURES STREQUAL "native") # We are about to detect the native architectures, so we do # not yet know them. Use all architectures during detection. set(CMAKE_CUDA_ARCHITECTURES "all") endif() set(CMAKE_CUDA_RUNTIME_LIBRARY "Static") endif() if(NOT "x${CMAKE_${lang}_COMPILER_ID}" STREQUAL "xMSVC") # Avoid adding our own platform standard libraries for compilers # from which we might detect implicit link libraries. list(APPEND CMAKE_FLAGS "-DCMAKE_${lang}_STANDARD_LIBRARIES=") endif() __TestCompiler_setTryCompileTargetType() # Avoid failing ABI detection on warnings. string(REGEX REPLACE "(^| )-Werror([= ][^ ]*)?( |$)" " " CMAKE_${lang}_FLAGS "${CMAKE_${lang}_FLAGS}") # Save the current LC_ALL, LC_MESSAGES, and LANG environment variables # and set them to "C" that way GCC's "search starts here" text is in # English and we can grok it. set(_orig_lc_all $ENV{LC_ALL}) set(_orig_lc_messages $ENV{LC_MESSAGES}) set(_orig_lang $ENV{LANG}) set(ENV{LC_ALL} C) set(ENV{LC_MESSAGES} C) set(ENV{LANG} C) try_compile(CMAKE_${lang}_ABI_COMPILED ${CMAKE_BINARY_DIR} ${src} CMAKE_FLAGS ${CMAKE_FLAGS} # Ignore unused flags when we are just determining the ABI. "--no-warn-unused-cli" COMPILE_DEFINITIONS ${COMPILE_DEFINITIONS} OUTPUT_VARIABLE OUTPUT COPY_FILE "${BIN}" COPY_FILE_ERROR _copy_error __CMAKE_INTERNAL ABI ) # Restore original LC_ALL, LC_MESSAGES, and LANG set(ENV{LC_ALL} ${_orig_lc_all}) set(ENV{LC_MESSAGES} ${_orig_lc_messages}) set(ENV{LANG} ${_orig_lang}) # Move result from cache to normal variable. set(CMAKE_${lang}_ABI_COMPILED ${CMAKE_${lang}_ABI_COMPILED}) unset(CMAKE_${lang}_ABI_COMPILED CACHE) if(CMAKE_${lang}_ABI_COMPILED AND _copy_error) set(CMAKE_${lang}_ABI_COMPILED 0) endif() set(CMAKE_${lang}_ABI_COMPILED ${CMAKE_${lang}_ABI_COMPILED} PARENT_SCOPE) # Load the resulting information strings. if(CMAKE_${lang}_ABI_COMPILED) message(CHECK_PASS "done") file(APPEND ${CMAKE_BINARY_DIR}${CMAKE_FILES_DIRECTORY}/CMakeOutput.log "Detecting ${lang} compiler ABI info compiled with the following output:\n${OUTPUT}\n\n") file(STRINGS "${BIN}" ABI_STRINGS LIMIT_COUNT 32 REGEX "INFO:[A-Za-z0-9_]+\\[[^]]*\\]") set(ABI_SIZEOF_DPTR "NOTFOUND") set(ABI_BYTE_ORDER "NOTFOUND") set(ABI_NAME "NOTFOUND") foreach(info ${ABI_STRINGS}) if("${info}" MATCHES "INFO:sizeof_dptr\\[0*([^]]*)\\]" AND NOT ABI_SIZEOF_DPTR) set(ABI_SIZEOF_DPTR "${CMAKE_MATCH_1}") endif() if("${info}" MATCHES "INFO:byte_order\\[(BIG_ENDIAN|LITTLE_ENDIAN)\\]") set(byte_order "${CMAKE_MATCH_1}") if(ABI_BYTE_ORDER STREQUAL "NOTFOUND") # Tentatively use the value because this is the first occurrence. set(ABI_BYTE_ORDER "${byte_order}") elseif(NOT ABI_BYTE_ORDER STREQUAL "${byte_order}") # Drop value because multiple occurrences do not match. set(ABI_BYTE_ORDER "") endif() endif() if("${info}" MATCHES "INFO:abi\\[([^]]*)\\]" AND NOT ABI_NAME) set(ABI_NAME "${CMAKE_MATCH_1}") endif() endforeach() if(ABI_SIZEOF_DPTR) set(CMAKE_${lang}_SIZEOF_DATA_PTR "${ABI_SIZEOF_DPTR}" PARENT_SCOPE) elseif(CMAKE_${lang}_SIZEOF_DATA_PTR_DEFAULT) set(CMAKE_${lang}_SIZEOF_DATA_PTR "${CMAKE_${lang}_SIZEOF_DATA_PTR_DEFAULT}" PARENT_SCOPE) endif() if(ABI_BYTE_ORDER) set(CMAKE_${lang}_BYTE_ORDER "${ABI_BYTE_ORDER}" PARENT_SCOPE) endif() if(ABI_NAME) set(CMAKE_${lang}_COMPILER_ABI "${ABI_NAME}" PARENT_SCOPE) endif() # Parse implicit include directory for this language, if available. if(CMAKE_${lang}_VERBOSE_FLAG) set (implicit_incdirs "") cmake_parse_implicit_include_info("${OUTPUT}" "${lang}" implicit_incdirs log rv) file(APPEND ${CMAKE_BINARY_DIR}${CMAKE_FILES_DIRECTORY}/CMakeOutput.log "Parsed ${lang} implicit include dir info from above output: rv=${rv}\n${log}\n\n") if("${rv}" STREQUAL "done") # Entries that we have been told to explicitly pass as standard include # directories will not be implicitly added by the compiler. if(CMAKE_${lang}_STANDARD_INCLUDE_DIRECTORIES) list(REMOVE_ITEM implicit_incdirs ${CMAKE_${lang}_STANDARD_INCLUDE_DIRECTORIES}) endif() # We parsed implicit include directories, so override the default initializer. set(_CMAKE_${lang}_IMPLICIT_INCLUDE_DIRECTORIES_INIT "${implicit_incdirs}") endif() endif() set(CMAKE_${lang}_IMPLICIT_INCLUDE_DIRECTORIES "${_CMAKE_${lang}_IMPLICIT_INCLUDE_DIRECTORIES_INIT}" PARENT_SCOPE) # Parse implicit linker information for this language, if available. set(implicit_dirs "") set(implicit_objs "") set(implicit_libs "") set(implicit_fwks "") if(CMAKE_${lang}_VERBOSE_FLAG) CMAKE_PARSE_IMPLICIT_LINK_INFO("${OUTPUT}" implicit_libs implicit_dirs implicit_fwks log "${CMAKE_${lang}_IMPLICIT_OBJECT_REGEX}" COMPUTE_IMPLICIT_OBJECTS implicit_objs LANGUAGE ${lang}) file(APPEND ${CMAKE_BINARY_DIR}${CMAKE_FILES_DIRECTORY}/CMakeOutput.log "Parsed ${lang} implicit link information from above output:\n${log}\n\n") endif() # for VS IDE Intel Fortran we have to figure out the # implicit link path for the fortran run time using # a try-compile if("${lang}" MATCHES "Fortran" AND "${CMAKE_GENERATOR}" MATCHES "Visual Studio") message(CHECK_START "Determine Intel Fortran Compiler Implicit Link Path") # Build a sample project which reports symbols. try_compile(IFORT_LIB_PATH_COMPILED ${CMAKE_BINARY_DIR}/CMakeFiles/IntelVSImplicitPath ${CMAKE_ROOT}/Modules/IntelVSImplicitPath IntelFortranImplicit CMAKE_FLAGS "-DCMAKE_Fortran_FLAGS:STRING=${CMAKE_Fortran_FLAGS}" OUTPUT_VARIABLE _output) file(WRITE "${CMAKE_BINARY_DIR}/CMakeFiles/IntelVSImplicitPath/output.txt" "${_output}") include(${CMAKE_BINARY_DIR}/CMakeFiles/IntelVSImplicitPath/output.cmake OPTIONAL) message(CHECK_PASS "done") endif() # Implicit link libraries cannot be used explicitly for multiple # OS X architectures, so we skip it. if(DEFINED CMAKE_OSX_ARCHITECTURES) if("${CMAKE_OSX_ARCHITECTURES}" MATCHES ";") set(implicit_libs "") endif() endif() set(CMAKE_${lang}_IMPLICIT_LINK_LIBRARIES "${implicit_libs}" PARENT_SCOPE) set(CMAKE_${lang}_IMPLICIT_LINK_DIRECTORIES "${implicit_dirs}" PARENT_SCOPE) set(CMAKE_${lang}_IMPLICIT_LINK_FRAMEWORK_DIRECTORIES "${implicit_fwks}" PARENT_SCOPE) cmake_parse_library_architecture(${lang} "${implicit_dirs}" "${implicit_objs}" architecture_flag) if(architecture_flag) set(CMAKE_${lang}_LIBRARY_ARCHITECTURE "${architecture_flag}" PARENT_SCOPE) endif() else() message(CHECK_FAIL "failed") file(APPEND ${CMAKE_BINARY_DIR}${CMAKE_FILES_DIRECTORY}/CMakeError.log "Detecting ${lang} compiler ABI info failed to compile with the following output:\n${OUTPUT}\n${_copy_error}\n\n") endif() endif() endfunction()