/
common.cmake
1162 lines (866 loc) · 43.1 KB
/
common.cmake
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macro(configure_clang_and_clang_tidy TARGET_NAME)
# Configure Clang and Clang-Tidy for the given target
if(APPLE)
# Note #1: the full list of diagnostic flags for Clang can be found at
# https://clang.llvm.org/docs/DiagnosticsReference.html...
# Note #2: besides C++98 compatibility, which we are not after, some
# warnings are disabled so that Qt-related files can be
# compiled without any problems...
set(COMPILE_OPTIONS
-Weverything
-Wno-c++98-compat
-Wno-c++98-compat-pedantic
-Wno-documentation
-Wno-exit-time-destructors
-Wno-extra-semi-stmt
-Wno-global-constructors
-Wno-header-hygiene
-Wno-missing-prototypes
-Wno-padded
-Wno-redundant-parens
-Wno-sign-conversion
-Wno-unknown-warning-option
-Wno-used-but-marked-unused
-Wno-zero-as-null-pointer-constant
)
set_target_properties(${TARGET_NAME} PROPERTIES
COMPILE_OPTIONS "${COMPILE_OPTIONS}"
)
endif()
if(ENABLE_CLANG_TIDY)
# Note: Clang-Tidy does, by default, only report issues with C++ files.
# When it comes to header files, we must specify the ones for
# which we want issues to be reported, this using `-header-filter`
# and/or `-line-filter`. The problem is that the format of the
# path reported by Clang-Tidy depends on the CMake generator that
# is used. For example, with Ninja, we have a path that looks like
# /a/b/build/../src while with Make it looks like /a/b/src. Also,
# the regular expression needed by `-header-filter` follows the
# POSIX ERE standard rather than the PCRE one, which is a big
# limitation. Indeed, we are not interested in some header files
# that are located in specific folders. Using a PCRE regular
# expression, we could easily filter them out with something like
# ^(?:(?!xxx|yyy|zzz).)*$, i.e. a regular expression with a
# non-capturing group and a negative lookahead, but we can't since
# we need a POSIX ERE regulard expression. So, in the end, we ask
# for issues related to header files located under ../src, which
# means that it only works with Ninja and from [OpenCOR]/build.
# Then, there are some header files that are under [OpenCOR]/src,
# but for which we don't want to see issues. So, we filter them
# out using `-line-filter`, which is normally used to show issues
# present between a given set of lines (!?). So, here, we ask for
# issues between lines 9999999 and 9999999 (!!). We finish our
# list with `.h`, so that issues with other header files can get
# reported...
set_target_properties(${TARGET_NAME} PROPERTIES
CXX_CLANG_TIDY "${CLANG_TIDY};-header-filter=\\\.\\\.\\\/src\\\/.*;-line-filter=[{'name':'diff_match_patch.h','lines':[[9999999,9999999]]},{'name':'qzipreader_p.h','lines':[[9999999,9999999]]},{'name':'.h'}]"
)
endif()
endmacro()
#===============================================================================
macro(track_files)
# Keep track of the given files
# Note: indeed, some files (e.g. versiondate.txt) are 'manually' generated
# and then used to build other files. Now, the 'problem' is that
# Ninja needs to know about those files (see CMake policy CMP0058),
# which we ensure it does through the below...
foreach(FILENAME ${ARGN})
add_custom_command(OUTPUT ${FILENAME}
COMMAND ${CMAKE_COMMAND} -E sleep 0)
endforeach()
endmacro()
#===============================================================================
macro(update_language_files TARGET_NAME)
# Update the translation (.ts) files (if they exist) and generate the
# language (.qm) files, which will later on be embedded in the project
set(LANGUAGES fr)
set(INPUT_FILES)
foreach(INPUT_FILE ${ARGN})
list(APPEND INPUT_FILES ${INPUT_FILE})
endforeach()
foreach(LANGUAGE ${LANGUAGES})
set(LANGUAGE_FILE ${TARGET_NAME}_${LANGUAGE})
set(TS_FILE i18n/${LANGUAGE_FILE}.ts)
set(QM_FILE ${PROJECT_BUILD_DIR}/${LANGUAGE_FILE}.qm)
if(EXISTS ${PROJECT_SOURCE_DIR}/${TS_FILE})
execute_process(COMMAND ${QT_BINARY_DIR}/lupdate -no-obsolete ${INPUT_FILES}
-ts ${TS_FILE}
WORKING_DIRECTORY ${PROJECT_SOURCE_DIR}
OUTPUT_QUIET)
execute_process(COMMAND ${QT_BINARY_DIR}/lrelease ${PROJECT_SOURCE_DIR}/${TS_FILE}
-qm ${QM_FILE}
OUTPUT_QUIET)
track_files(${QM_FILE})
endif()
endforeach()
endmacro()
#===============================================================================
macro(build_documentation DOCUMENTATION_NAME)
# Build the given documentation as an external project and have it copied to
# our final documentation directory, but only if we have a target for our
# Python and PythonPackages plugins (since we need both Python and Sphinx)
if(TARGET PythonPlugin AND TARGET PythonPackagesPlugin)
set(DOCUMENTATION_BUILD ${DOCUMENTATION_NAME}DocumentationBuild)
string(REPLACE ";" "|"
DOCUMENTATION_SPHINX_EXECUTABLE "${SPHINX_EXECUTABLE}")
ExternalProject_Add(${DOCUMENTATION_BUILD}
SOURCE_DIR
${CMAKE_SOURCE_DIR}/ext/doc/${DOCUMENTATION_NAME}
GIT_REPOSITORY
https://github.com/opencor/${DOCUMENTATION_NAME}-documentation
CMAKE_ARGS
-DPYTHON_EXECUTABLE=${PYTHON_EXECUTABLE}
-DSPHINX_EXECUTABLE=${DOCUMENTATION_SPHINX_EXECUTABLE}
LIST_SEPARATOR
|
INSTALL_COMMAND
${CMAKE_COMMAND} -E copy_directory ${PROJECT_BUILD_DIR}/ext/Build/${DOCUMENTATION_BUILD}/html
${PROJECT_BUILD_DIR}/doc/${DOCUMENTATION_NAME}
)
# Make our local target depend on having Python fully installed
add_dependencies(${DOCUMENTATION_BUILD} ${PYTHON_DEPENDENCIES})
# Make our local target depend on our project build target and make our
# documentation build target depend on our local target
add_dependencies(${DOCUMENTATION_BUILD} ${PROJECT_BUILD_TARGET})
add_dependencies(${DOCUMENTATION_BUILD_TARGET} ${DOCUMENTATION_BUILD})
endif()
endmacro()
#===============================================================================
macro(strip_file PROJECT_TARGET FILENAME)
# Strip the given file of all its local symbols, if we are in release mode
# Note: to strip QScintilla and Qwt when building them on Linux results in
# an error due to patchelf having been used on them. So, we use a
# wrapper that ignores errors and returns 0, so that our build doesn't
# break...
if(RELEASE_MODE)
if("${PROJECT_TARGET}" STREQUAL "DIRECT")
execute_process(COMMAND ${CMAKE_SOURCE_DIR}/scripts/strip -x ${FILENAME})
else()
add_custom_command(TARGET ${PROJECT_TARGET} POST_BUILD
COMMAND ${CMAKE_SOURCE_DIR}/scripts/strip -x ${FILENAME})
endif()
endif()
endmacro()
#===============================================================================
macro(add_plugin PLUGIN_NAME)
# Various initialisations
set(PLUGIN_NAME ${PLUGIN_NAME})
set(OPTIONS)
set(ONE_VALUE_KEYWORDS
EXTERNAL_BINARIES_DIR
EXTERNAL_SOURCE_DIR
EXTERNAL_DESTINATION_DIR
)
set(MULTI_VALUE_KEYWORDS
SOURCES
UIS
DEFINITIONS
PLUGINS
QT_MODULES
EXTERNAL_BINARIES
SYSTEM_BINARIES
DEPENDS_ON
BYPRODUCTS
TESTS
)
cmake_parse_arguments(ARG "${OPTIONS}" "${ONE_VALUE_KEYWORDS}" "${MULTI_VALUE_KEYWORDS}" ${ARGN})
# Resource files, if any
# Note: ideally, we would have our resource files named i18n.qrc.in and
# ui.qrc for all our plugins, but this is causing problems on Linux
# with Qt apparently accepting only one file called i18n.qrc.in or
# ui.qrc. The end result is that, on a development machine, plugin
# resources (e.g. icons, translations) are not available while,
# strangely enough, they are on a deployment machine...
set(RESOURCES)
set(I18N_QRC_IN_FILENAME ${PROJECT_SOURCE_DIR}/res/${PLUGIN_NAME}_i18n.qrc.in)
set(UI_QRC_FILENAME ${PROJECT_SOURCE_DIR}/res/${PLUGIN_NAME}_ui.qrc)
if(EXISTS ${I18N_QRC_IN_FILENAME})
string(REPLACE "${CMAKE_SOURCE_DIR}" "${PROJECT_BUILD_DIR}"
I18N_QRC_FILENAME "${PROJECT_SOURCE_DIR}/res/${PLUGIN_NAME}_i18n.qrc")
configure_file(${I18N_QRC_IN_FILENAME} ${I18N_QRC_FILENAME})
list(APPEND RESOURCES ${I18N_QRC_FILENAME})
# Update the translation (.ts) files and generate the language (.qm)
# files, which will later on be embedded in the plugin
update_language_files(${PLUGIN_NAME} ${ARG_SOURCES} ${ARG_UIS})
endif()
if(EXISTS ${UI_QRC_FILENAME})
list(APPEND RESOURCES ${UI_QRC_FILENAME})
endif()
# Definition to make sure that the plugin can be used by other plugins
add_definitions(-D${PLUGIN_NAME}_PLUGIN)
# Some plugin-specific definitions
foreach(ARG_DEFINITION ${ARG_DEFINITIONS})
add_definitions(-D${ARG_DEFINITION})
endforeach()
# On Linux, set the RPATH value to use by the plugin
if(NOT WIN32 AND NOT APPLE)
set(PLUGIN_LINK_RPATH_FLAG "-Wl,-rpath,'$ORIGIN' -Wl,-rpath,'$ORIGIN/../../lib'")
string(REPLACE "${LINK_RPATH_FLAG}" "${PLUGIN_LINK_RPATH_FLAG}"
LINK_FLAGS_PROPERTIES "${LINK_FLAGS_PROPERTIES}")
endif()
# Generate and add the different files needed by the plugin
add_library(${PROJECT_NAME} SHARED
${ARG_SOURCES}
${RESOURCES}
)
set_target_properties(${PROJECT_NAME} PROPERTIES
OUTPUT_NAME ${PLUGIN_NAME}
LINK_FLAGS "${LINK_FLAGS_PROPERTIES}"
)
configure_clang_and_clang_tidy(${PROJECT_NAME})
# OpenCOR plugins
foreach(ARG_PLUGIN ${ARG_PLUGINS})
target_link_libraries(${PROJECT_NAME}
${ARG_PLUGIN}Plugin
)
endforeach()
# Qt modules
foreach(ARG_QT_MODULE ${ARG_QT_MODULES})
if(NOT APPLE)
find_package(Qt5${ARG_QT_MODULE} REQUIRED)
endif()
target_link_libraries(${PROJECT_NAME}
Qt5::${ARG_QT_MODULE}
)
endforeach()
# Create a custom target for copying external binaries
# Note #1: this is to prevent Ninja from getting confused with circular
# references...
# Note #2: we use this target in the PythonQtAPI build script when setting
# the PYTHON_DEPENDENCIES list...
if( NOT "${ARG_EXTERNAL_BINARIES_DIR}" STREQUAL ""
OR ( NOT "${ARG_EXTERNAL_SOURCE_DIR}" STREQUAL ""
AND NOT "${ARG_EXTERNAL_DESTINATION_DIR}" STREQUAL ""))
set(COPY_EXTERNAL_BINARIES_TARGET "COPY_${PROJECT_NAME}_EXTERNAL_BINARIES")
add_custom_target(${COPY_EXTERNAL_BINARIES_TARGET})
add_dependencies(${PROJECT_NAME} ${COPY_EXTERNAL_BINARIES_TARGET})
if(NOT "${ARG_DEPENDS_ON}" STREQUAL "")
add_dependencies(${COPY_EXTERNAL_BINARIES_TARGET} ${ARG_DEPENDS_ON})
endif()
endif()
# External binaries
if(NOT "${ARG_EXTERNAL_BINARIES_DIR}" STREQUAL "")
foreach(ARG_EXTERNAL_BINARY ${ARG_EXTERNAL_BINARIES})
# Make sure that the external binary exists
set(FULL_EXTERNAL_BINARY "${ARG_EXTERNAL_BINARIES_DIR}/${ARG_EXTERNAL_BINARY}")
# Only do a direct copy if the file exists and the plugin doesn't
# depend on any targets
if( EXISTS ${FULL_EXTERNAL_BINARY}
AND "${ARG_DEPENDS_ON}" STREQUAL "")
set(COPY_TARGET DIRECT)
else()
set(COPY_TARGET ${COPY_EXTERNAL_BINARIES_TARGET})
endif()
# Copy the external binary to its destination directory, so we can
# test things without first having to deploy OpenCOR
# Note: on Windows, we also need to copy it to the build directory
# so that we can test things from within Qt Creator...
if(WIN32)
copy_file_to_build_dir(${COPY_TARGET} ${ARG_EXTERNAL_BINARIES_DIR} . ${ARG_EXTERNAL_BINARY})
endif()
copy_file_to_build_dir(${COPY_TARGET} ${ARG_EXTERNAL_BINARIES_DIR} ${DEST_EXTERNAL_BINARIES_DIR} ${ARG_EXTERNAL_BINARY})
# Strip the external library of all its local symbols, if possible
if(NOT WIN32)
strip_file(${COPY_TARGET} ${FULL_DEST_EXTERNAL_BINARIES_DIR}/${ARG_EXTERNAL_BINARY})
endif()
# Link the plugin to the external library
if(WIN32)
string(REGEX REPLACE "${CMAKE_SHARED_LIBRARY_SUFFIX}$" "${CMAKE_IMPORT_LIBRARY_SUFFIX}"
IMPORT_EXTERNAL_BINARY "${FULL_EXTERNAL_BINARY}")
target_link_libraries(${PROJECT_NAME}
${IMPORT_EXTERNAL_BINARY}
)
elseif(APPLE)
target_link_libraries(${PROJECT_NAME}
${FULL_DEST_EXTERNAL_BINARIES_DIR}/${ARG_EXTERNAL_BINARY}
)
else()
target_link_libraries(${PROJECT_NAME}
${FULL_EXTERNAL_BINARY}
)
endif()
# On macOS, ensure that @rpath is set in the external library's id
# and that it references the correct Qt libraries, if any at all
if(APPLE)
if("${COPY_TARGET}" STREQUAL "DIRECT")
execute_process(COMMAND install_name_tool -id @rpath/${ARG_EXTERNAL_BINARY} ${FULL_DEST_EXTERNAL_BINARIES_DIR}/${ARG_EXTERNAL_BINARY})
else()
add_custom_command(TARGET ${COPY_TARGET} POST_BUILD
COMMAND install_name_tool -id @rpath/${ARG_EXTERNAL_BINARY} ${FULL_DEST_EXTERNAL_BINARIES_DIR}/${ARG_EXTERNAL_BINARY})
endif()
strip_file(${COPY_TARGET} ${FULL_DEST_EXTERNAL_BINARIES_DIR}/${ARG_EXTERNAL_BINARY})
endif()
# Package the external library, if needed
if(WIN32)
install(FILES ${FULL_EXTERNAL_BINARY}
DESTINATION bin)
elseif(NOT APPLE)
install(FILES ${FULL_EXTERNAL_BINARY}
DESTINATION lib)
endif()
endforeach()
endif()
# Check whether an external package has files to install
if( NOT "${ARG_EXTERNAL_SOURCE_DIR}" STREQUAL ""
AND NOT "${ARG_EXTERNAL_DESTINATION_DIR}" STREQUAL "")
# Copy the entire source directory to the destination
add_custom_command(TARGET ${COPY_EXTERNAL_BINARIES_TARGET}
COMMAND ${CMAKE_COMMAND} -E copy_directory ${ARG_EXTERNAL_SOURCE_DIR}
${ARG_EXTERNAL_DESTINATION_DIR}
BYPRODUCTS ${ARG_BYPRODUCTS})
endif()
# System binaries
foreach(ARG_SYSTEM_BINARY ${ARG_SYSTEM_BINARIES})
target_link_libraries(${PROJECT_NAME}
${ARG_SYSTEM_BINARY}
)
endforeach()
# Add some dependencies, if any
if(NOT "${ARG_DEPENDS_ON}" STREQUAL "")
add_dependencies(${PROJECT_NAME} ${ARG_DEPENDS_ON})
endif()
foreach(ARG_PLUGIN ${ARG_PLUGINS})
add_dependencies(${PROJECT_NAME} ${ARG_PLUGIN}Plugin)
endforeach()
# Some settings
if(XCODE)
set(PLUGIN_BUILD_DIR ${PROJECT_BUILD_DIR})
else()
string(REPLACE "${${CMAKE_PROJECT_NAME}_SOURCE_DIR}/" ""
PLUGIN_BUILD_DIR "${PROJECT_SOURCE_DIR}")
set(PLUGIN_BUILD_DIR ${PROJECT_BUILD_DIR}/${PLUGIN_BUILD_DIR})
if(NOT "${CMAKE_CFG_INTDIR}" STREQUAL ".")
set(PLUGIN_BUILD_DIR ${PLUGIN_BUILD_DIR}/${CMAKE_CFG_INTDIR})
endif()
endif()
set(PLUGIN_FILENAME ${CMAKE_SHARED_LIBRARY_PREFIX}${PLUGIN_NAME}${CMAKE_SHARED_LIBRARY_SUFFIX})
# Copy the plugin to our plugins directory
# Note: this is done so that we can, on Windows and Linux, test the use of
# plugins in OpenCOR without first having to package OpenCOR, as well
# as, on Windows, test things from within Qt Creator...
add_custom_command(TARGET ${PROJECT_NAME} POST_BUILD
COMMAND ${CMAKE_COMMAND} -E copy ${PLUGIN_BUILD_DIR}/${PLUGIN_FILENAME}
${DEST_PLUGINS_DIR}/${PLUGIN_FILENAME})
# Clean up our plugin, if we are on macOS, our make sure that it uses RPATH
# rather than RUNPATH on Linux
if(APPLE)
strip_file(${PROJECT_NAME} ${DEST_PLUGINS_DIR}/${PLUGIN_FILENAME})
elseif(NOT WIN32)
runpath2rpath(${PROJECT_NAME} ${PLUGIN_BUILD_DIR}/${PLUGIN_FILENAME})
endif()
# Package the plugin, but only if we are not on macOS since it will have
# already been packaged (copied)
if(NOT APPLE)
install(FILES ${PLUGIN_BUILD_DIR}/${PLUGIN_FILENAME}
DESTINATION plugins/${CMAKE_PROJECT_NAME})
endif()
# Create some tests, if any and if required
if(ENABLE_TESTS)
foreach(ARG_TEST ${ARG_TESTS})
# Keep track of the test (for later use by our main test program)
file(APPEND ${TESTS_LIST_FILENAME} "${PLUGIN_NAME}|${ARG_TEST}|")
# Build our test, if possible
set(TEST_NAME ${PLUGIN_NAME}_${ARG_TEST})
set(TEST_SOURCE tests/${ARG_TEST}.cpp)
set(TEST_HEADER tests/${ARG_TEST}.h)
if( EXISTS ${PROJECT_SOURCE_DIR}/${TEST_SOURCE}
AND EXISTS ${PROJECT_SOURCE_DIR}/${TEST_HEADER})
# The test exists, so build it, but first set the RPATH and
# RPATH link values to use by the test, if on Linux
if(NOT WIN32 AND NOT APPLE)
string(REPLACE "${PLUGIN_LINK_RPATH_FLAG}" "-Wl,-rpath-link,${PROJECT_BUILD_DIR}/lib ${LINK_RPATH_FLAG} -Wl,-rpath,'$ORIGIN/../plugins/${CMAKE_PROJECT_NAME}'"
LINK_FLAGS_PROPERTIES "${LINK_FLAGS_PROPERTIES}")
endif()
add_executable(${TEST_NAME}
../../../tests/src/testsutils.cpp
${ARG_SOURCES}
${RESOURCES}
${TEST_SOURCE}
${TESTS_QRC_FILENAME}
)
set_target_properties(${TEST_NAME} PROPERTIES
OUTPUT_NAME ${TEST_NAME}
LINK_FLAGS "${LINK_FLAGS_PROPERTIES}"
)
configure_clang_and_clang_tidy(${TEST_NAME})
# OpenCOR plugins
foreach(ARG_PLUGIN ${ARG_PLUGINS})
target_link_libraries(${TEST_NAME}
${ARG_PLUGIN}Plugin
)
endforeach()
# Qt modules
foreach(ARG_QT_MODULE ${ARG_QT_MODULES} Test)
target_link_libraries(${TEST_NAME}
Qt5::${ARG_QT_MODULE}
)
endforeach()
# External binaries
if(NOT "${ARG_EXTERNAL_BINARIES_DIR}" STREQUAL "")
foreach(ARG_EXTERNAL_BINARY ${ARG_EXTERNAL_BINARIES})
set(FULL_EXTERNAL_BINARY "${ARG_EXTERNAL_BINARIES_DIR}/${ARG_EXTERNAL_BINARY}")
if(WIN32)
string(REGEX REPLACE "${CMAKE_SHARED_LIBRARY_SUFFIX}$" "${CMAKE_IMPORT_LIBRARY_SUFFIX}"
IMPORT_EXTERNAL_BINARY "${FULL_EXTERNAL_BINARY}")
target_link_libraries(${TEST_NAME}
${IMPORT_EXTERNAL_BINARY}
)
elseif(APPLE)
target_link_libraries(${TEST_NAME}
${FULL_DEST_EXTERNAL_BINARIES_DIR}/${ARG_EXTERNAL_BINARY}
)
else()
target_link_libraries(${TEST_NAME}
${FULL_EXTERNAL_BINARY}
)
endif()
endforeach()
endif()
# System binaries
foreach(ARG_SYSTEM_BINARY ${ARG_SYSTEM_BINARIES})
target_link_libraries(${TEST_NAME}
${ARG_SYSTEM_BINARY}
)
endforeach()
# Add some dependencies, if any
if(NOT "${ARG_DEPENDS_ON}" STREQUAL "")
add_dependencies(${TEST_NAME} ${ARG_DEPENDS_ON})
endif()
foreach(ARG_PLUGIN ${ARG_PLUGINS})
add_dependencies(${TEST_NAME} ${ARG_PLUGIN}Plugin)
endforeach()
# Copy the test to our tests directory
# Note: DEST_TESTS_DIR is defined in our main CMake file...
set(TEST_FILENAME ${TEST_NAME}${CMAKE_EXECUTABLE_SUFFIX})
if(WIN32)
add_custom_command(TARGET ${TEST_NAME} POST_BUILD
COMMAND ${CMAKE_COMMAND} -E copy ${PLUGIN_BUILD_DIR}/${TEST_FILENAME}
${PROJECT_BUILD_DIR}/${TEST_FILENAME})
endif()
add_custom_command(TARGET ${TEST_NAME} POST_BUILD
COMMAND ${CMAKE_COMMAND} -E copy ${PLUGIN_BUILD_DIR}/${TEST_FILENAME}
${DEST_TESTS_DIR}/${TEST_FILENAME})
# Clean up our plugin's tests, if we are on macOS, or make sure
# that it uses RPATH rather than RUNPATH on Linux
if(APPLE)
strip_file(${TEST_NAME} ${DEST_TESTS_DIR}/${TEST_FILENAME})
elseif(NOT WIN32)
runpath2rpath(${TEST_NAME} ${DEST_TESTS_DIR}/${TEST_FILENAME})
endif()
else()
message(AUTHOR_WARNING "The '${ARG_TEST}' test for the '${PLUGIN_NAME}' plugin does not exist...")
endif()
endforeach()
endif()
endmacro()
#===============================================================================
macro(copy_file_to_build_dir PROJECT_TARGET ORIG_DIRNAME DEST_DIRNAME FILENAME)
# Copy the file (renaming it, if needed) to the destination folder
# Note: DIRECT is used to copy a file that doesn't first need to be built.
# This means that we can then use execute_process() rather than
# add_custom_command(), and thus reduce the length of the
# PROJECT_TARGET command, something that can be useful on Windows
# since the command might otherwise end up being too long for Windows
# to handle...
if("${ARGN}" STREQUAL "")
set(FULL_DEST_FILENAME ${PROJECT_BUILD_DIR}/${DEST_DIRNAME}/${FILENAME})
else()
# An argument was passed so use it to rename the file, which is to be
# copied
set(FULL_DEST_FILENAME ${PROJECT_BUILD_DIR}/${DEST_DIRNAME}/${ARGN})
endif()
if("${PROJECT_TARGET}" STREQUAL "DIRECT")
execute_process(COMMAND ${CMAKE_COMMAND} -E copy ${ORIG_DIRNAME}/${FILENAME}
${FULL_DEST_FILENAME})
else()
add_custom_command(TARGET ${PROJECT_TARGET} POST_BUILD
COMMAND ${CMAKE_COMMAND} -E copy ${ORIG_DIRNAME}/${FILENAME}
${FULL_DEST_FILENAME}
BYPRODUCTS ${FULL_DEST_FILENAME})
endif()
endmacro()
#===============================================================================
macro(windows_deploy_qt_library LIBRARY_NAME)
# Copy the Qt library to both the build and build/bin folders, so we can
# test things both from within Qt Creator and without first having to deploy
# OpenCOR
if( "${LIBRARY_NAME}" STREQUAL "Qt5WebKit"
OR "${LIBRARY_NAME}" STREQUAL "Qt5WebKitWidgets"
OR "${LIBRARY_NAME}" STREQUAL "icudt${ICU_VERSION}"
OR "${LIBRARY_NAME}" STREQUAL "icuin${ICU_VERSION}"
OR "${LIBRARY_NAME}" STREQUAL "icuuc${ICU_VERSION}")
set(REAL_QT_BINARY_DIR ${QTWEBKIT_BINARIES_DIR})
else()
set(REAL_QT_BINARY_DIR ${QT_BINARY_DIR})
endif()
set(LIBRARY_RELEASE_FILENAME ${CMAKE_SHARED_LIBRARY_PREFIX}${LIBRARY_NAME}${CMAKE_SHARED_LIBRARY_SUFFIX})
if("${LIBRARY_NAME}" STREQUAL "icudt${ICU_VERSION}")
set(LIBRARY_DEBUG_FILENAME ${CMAKE_SHARED_LIBRARY_PREFIX}icudtd${ICU_VERSION}${CMAKE_SHARED_LIBRARY_SUFFIX})
elseif("${LIBRARY_NAME}" STREQUAL "icuin${ICU_VERSION}")
set(LIBRARY_DEBUG_FILENAME ${CMAKE_SHARED_LIBRARY_PREFIX}icuind${ICU_VERSION}${CMAKE_SHARED_LIBRARY_SUFFIX})
elseif("${LIBRARY_NAME}" STREQUAL "icuuc${ICU_VERSION}")
set(LIBRARY_DEBUG_FILENAME ${CMAKE_SHARED_LIBRARY_PREFIX}icuucd${ICU_VERSION}${CMAKE_SHARED_LIBRARY_SUFFIX})
else()
set(LIBRARY_DEBUG_FILENAME ${CMAKE_SHARED_LIBRARY_PREFIX}${LIBRARY_NAME}d${CMAKE_SHARED_LIBRARY_SUFFIX})
endif()
if(NOT EXISTS ${REAL_QT_BINARY_DIR}/${LIBRARY_DEBUG_FILENAME})
# No debug version of the Qt library exists, so use its release version
# instead
set(LIBRARY_DEBUG_FILENAME ${LIBRARY_RELEASE_FILENAME})
endif()
if(RELEASE_MODE)
set(LIBRARY_FILENAME ${LIBRARY_RELEASE_FILENAME})
else()
set(LIBRARY_FILENAME ${LIBRARY_DEBUG_FILENAME})
endif()
copy_file_to_build_dir(DIRECT ${REAL_QT_BINARY_DIR} . ${LIBRARY_FILENAME})
copy_file_to_build_dir(DIRECT ${REAL_QT_BINARY_DIR} bin ${LIBRARY_FILENAME})
# Deploy the Qt library
install(FILES ${REAL_QT_BINARY_DIR}/${LIBRARY_FILENAME}
DESTINATION bin)
endmacro()
#===============================================================================
macro(windows_deploy_qt_plugins PLUGIN_CATEGORY)
foreach(PLUGIN_NAME ${ARGN})
# Copy the Qt plugin to the plugins folder
set(PLUGIN_ORIG_DIRNAME ${QT_PLUGINS_DIR}/${PLUGIN_CATEGORY})
set(PLUGIN_DEST_DIRNAME plugins/${PLUGIN_CATEGORY})
set(PLUGIN_RELEASE_FILENAME ${CMAKE_SHARED_LIBRARY_PREFIX}${PLUGIN_NAME}${CMAKE_SHARED_LIBRARY_SUFFIX})
set(PLUGIN_DEBUG_FILENAME ${CMAKE_SHARED_LIBRARY_PREFIX}${PLUGIN_NAME}d${CMAKE_SHARED_LIBRARY_SUFFIX})
if(RELEASE_MODE)
set(PLUGIN_FILENAME ${PLUGIN_RELEASE_FILENAME})
else()
set(PLUGIN_FILENAME ${PLUGIN_DEBUG_FILENAME})
endif()
copy_file_to_build_dir(DIRECT ${PLUGIN_ORIG_DIRNAME} ${PLUGIN_DEST_DIRNAME} ${PLUGIN_FILENAME})
# Deploy the Qt plugin
install(FILES ${PLUGIN_ORIG_DIRNAME}/${PLUGIN_FILENAME}
DESTINATION ${PLUGIN_DEST_DIRNAME})
endforeach()
endmacro()
#===============================================================================
macro(runpath2rpath PROJECT_TARGET FILENAME)
# Convert the RUNPATH value, if any, of the given ELF file to an RPATH value
if("${PROJECT_TARGET}" STREQUAL "DIRECT")
execute_process(COMMAND ${RUNPATH2RPATH} ${FILENAME}
RESULT_VARIABLE RESULT)
if(NOT RESULT EQUAL 0)
message(FATAL_ERROR "The RUNPATH value of '${FILENAME}' could not be converted to an RPATH value...")
endif()
else()
add_custom_command(TARGET ${PROJECT_TARGET} POST_BUILD
COMMAND ${RUNPATH2RPATH} ${FILENAME})
endif()
endmacro()
#===============================================================================
macro(linux_deploy_qt_library PROJECT_TARGET DIRNAME FILENAME)
# Copy the Qt library to the build/lib folder, so we can test things without
# first having to deploy OpenCOR
# Note: this is particularly useful when the Linux machine has different
# versions of Qt...
copy_file_to_build_dir(${PROJECT_TARGET} ${DIRNAME} lib ${FILENAME})
# Make sure that the RUNPATH value is converted to an RPATH value
runpath2rpath(${PROJECT_TARGET} ${PROJECT_BUILD_DIR}/lib/${FILENAME})
# Strip the Qt library of all its local symbols
strip_file(${PROJECT_TARGET} ${PROJECT_BUILD_DIR}/lib/${FILENAME})
# Deploy the Qt library
install(FILES ${PROJECT_BUILD_DIR}/lib/${FILENAME}
DESTINATION lib)
endmacro()
#===============================================================================
macro(linux_deploy_qt_plugins PLUGIN_CATEGORY)
foreach(PLUGIN_NAME ${ARGN})
# Copy the Qt plugin to the plugins folder
set(PLUGIN_ORIG_DIRNAME ${QT_PLUGINS_DIR}/${PLUGIN_CATEGORY})
set(PLUGIN_DEST_DIRNAME plugins/${PLUGIN_CATEGORY})
set(PLUGIN_FILENAME ${CMAKE_SHARED_LIBRARY_PREFIX}${PLUGIN_NAME}${CMAKE_SHARED_LIBRARY_SUFFIX})
copy_file_to_build_dir(DIRECT ${PLUGIN_ORIG_DIRNAME} ${PLUGIN_DEST_DIRNAME} ${PLUGIN_FILENAME})
# Make sure that the RUNPATH value is converted to an RPATH value
runpath2rpath(DIRECT ${PROJECT_BUILD_DIR}/${PLUGIN_DEST_DIRNAME}/${PLUGIN_FILENAME})
# Strip the Qt plugin of all its local symbols
strip_file(DIRECT ${PROJECT_BUILD_DIR}/${PLUGIN_DEST_DIRNAME}/${PLUGIN_FILENAME})
# Deploy the Qt plugin
install(FILES ${PROJECT_BUILD_DIR}/${PLUGIN_DEST_DIRNAME}/${PLUGIN_FILENAME}
DESTINATION ${PLUGIN_DEST_DIRNAME})
endforeach()
endmacro()
#===============================================================================
macro(linux_deploy_system_library FILENAME NEW_FILENAME)
# Copy the system library to the build/lib folder, so we can test things
# without first having to deploy OpenCOR
get_filename_component(REAL_FULL_FILENAME ${FILENAME} REALPATH)
get_filename_component(REAL_DIRNAME ${REAL_FULL_FILENAME} DIRECTORY)
get_filename_component(REAL_FILENAME ${REAL_FULL_FILENAME} NAME)
copy_file_to_build_dir(DIRECT ${REAL_DIRNAME} lib ${REAL_FILENAME} ${NEW_FILENAME})
# Deploy the system library
install(FILES ${REAL_FULL_FILENAME}
DESTINATION lib
RENAME ${NEW_FILENAME})
endmacro()
#===============================================================================
macro(macos_deploy_qt_file ORIG_DIRNAME DEST_DIRNAME FILENAME)
# Copy the Qt file
execute_process(COMMAND ${CMAKE_COMMAND} -E copy ${ORIG_DIRNAME}/${FILENAME}
${DEST_DIRNAME}/${FILENAME})
# Clean up the Qt file
strip_file(DIRECT ${DEST_DIRNAME}/${FILENAME})
endmacro()
#===============================================================================
macro(macos_deploy_qt_library LIBRARY_NAME)
# Deploy the Qt library
set(QT_FRAMEWORK_DIR ${LIBRARY_NAME}.framework/Versions/${QT_VERSION_MAJOR})
if( "${LIBRARY_NAME}" STREQUAL "Qt${WEBKIT}"
OR "${LIBRARY_NAME}" STREQUAL "Qt${WEBKITWIDGETS}")
set(REAL_QT_LIBRARY_DIR ${QTWEBKIT_LIBRARIES_DIR})
else()
set(REAL_QT_LIBRARY_DIR ${QT_LIBRARY_DIR})
endif()
macos_deploy_qt_file(${REAL_QT_LIBRARY_DIR}/${QT_FRAMEWORK_DIR}
${PROJECT_BUILD_DIR}/${CMAKE_PROJECT_NAME}.app/Contents/Frameworks/${QT_FRAMEWORK_DIR}
${LIBRARY_NAME})
endmacro()
#===============================================================================
macro(macos_deploy_qt_plugins PLUGIN_CATEGORY)
foreach(PLUGIN_NAME ${ARGN})
# Deploy the Qt plugin
macos_deploy_qt_file(${QT_PLUGINS_DIR}/${PLUGIN_CATEGORY}
${PROJECT_BUILD_DIR}/${CMAKE_PROJECT_NAME}.app/Contents/PlugIns/${PLUGIN_CATEGORY}
${CMAKE_SHARED_LIBRARY_PREFIX}${PLUGIN_NAME}${CMAKE_SHARED_LIBRARY_SUFFIX})
endforeach()
endmacro()
#===============================================================================
macro(create_package_file PACKAGE_NAME PACKAGE_VERSION)
# Various initialisations
set(OPTIONS)
set(ONE_VALUE_KEYWORDS
PACKAGE_REPOSITORY
RELEASE_TAG
TARGET_PLATFORM
TARGET
)
set(MULTI_VALUE_KEYWORDS
PACKAGED_FILES
SHA1_FILES
)
cmake_parse_arguments(ARG "${OPTIONS}" "${ONE_VALUE_KEYWORDS}" "${MULTI_VALUE_KEYWORDS}" ${ARGN})
# Make sure that we have at least one file for which we want to check the
# SHA-1 value
list(LENGTH ARG_SHA1_FILES ARG_SHA1_FILES_COUNT)
if(ARG_SHA1_FILES_COUNT EQUAL 0)
message(FATAL_ERROR "At least one file must have its SHA-1 value calculated in order to create the '${PACKAGE_NAME}' package...")
endif()
# The full path to the package's files
string(REPLACE "${CMAKE_SOURCE_DIR}" "${CMAKE_SOURCE_DIR}/ext"
DIRNAME "${PROJECT_SOURCE_DIR}/${EXTERNAL_PACKAGE_DIR}")
# Remove any historical package archive
if(NOT "${ARG_TARGET_PLATFORM}" STREQUAL "")
set(REAL_TARGET_PLATFORM ${ARG_TARGET_PLATFORM})
else()
set(REAL_TARGET_PLATFORM ${TARGET_PLATFORM})
endif()
set(COMPRESSED_FILENAME ${PROJECT_BUILD_DIR}/${PACKAGE_NAME}.${PACKAGE_VERSION}.${REAL_TARGET_PLATFORM}.tar.gz)
file(REMOVE ${COMPRESSED_FILENAME})
# The actual packaging code goes into a separate CMake script file that is
# run as a POST_BUILD step
set(CMAKE_CODE "cmake_minimum_required(VERSION 3.3)
# Files and directories to package
set(PACKAGED_FILES")
foreach(FILENAME IN LISTS ARG_PACKAGED_FILES)
set(CMAKE_CODE "${CMAKE_CODE}\n ${FILENAME}")
endforeach()
set(CMAKE_CODE "${CMAKE_CODE}\n)
# Files to have their SHA-1 value checked
set(SHA1_FILES")
foreach(FILENAME IN LISTS ARG_SHA1_FILES)
set(CMAKE_CODE "${CMAKE_CODE}\n ${FILENAME}")
endforeach()
set(CMAKE_CODE "${CMAKE_CODE}\n)
# Calculate the SHA-1 value of our different files, after having stripped them,
# if needed
set(SHA1_VALUES)
foreach(SHA1_FILE IN LISTS SHA1_FILES)
set(REAL_SHA1_FILENAME \"${DIRNAME}/\$\{SHA1_FILE\}\")
if(NOT EXISTS \$\{REAL_SHA1_FILENAME\})
message(FATAL_ERROR \"'\$\{REAL_SHA1_FILENAME\}' is missing from the '${PACKAGE_NAME}' package...\")
endif()
if(NOT WIN32 AND RELEASE_MODE)
execute_process(COMMAND ${CMAKE_SOURCE_DIR}/scripts/strip -x \$\{REAL_SHA1_FILENAME\})
endif()
file(SHA1 \$\{REAL_SHA1_FILENAME\} SHA1_VALUE)
list(APPEND SHA1_VALUES \$\{SHA1_VALUE\})
endforeach()
# Compress our package
execute_process(COMMAND ${CMAKE_COMMAND} -E tar -czf ${COMPRESSED_FILENAME} \$\{PACKAGED_FILES\}
WORKING_DIRECTORY ${DIRNAME}
RESULT_VARIABLE RESULT
OUTPUT_QUIET)
# Make sure that the compressed version of our package exists
if(RESULT EQUAL 0 AND EXISTS ${COMPRESSED_FILENAME})
# The compressed version of our package exists, so calculate its SHA-1 value
# and let people know how we should call the retrieve_package_file() macro
file(SHA1 ${COMPRESSED_FILENAME} SHA1_VALUE)
string(REPLACE \"\;\" \"\\n \"
SHA1_VALUES \"\$\{SHA1_VALUES\}\")
message(\"To retrieve the '${PACKAGE_NAME}' package, use:
retrieve_package_file(\\$\\{PACKAGE_NAME\\} \\$\\{PACKAGE_VERSION\\}
\\$\\{FULL_LOCAL_EXTERNAL_PACKAGE_DIR\\} \$\{SHA1_VALUE\}")
if(NOT "${ARG_PACKAGE_REPOSITORY}" STREQUAL "")
set(CMAKE_CODE "${CMAKE_CODE}\n PACKAGE_REPOSITORY \\$\\{PACKAGE_REPOSITORY\\}")
endif()
if(NOT "${ARG_RELEASE_TAG}" STREQUAL "")
set(CMAKE_CODE "${CMAKE_CODE}\n RELEASE_TAG \\$\\{RELEASE_TAG\\}")
endif()
if(NOT "${ARG_TARGET_PLATFORM}" STREQUAL "")
set(CMAKE_CODE "${CMAKE_CODE}\n TARGET_PLATFORM \\$\\{TARGET_PLATFORM\\}")
endif()
set(CMAKE_CODE "${CMAKE_CODE}\n SHA1_FILES \\$\\{SHA1_FILES\\}
SHA1_VALUES \$\{SHA1_VALUES\})\")
else()
if(EXISTS ${COMPRESSED_FILENAME})
file(REMOVE ${COMPRESSED_FILENAME})
endif()
message(FATAL_ERROR \"The compressed version of the '${PACKAGE_NAME}' package could not be generated...\")
endif()
")
set(PACKAGING_SCRIPT ${PROJECT_BINARY_DIR}/package${PACKAGE_NAME}.cmake)
file(WRITE ${PACKAGING_SCRIPT} ${CMAKE_CODE})
# Run the packaging script once the dependency target has been satisfied
add_custom_command(TARGET ${ARG_TARGET} POST_BUILD
COMMAND ${CMAKE_COMMAND} -D RELEASE_MODE=${RELEASE_MODE} -P ${PACKAGING_SCRIPT}
VERBATIM)
endmacro()
#===============================================================================
macro(check_files DIRNAME FILENAMES SHA1_VALUES)
# By default, everything is OK
set(CHECK_FILES_OK TRUE)
set(INVALID_SHA1_FILES)
set(MISSING_FILES)
# See our parameters as lists
set(FILENAMES_LIST ${FILENAMES})
set(SHA1_VALUES_LIST ${SHA1_VALUES})
# Retrieve the number of SHA-1 files and values we have
list(LENGTH FILENAMES_LIST FILENAMES_COUNT)
# Make sure that we have some files
if(FILENAMES_COUNT)
# Determine our range
math(EXPR RANGE "${FILENAMES_COUNT}-1")
# Make sure that our files, if they exist, have the expected SHA-1 value
foreach(I RANGE ${RANGE})