set(LIBCXX_LIB_CMAKEFILES_DIR "${CMAKE_CURRENT_BINARY_DIR}${CMAKE_FILES_DIRECTORY}" PARENT_SCOPE) # Get sources # FIXME: Don't use glob here file(GLOB LIBCXX_SOURCES ../src/*.cpp) if(WIN32) file(GLOB LIBCXX_WIN32_SOURCES ../src/support/win32/*.cpp) list(APPEND LIBCXX_SOURCES ${LIBCXX_WIN32_SOURCES}) elseif("${CMAKE_SYSTEM_NAME}" STREQUAL "SunOS") file(GLOB LIBCXX_SOLARIS_SOURCES ../src/support/solaris/*.cpp) list(APPEND LIBCXX_SOURCES ${LIBCXX_SOLARIS_SOURCES}) endif() if (LIBCXX_ENABLE_FILESYSTEM) list(APPEND LIBCXX_SOURCES ../src/filesystem/operations.cpp ../src/filesystem/directory_iterator.cpp) # Filesystem uses __int128_t, which requires a definition of __muloi4 when # compiled with UBSAN. This definition is not provided by libgcc_s, but is # provided by compiler-rt. So we need to disable it to avoid having multiple # definitions. See filesystem/int128_builtins.cpp. if (NOT LIBCXX_USE_COMPILER_RT) list(APPEND LIBCXX_SOURCES ../src/filesystem/int128_builtins.cpp) endif() endif() # Add all the headers to the project for IDEs. if (LIBCXX_CONFIGURE_IDE) file(GLOB_RECURSE LIBCXX_HEADERS ${CMAKE_CURRENT_SOURCE_DIR}/../include/*) if(WIN32) file( GLOB LIBCXX_WIN32_HEADERS ${CMAKE_CURRENT_SOURCE_DIR}/../include/support/win32/*.h) list(APPEND LIBCXX_HEADERS ${LIBCXX_WIN32_HEADERS}) endif() # Force them all into the headers dir on MSVC, otherwise they end up at # project scope because they don't have extensions. if (MSVC_IDE) source_group("Header Files" FILES ${LIBCXX_HEADERS}) endif() endif() if(NOT LIBCXX_INSTALL_LIBRARY) set(exclude_from_all EXCLUDE_FROM_ALL) endif() # If LIBCXX_CXX_ABI_LIBRARY_PATH is defined we want to add it to the search path. add_link_flags_if(LIBCXX_CXX_ABI_LIBRARY_PATH "${CMAKE_LIBRARY_PATH_FLAG}${LIBCXX_CXX_ABI_LIBRARY_PATH}") if (LIBCXX_GENERATE_COVERAGE AND NOT LIBCXX_COVERAGE_LIBRARY) find_compiler_rt_library(profile LIBCXX_COVERAGE_LIBRARY) endif() add_library_flags_if(LIBCXX_COVERAGE_LIBRARY "${LIBCXX_COVERAGE_LIBRARY}") if (APPLE AND LLVM_USE_SANITIZER) if (("${LLVM_USE_SANITIZER}" STREQUAL "Address") OR ("${LLVM_USE_SANITIZER}" STREQUAL "Address;Undefined") OR ("${LLVM_USE_SANITIZER}" STREQUAL "Undefined;Address")) set(LIBFILE "libclang_rt.asan_osx_dynamic.dylib") elseif("${LLVM_USE_SANITIZER}" STREQUAL "Undefined") set(LIBFILE "libclang_rt.ubsan_osx_dynamic.dylib") elseif("${LLVM_USE_SANITIZER}" STREQUAL "Thread") set(LIBFILE "libclang_rt.tsan_osx_dynamic.dylib") else() message(WARNING "LLVM_USE_SANITIZER=${LLVM_USE_SANITIZER} is not supported on OS X") endif() if (LIBFILE) find_compiler_rt_dir(LIBDIR) if (NOT IS_DIRECTORY "${LIBDIR}") message(FATAL_ERROR "Cannot find compiler-rt directory on OS X required for LLVM_USE_SANITIZER") endif() set(LIBCXX_SANITIZER_LIBRARY "${LIBDIR}/${LIBFILE}") set(LIBCXX_SANITIZER_LIBRARY "${LIBCXX_SANITIZER_LIBRARY}" PARENT_SCOPE) message(STATUS "Manually linking compiler-rt library: ${LIBCXX_SANITIZER_LIBRARY}") add_library_flags("${LIBCXX_SANITIZER_LIBRARY}") add_link_flags("-Wl,-rpath,${LIBDIR}") endif() endif() # Generate private library list. add_library_flags_if(LIBCXX_HAS_PTHREAD_LIB pthread) add_library_flags_if(LIBCXX_HAS_C_LIB c) add_library_flags_if(LIBCXX_HAS_M_LIB m) add_library_flags_if(LIBCXX_HAS_RT_LIB rt) if (LIBCXX_USE_COMPILER_RT) find_compiler_rt_library(builtins LIBCXX_BUILTINS_LIBRARY) add_library_flags_if(LIBCXX_BUILTINS_LIBRARY "${LIBCXX_BUILTINS_LIBRARY}") else() add_library_flags_if(LIBCXX_HAS_GCC_S_LIB gcc_s) endif() add_library_flags_if(LIBCXX_HAVE_CXX_ATOMICS_WITH_LIB atomic) add_library_flags_if(MINGW "${MINGW_LIBRARIES}") # Setup flags. add_link_flags_if_supported(-nodefaultlibs) if (LIBCXX_TARGETING_MSVC) if (LIBCXX_DEBUG_BUILD) set(LIB_SUFFIX "d") else() set(LIB_SUFFIX "") endif() add_compile_flags(/Zl) add_link_flags(/nodefaultlib) add_library_flags(ucrt${LIB_SUFFIX}) # Universal C runtime add_library_flags(vcruntime${LIB_SUFFIX}) # C++ runtime add_library_flags(msvcrt${LIB_SUFFIX}) # C runtime startup files add_library_flags(msvcprt${LIB_SUFFIX}) # C++ standard library. Required for exception_ptr internals. # Required for standards-complaint wide character formatting functions # (e.g. `printfw`/`scanfw`) add_library_flags(iso_stdio_wide_specifiers) endif() function(cxx_set_common_defines name) if(LIBCXX_CXX_ABI_HEADER_TARGET) add_dependencies(${name} ${LIBCXX_CXX_ABI_HEADER_TARGET}) endif() if(WIN32 AND NOT MINGW) target_compile_definitions(${name} PRIVATE # Ignore the -MSC_VER mismatch, as we may build # with a different compatibility version. _ALLOW_MSC_VER_MISMATCH # Don't check the msvcprt iterator debug levels # as we will define the iterator types; libc++ # uses a different macro to identify the debug # level. _ALLOW_ITERATOR_DEBUG_LEVEL_MISMATCH # We are building the c++ runtime, don't pull in # msvcprt. _CRTBLD # Don't warn on the use of "deprecated" # "insecure" functions which are standards # specified. _CRT_SECURE_NO_WARNINGS # Use the ISO conforming behaviour for conversion # in printf, scanf. _CRT_STDIO_ISO_WIDE_SPECIFIERS) endif() endfunction() split_list(LIBCXX_COMPILE_FLAGS) split_list(LIBCXX_LINK_FLAGS) # Build the shared library. if (LIBCXX_ENABLE_SHARED) add_library(cxx_shared SHARED ${exclude_from_all} ${LIBCXX_SOURCES} ${LIBCXX_HEADERS}) if(COMMAND llvm_setup_rpath) llvm_setup_rpath(cxx_shared) endif() target_link_libraries(cxx_shared PRIVATE ${LIBCXX_LIBRARIES}) set_target_properties(cxx_shared PROPERTIES COMPILE_FLAGS "${LIBCXX_COMPILE_FLAGS}" LINK_FLAGS "${LIBCXX_LINK_FLAGS}" OUTPUT_NAME "c++" VERSION "${LIBCXX_ABI_VERSION}.0" SOVERSION "${LIBCXX_ABI_VERSION}" DEFINE_SYMBOL "" ) cxx_set_common_defines(cxx_shared) # Link against LLVM libunwind if (LIBCXXABI_USE_LLVM_UNWINDER) if (NOT LIBCXXABI_STATICALLY_LINK_UNWINDER_IN_SHARED_LIBRARY AND (TARGET unwind_shared OR HAVE_LIBUNWIND)) target_link_libraries(cxx_shared PRIVATE unwind_shared) list(APPEND LIBCXX_INTERFACE_LIBRARIES unwind_shared) # For the linker script elseif (LIBCXXABI_STATICALLY_LINK_UNWINDER_IN_SHARED_LIBRARY AND (TARGET unwind_static OR HAVE_LIBUNWIND)) # libunwind is already included in libc++abi else() target_link_libraries(cxx_shared PRIVATE unwind) list(APPEND LIBCXX_INTERFACE_LIBRARIES unwind) # For the linker script endif() endif() # Link against libc++abi if (LIBCXX_STATICALLY_LINK_ABI_IN_SHARED_LIBRARY) if (APPLE) target_link_libraries(cxx_shared PRIVATE "-Wl,-force_load" "${LIBCXX_CXX_STATIC_ABI_LIBRARY}") else() target_link_libraries(cxx_shared PRIVATE "-Wl,--whole-archive,-Bstatic" "${LIBCXX_CXX_STATIC_ABI_LIBRARY}" "-Wl,-Bdynamic,--no-whole-archive") endif() else() target_link_libraries(cxx_shared PRIVATE "${LIBCXX_CXX_SHARED_ABI_LIBRARY}") list(APPEND LIBCXX_INTERFACE_LIBRARIES "${LIBCXX_CXX_SHARED_ABI_LIBRARY}") # For the linker script list(APPEND LIBCXX_LIBRARIES "${LIBCXX_CXX_SHARED_ABI_LIBRARY}") # For the benchmarks endif() # Maybe re-export symbols from libc++abi if (APPLE AND (LIBCXX_CXX_ABI_LIBNAME STREQUAL "libcxxabi" OR LIBCXX_CXX_ABI_LIBNAME STREQUAL "default") AND NOT DEFINED LIBCXX_OSX_REEXPORT_LIBCXXABI_SYMBOLS) set(LIBCXX_OSX_REEXPORT_LIBCXXABI_SYMBOLS ON) endif() if (LIBCXX_OSX_REEXPORT_LIBCXXABI_SYMBOLS) if ("${CMAKE_OSX_ARCHITECTURES}" MATCHES "^(armv6|armv7|armv7s)$") set(RE_EXPORT_LIST "${CMAKE_CURRENT_SOURCE_DIR}/libc++sjlj-abi.v${LIBCXX_LIBCPPABI_VERSION}.exp") else() set(RE_EXPORT_LIST "${CMAKE_CURRENT_SOURCE_DIR}/libc++abi.v${LIBCXX_LIBCPPABI_VERSION}.exp") endif() target_link_libraries(cxx_shared PRIVATE "-Wl,-unexported_symbols_list,${CMAKE_CURRENT_SOURCE_DIR}/libc++unexp.exp" "-Wl,-reexported_symbols_list,${RE_EXPORT_LIST}" "-Wl,-force_symbols_not_weak_list,${CMAKE_CURRENT_SOURCE_DIR}/notweak.exp" "-Wl,-force_symbols_weak_list,${CMAKE_CURRENT_SOURCE_DIR}/weak.exp") if (NOT LIBCXX_ENABLE_NEW_DELETE_DEFINITIONS) target_link_libraries(cxx_shared PRIVATE "-Wl,-reexported_symbols_list,${CMAKE_CURRENT_SOURCE_DIR}/libc++abi-new-delete.exp") endif() endif() # Generate a linker script in place of a libc++.so symlink. Rerun this command # after cxx builds. if (LIBCXX_ENABLE_ABI_LINKER_SCRIPT) # Get the name of the ABI library and handle the case where CXXABI_LIBNAME # is a target name and not a library. Ex cxxabi_shared. set(LIBCXX_INTERFACE_LIBRARY_NAMES) foreach(lib ${LIBCXX_INTERFACE_LIBRARIES}) # FIXME: Handle cxxabi_static and unwind_static. if (TARGET ${lib} OR (${lib} MATCHES "cxxabi(_static|_shared)?" AND HAVE_LIBCXXABI) OR (${lib} MATCHES "unwind(_static|_shared)?" AND HAVE_LIBUNWIND)) list(APPEND LIBCXX_INTERFACE_LIBRARY_NAMES "$") else() list(APPEND LIBCXX_INTERFACE_LIBRARY_NAMES "${lib}") endif() endforeach() add_custom_command(TARGET cxx_shared POST_BUILD COMMAND ${PYTHON_EXECUTABLE} ${LIBCXX_SOURCE_DIR}/utils/gen_link_script.py ARGS --input "$" --output "$" ${LIBCXX_INTERFACE_LIBRARY_NAMES} WORKING_DIRECTORY ${LIBCXX_BUILD_DIR} ) endif() list(APPEND LIBCXX_BUILD_TARGETS "cxx_shared") if (LIBCXX_INSTALL_SHARED_LIBRARY) list(APPEND LIBCXX_INSTALL_TARGETS "cxx_shared") endif() if(WIN32 AND NOT MINGW AND NOT "${CMAKE_HOST_SYSTEM_NAME}" STREQUAL "Windows") # Since we most likely do not have a mt.exe replacement, disable the # manifest bundling. This allows a normal cmake invocation to pass which # will attempt to use the manifest tool to generate the bundled manifest set_target_properties(cxx_shared PROPERTIES APPEND_STRING PROPERTY LINK_FLAGS " /MANIFEST:NO") endif() endif() # Build the static library. if (LIBCXX_ENABLE_STATIC) add_library(cxx_static STATIC ${exclude_from_all} ${LIBCXX_SOURCES} ${LIBCXX_HEADERS}) target_link_libraries(cxx_static PRIVATE ${LIBCXX_LIBRARIES}) set(CMAKE_STATIC_LIBRARY_PREFIX "lib") set_target_properties(cxx_static PROPERTIES COMPILE_FLAGS "${LIBCXX_COMPILE_FLAGS}" LINK_FLAGS "${LIBCXX_LINK_FLAGS}" OUTPUT_NAME "c++" ) cxx_set_common_defines(cxx_static) if (LIBCXX_HERMETIC_STATIC_LIBRARY) append_flags_if_supported(CXX_STATIC_LIBRARY_FLAGS -fvisibility=hidden) append_flags_if_supported(CXX_STATIC_LIBRARY_FLAGS -fvisibility-global-new-delete-hidden) target_compile_options(cxx_static PRIVATE ${CXX_STATIC_LIBRARY_FLAGS}) target_compile_definitions(cxx_static PRIVATE _LIBCPP_DISABLE_VISIBILITY_ANNOTATIONS) endif() list(APPEND LIBCXX_BUILD_TARGETS "cxx_static") if (LIBCXX_INSTALL_STATIC_LIBRARY) list(APPEND LIBCXX_INSTALL_TARGETS "cxx_static") endif() # Attempt to merge the libc++.a archive and the ABI library archive into one. if (LIBCXX_STATICALLY_LINK_ABI_IN_STATIC_LIBRARY) set(MERGE_ARCHIVES_SEARCH_PATHS "") if (LIBCXX_CXX_ABI_LIBRARY_PATH) set(MERGE_ARCHIVES_SEARCH_PATHS "-L${LIBCXX_CXX_ABI_LIBRARY_PATH}") endif() if (TARGET "${LIBCXX_CXX_STATIC_ABI_LIBRARY}" OR HAVE_LIBCXXABI) set(MERGE_ARCHIVES_ABI_TARGET "$") else() set(MERGE_ARCHIVES_ABI_TARGET "${CMAKE_STATIC_LIBRARY_PREFIX}${LIBCXX_CXX_STATIC_ABI_LIBRARY}${CMAKE_STATIC_LIBRARY_SUFFIX}") endif() add_custom_command(TARGET cxx_static POST_BUILD COMMAND ${PYTHON_EXECUTABLE} ${LIBCXX_SOURCE_DIR}/utils/merge_archives.py ARGS -o $ --ar "${CMAKE_AR}" "$" "${MERGE_ARCHIVES_ABI_TARGET}" "${MERGE_ARCHIVES_SEARCH_PATHS}" WORKING_DIRECTORY ${LIBCXX_BUILD_DIR} ) endif() endif() # Add a meta-target for both libraries. add_custom_target(cxx DEPENDS cxx-headers ${LIBCXX_BUILD_TARGETS}) if (LIBCXX_ENABLE_EXPERIMENTAL_LIBRARY) file(GLOB LIBCXX_EXPERIMENTAL_SOURCES ../src/experimental/*.cpp) add_library(cxx_experimental STATIC ${LIBCXX_EXPERIMENTAL_SOURCES}) if (LIBCXX_ENABLE_SHARED) target_link_libraries(cxx_experimental cxx_shared) else() target_link_libraries(cxx_experimental cxx_static) endif() set(experimental_flags "${LIBCXX_COMPILE_FLAGS}") check_flag_supported(-std=c++14) if (NOT MSVC AND LIBCXX_SUPPORTS_STD_EQ_CXX14_FLAG) string(REPLACE "-std=c++11" "-std=c++14" experimental_flags "${LIBCXX_COMPILE_FLAGS}") endif() set_target_properties(cxx_experimental PROPERTIES COMPILE_FLAGS "${experimental_flags}" OUTPUT_NAME "c++experimental" ) endif() if (LIBCXX_BUILD_EXTERNAL_THREAD_LIBRARY) file(GLOB LIBCXX_EXTERNAL_THREADING_SUPPORT_SOURCES ../test/support/external_threads.cpp) if (LIBCXX_ENABLE_SHARED) add_library(cxx_external_threads SHARED ${LIBCXX_EXTERNAL_THREADING_SUPPORT_SOURCES}) else() add_library(cxx_external_threads STATIC ${LIBCXX_EXTERNAL_THREADING_SUPPORT_SOURCES}) endif() set_target_properties(cxx_external_threads PROPERTIES LINK_FLAGS "${LIBCXX_LINK_FLAGS}" COMPILE_FLAGS "${LIBCXX_COMPILE_FLAGS}" OUTPUT_NAME "c++external_threads" ) endif() if (LIBCXX_INSTALL_LIBRARY) if (LIBCXX_INSTALL_EXPERIMENTAL_LIBRARY) set(experimental_lib cxx_experimental) endif() install(TARGETS ${LIBCXX_INSTALL_TARGETS} ${experimental_lib} LIBRARY DESTINATION ${LIBCXX_INSTALL_PREFIX}lib${LIBCXX_LIBDIR_SUFFIX} COMPONENT cxx ARCHIVE DESTINATION ${LIBCXX_INSTALL_PREFIX}lib${LIBCXX_LIBDIR_SUFFIX} COMPONENT cxx ) # NOTE: This install command must go after the cxx install command otherwise # it will not be executed after the library symlinks are installed. if (LIBCXX_ENABLE_SHARED AND LIBCXX_ENABLE_ABI_LINKER_SCRIPT) # Replace the libc++ filename with $ # after we required CMake 3.0. install(FILES "${LIBCXX_LIBRARY_DIR}/libc++${CMAKE_SHARED_LIBRARY_SUFFIX}" DESTINATION ${LIBCXX_INSTALL_PREFIX}lib${LIBCXX_LIBDIR_SUFFIX} COMPONENT libcxx) endif() endif() if (NOT CMAKE_CONFIGURATION_TYPES AND (LIBCXX_INSTALL_LIBRARY OR LIBCXX_INSTALL_HEADERS)) if(LIBCXX_INSTALL_LIBRARY) set(lib_install_target cxx) endif() if (LIBCXX_INSTALL_EXPERIMENTAL_LIBRARY) set(experimental_lib_install_target cxx_experimental) endif() if(LIBCXX_INSTALL_HEADERS) set(header_install_target install-cxx-headers) endif() add_custom_target(install-cxx DEPENDS ${lib_install_target} ${experimental_lib_install_target} ${header_install_target} COMMAND "${CMAKE_COMMAND}" -DCMAKE_INSTALL_COMPONENT=cxx -P "${LIBCXX_BINARY_DIR}/cmake_install.cmake") add_custom_target(install-cxx-stripped DEPENDS ${lib_install_target} ${experimental_lib_install_target} ${header_install_target} COMMAND "${CMAKE_COMMAND}" -DCMAKE_INSTALL_COMPONENT=cxx -DCMAKE_INSTALL_DO_STRIP=1 -P "${LIBCXX_BINARY_DIR}/cmake_install.cmake") add_custom_target(install-libcxx DEPENDS install-cxx) endif() # TODO: This is needed by cxx-benchmarks but this variable isn't # available outside of the scope of this file so we need to export # it. This is not necessarily the cleanest solution. set(LIBCXX_LIBRARIES ${LIBCXX_LIBRARIES} PARENT_SCOPE)