qt5base-lts/cmake/QtBuild.cmake
Joerg Bornemann ce9efcf4a9 CMake: Fix QT_STAGING_PREFIX for repos other than qtbase
For repositories other than qtbase the QT_STAGING_PREFIX was empty,
because it was only determined in qtbase.

Also, we save the CMAKE_STAGING_PREFIX in the Qt6BuildInternals package
and set this variable if it's not explicitly set by the user.
As with CMAKE_INSTALL_PREFIX this behavior can be prevented by defining
QT_BUILD_INTERNALS_NO_FORCE_SET_STAGING_PREFIX=ON.

Change-Id: I73100abbef24f5d3fb8f82029d0374176edc8048
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2020-07-13 14:56:49 +02:00

6013 lines
245 KiB
CMake

include(CMakePackageConfigHelpers)
include(QtSeparateDebugInfo)
function(qt_configure_process_path name default docstring)
# Values are computed once for qtbase, and then exported and reused for other projects.
if(NOT PROJECT_NAME STREQUAL "QtBase")
return()
endif()
# No value provided, set the default.
if(NOT DEFINED "${name}")
set("${name}" "${default}" CACHE STRING "${docstring}")
else()
get_filename_component(given_path_as_abs "${${name}}" ABSOLUTE BASE_DIR
"${CMAKE_INSTALL_PREFIX}")
file(RELATIVE_PATH rel_path "${CMAKE_INSTALL_PREFIX}"
"${given_path_as_abs}")
# If absolute path given, check that it's inside the prefix (error out if not).
# TODO: Figure out if we need to support paths that are outside the prefix.
#
# If relative path given, it's relative to the install prefix (rather than the binary dir,
# which is what qmake does for some reason).
# In both cases, store the value as a relative path.
if("${rel_path}" STREQUAL "")
# file(RELATIVE_PATH) returns an empty string if the given absolute paths are equal
set(rel_path ".")
elseif(rel_path MATCHES "^\.\./")
message(FATAL_ERROR
"Path component '${name}' is outside computed install prefix: ${rel_path} ")
endif()
set("${name}" "${rel_path}" CACHE STRING "${docstring}" FORCE)
endif()
endfunction()
# Install locations:
qt_configure_process_path(INSTALL_BINDIR "bin" "Executables [PREFIX/bin]")
qt_configure_process_path(INSTALL_INCLUDEDIR "include" "Header files [PREFIX/include]")
qt_configure_process_path(INSTALL_LIBDIR "lib" "Libraries [PREFIX/lib]")
qt_configure_process_path(INSTALL_MKSPECSDIR "mkspecs" "Mkspecs files [PREFIX/mkspecs]")
qt_configure_process_path(INSTALL_ARCHDATADIR "." "Arch-dependent data [PREFIX]")
qt_configure_process_path(INSTALL_PLUGINSDIR
"${INSTALL_ARCHDATADIR}/plugins"
"Plugins [ARCHDATADIR/plugins]")
# Given CMAKE_CONFIG and ALL_CMAKE_CONFIGS, determines if a directory suffix needs to be appended
# to each destination, and sets the computed install target destination arguments in OUT_VAR.
# Defaults used for each of the destination types, and can be configured per destination type.
function(qt_get_install_target_default_args)
qt_parse_all_arguments(arg "qt_get_install_target_default_args"
"" "OUT_VAR;CMAKE_CONFIG;RUNTIME;LIBRARY;ARCHIVE;INCLUDES;BUNDLE"
"ALL_CMAKE_CONFIGS" ${ARGN})
if(NOT arg_CMAKE_CONFIG)
message(FATAL_ERROR "No value given for CMAKE_CONFIG.")
endif()
if(NOT arg_ALL_CMAKE_CONFIGS)
message(FATAL_ERROR "No value given for ALL_CMAKE_CONFIGS.")
endif()
list(LENGTH arg_ALL_CMAKE_CONFIGS all_configs_count)
list(GET arg_ALL_CMAKE_CONFIGS 0 first_config)
set(suffix "")
if(all_configs_count GREATER 1 AND NOT arg_CMAKE_CONFIG STREQUAL first_config)
set(suffix "/${arg_CMAKE_CONFIG}")
endif()
set(runtime "${INSTALL_BINDIR}")
if(arg_RUNTIME)
set(runtime "${arg_RUNTIME}")
endif()
set(library "${INSTALL_LIBDIR}")
if(arg_LIBRARY)
set(library "${arg_LIBRARY}")
endif()
set(archive "${INSTALL_LIBDIR}")
if(arg_ARCHIVE)
set(archive "${arg_ARCHIVE}")
endif()
set(includes "${INSTALL_INCLUDEDIR}")
if(arg_INCLUDES)
set(includes "${arg_INCLUDES}")
endif()
set(bundle "${INSTALL_BINDIR}")
if(arg_BUNDLE)
set(bundle "${arg_BUNDLE}")
endif()
set(args
RUNTIME DESTINATION "${runtime}${suffix}"
LIBRARY DESTINATION "${library}${suffix}"
ARCHIVE DESTINATION "${archive}${suffix}" COMPONENT Devel
BUNDLE DESTINATION "${bundle}${suffix}"
INCLUDES DESTINATION "${includes}${suffix}")
set(${arg_OUT_VAR} "${args}" PARENT_SCOPE)
endfunction()
if (WIN32)
set(_default_libexec "${INSTALL_ARCHDATADIR}/bin")
else()
set(_default_libexec "${INSTALL_ARCHDATADIR}/libexec")
endif()
qt_configure_process_path(
INSTALL_LIBEXECDIR
"${_default_libexec}"
"Helper programs [ARCHDATADIR/bin on Windows, ARCHDATADIR/libexec otherwise]")
qt_configure_process_path(INSTALL_QMLDIR
"${INSTALL_ARCHDATADIR}/qml"
"QML2 imports [ARCHDATADIR/qml]")
qt_configure_process_path(INSTALL_DATADIR "." "Arch-independent data [PREFIX]")
qt_configure_process_path(INSTALL_DOCDIR "${INSTALL_DATADIR}/doc" "Documentation [DATADIR/doc]")
qt_configure_process_path(INSTALL_TRANSLATIONSDIR "${INSTALL_DATADIR}/translations"
"Translations [DATADIR/translations]")
qt_configure_process_path(INSTALL_SYSCONFDIR
"etc/xdg"
"Settings used by Qt programs [PREFIX/etc/xdg]")
qt_configure_process_path(INSTALL_EXAMPLESDIR "examples" "Examples [PREFIX/examples]")
qt_configure_process_path(INSTALL_TESTSDIR "tests" "Tests [PREFIX/tests]")
qt_configure_process_path(INSTALL_DESCRIPTIONSDIR
"${INSTALL_DATADIR}/modules"
"Module description files directory")
if(CMAKE_CROSSCOMPILING AND NOT "${CMAKE_STAGING_PREFIX}" STREQUAL "")
set(QT_STAGING_PREFIX "${CMAKE_STAGING_PREFIX}")
else()
set(QT_STAGING_PREFIX "${CMAKE_INSTALL_PREFIX}")
endif()
function(qt_internal_set_up_global_paths)
# Compute the values of QT_BUILD_DIR, QT_INSTALL_DIR, QT_CONFIG_BUILD_DIR, QT_CONFIG_INSTALL_DIR
# taking into account whether the current build is a prefix build or a non-prefix build,
# and whether it is a superbuild or non-superbuild.
# A third case is when another module or standalone tests are built against a super-built Qt.
# The layout for the third case is the same as for non-superbuilds.
#
# These values should be prepended to file paths in commands or properties,
# in order to correctly place generated Config files, generated Targets files,
# excutables / libraries, when copying / installing files, etc.
#
# The build dir variables will always be absolute paths.
# The QT_INSTALL_DIR variable will have a relative path in a prefix build,
# which means that it can be empty, so use qt_join_path to prevent accidental absolute paths.
if(QT_SUPERBUILD)
# In this case, we always copy all the build products in qtbase/{bin,lib,...}
if(QT_WILL_INSTALL)
set(QT_BUILD_DIR "${QtBase_BINARY_DIR}")
set(QT_INSTALL_DIR "")
else()
if("${CMAKE_STAGING_PREFIX}" STREQUAL "")
set(QT_BUILD_DIR "${QtBase_BINARY_DIR}")
set(QT_INSTALL_DIR "${QtBase_BINARY_DIR}")
else()
set(QT_BUILD_DIR "${CMAKE_STAGING_PREFIX}")
set(QT_INSTALL_DIR "${CMAKE_STAGING_PREFIX}")
endif()
endif()
else()
if(QT_WILL_INSTALL)
# In the usual prefix build case, the build dir is the current module build dir,
# and the install dir is the prefix, so we don't set it.
set(QT_BUILD_DIR "${CMAKE_BINARY_DIR}")
set(QT_INSTALL_DIR "")
else()
# When doing a non-prefix build, both the build dir and install dir are the same,
# pointing to the qtbase build dir.
set(QT_BUILD_DIR "${QT_STAGING_PREFIX}")
set(QT_INSTALL_DIR "${QT_BUILD_DIR}")
endif()
endif()
set(__config_path_part "${INSTALL_LIBDIR}/cmake")
set(QT_CONFIG_BUILD_DIR "${QT_BUILD_DIR}/${__config_path_part}")
set(QT_CONFIG_INSTALL_DIR "${QT_INSTALL_DIR}")
if(QT_CONFIG_INSTALL_DIR)
string(APPEND QT_CONFIG_INSTALL_DIR "/")
endif()
string(APPEND QT_CONFIG_INSTALL_DIR ${__config_path_part})
set(QT_BUILD_DIR "${QT_BUILD_DIR}" PARENT_SCOPE)
set(QT_INSTALL_DIR "${QT_INSTALL_DIR}" PARENT_SCOPE)
set(QT_CONFIG_BUILD_DIR "${QT_CONFIG_BUILD_DIR}" PARENT_SCOPE)
set(QT_CONFIG_INSTALL_DIR "${QT_CONFIG_INSTALL_DIR}" PARENT_SCOPE)
endfunction()
qt_internal_set_up_global_paths()
qt_get_relocatable_install_prefix(QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX)
# The variables might have already been set in QtBuildInternalsExtra.cmake if the file is included
# while building a new module and not QtBase. In that case, stop overriding the value.
if(NOT INSTALL_CMAKE_NAMESPACE)
set(INSTALL_CMAKE_NAMESPACE "Qt${PROJECT_VERSION_MAJOR}"
CACHE STRING "CMake namespace [Qt${PROJECT_VERSION_MAJOR}]")
endif()
if(NOT QT_CMAKE_EXPORT_NAMESPACE)
set(QT_CMAKE_EXPORT_NAMESPACE "Qt${PROJECT_VERSION_MAJOR}"
CACHE STRING "CMake namespace used when exporting targets [Qt${PROJECT_VERSION_MAJOR}]")
endif()
set(QT_CMAKE_DIR "${CMAKE_CURRENT_LIST_DIR}")
# Find the path to mkspecs/, depending on whether we are building as part of a standard qtbuild,
# or a module against an already installed version of qt.
if(NOT QT_MKSPECS_DIR)
if("${QT_BUILD_INTERNALS_PATH}" STREQUAL "")
get_filename_component(QT_MKSPECS_DIR "${CMAKE_CURRENT_LIST_DIR}/../mkspecs" ABSOLUTE)
else()
# We can rely on QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX being set by
# QtBuildInternalsExtra.cmake.
get_filename_component(
QT_MKSPECS_DIR
"${QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX}/${INSTALL_MKSPECSDIR}" ABSOLUTE)
endif()
set(QT_MKSPECS_DIR "${QT_MKSPECS_DIR}" CACHE INTERNAL "")
endif()
# the default RPATH to be used when installing, but only if it's not a system directory
list(FIND CMAKE_PLATFORM_IMPLICIT_LINK_DIRECTORIES "${CMAKE_INSTALL_PREFIX}/${INSTALL_LIBDIR}" isSystemDir)
if("${isSystemDir}" STREQUAL "-1")
set(_default_install_rpath "${CMAKE_INSTALL_PREFIX}/${INSTALL_LIBDIR}")
endif("${isSystemDir}" STREQUAL "-1")
# The default rpath settings for installed targets is empty.
# The rpaths will instead be computed for each target separately using qt_apply_rpaths().
# Additional rpaths can be passed via QT_EXTRA_RPATHS.
# By default this will include $ORIGIN / @loader_path, so the installation is relocatable.
# Bottom line: No need to pass anything to CMAKE_INSTALL_RPATH.
set(CMAKE_INSTALL_RPATH "" CACHE STRING "RPATH for installed binaries")
# add the automatically determined parts of the RPATH
# which point to directories outside the build tree to the install RPATH
set(CMAKE_INSTALL_RPATH_USE_LINK_PATH TRUE)
# Generate a module description file based on the template in ModuleDescription.json.in
function(qt_describe_module target)
set(path_suffix "${INSTALL_DESCRIPTIONSDIR}")
qt_path_join(build_dir ${QT_BUILD_DIR} ${path_suffix})
qt_path_join(install_dir ${QT_INSTALL_DIR} ${path_suffix})
set(descfile_in "${QT_CMAKE_DIR}/ModuleDescription.json.in")
set(descfile_out "${build_dir}/${target}.json")
set(cross_compilation "false")
if(CMAKE_CROSSCOMPILING)
set(cross_compilation "true")
endif()
configure_file("${descfile_in}" "${descfile_out}")
qt_install(FILES "${descfile_out}" DESTINATION "${install_dir}")
endfunction()
function(qt_setup_tool_path_command)
if(NOT WIN32)
return()
endif()
set(bindir "${QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX}/${INSTALL_BINDIR}")
file(TO_NATIVE_PATH "${bindir}" bindir)
list(APPEND command COMMAND)
list(APPEND command set \"PATH=${bindir}$<SEMICOLON>%PATH%\")
set(QT_TOOL_PATH_SETUP_COMMAND "${command}" CACHE INTERNAL "internal command prefix for tool invocations" FORCE)
endfunction()
qt_setup_tool_path_command()
# Platform define path, etc.
if(WIN32)
set(QT_DEFAULT_PLATFORM_DEFINITIONS UNICODE _UNICODE WIN32 _ENABLE_EXTENDED_ALIGNED_STORAGE)
if(CMAKE_SIZEOF_VOID_P EQUAL 8)
list(APPEND QT_DEFAULT_PLATFORM_DEFINITIONS WIN64 _WIN64)
endif()
if(MSVC)
set(QT_DEFAULT_MKSPEC win32-msvc)
elseif(CLANG AND MINGW)
set(QT_DEFAULT_MKSPEC win32-clang-g++)
elseif(MINGW)
set(QT_DEFAULT_MKSPEC win32-g++)
endif()
if (MINGW)
list(APPEND QT_DEFAULT_PLATFORM_DEFINITIONS _WIN32_WINNT=0x0601 MINGW_HAS_SECURE_API=1)
endif()
elseif(LINUX)
if(GCC)
set(QT_DEFAULT_MKSPEC linux-g++)
elseif(CLANG)
set(QT_DEFAULT_MKSPEC linux-clang)
elseif(ICC)
set(QT_DEFAULT_MKSPEC linux-icc-64)
endif()
elseif(ANDROID)
if(GCC)
set(QT_DEFAULT_MKSPEC android-g++)
elseif(CLANG)
set(QT_DEFAULT_MKSPEC android-clang)
endif()
elseif(APPLE)
set(QT_DEFAULT_MKSPEC macx-clang)
elseif(EMSCRIPTEN)
set(QT_DEFAULT_MKSPEC wasm-emscripten)
endif()
if(NOT QT_QMAKE_TARGET_MKSPEC)
set(QT_QMAKE_TARGET_MKSPEC "${QT_DEFAULT_MKSPEC}" CACHE STRING "QMake target mkspec")
endif()
if(CMAKE_CROSSCOMPILING)
set(QT_QMAKE_HOST_MKSPEC "${QT${PROJECT_VERSION_MAJOR}_HOST_INFO_QMAKE_MKSPEC}")
else()
set(QT_QMAKE_HOST_MKSPEC "${QT_QMAKE_TARGET_MKSPEC}")
endif()
# Platform definition dir provided by user on command line.
# Derive the absolute one relative to the current source dir.
if(QT_PLATFORM_DEFINITION_DIR)
set(QT_DEFAULT_PLATFORM_DEFINITION_DIR "${QT_PLATFORM_DEFINITION_DIR}")
get_filename_component(
QT_DEFAULT_PLATFORM_DEFINITION_DIR_ABSOLUTE
"${QT_PLATFORM_DEFINITION_DIR}"
ABSOLUTE)
elseif(QT_QMAKE_TARGET_MKSPEC)
# Used by consumers of prefix builds via INSTALL_INTERFACE (relative path).
set(QT_DEFAULT_PLATFORM_DEFINITION_DIR "${INSTALL_MKSPECSDIR}/${QT_QMAKE_TARGET_MKSPEC}")
# Used by qtbase itself and consumers of non-prefix builds via BUILD_INTERFACE (absolute path).
set(QT_DEFAULT_PLATFORM_DEFINITION_DIR_ABSOLUTE "${QT_MKSPECS_DIR}/${QT_QMAKE_TARGET_MKSPEC}")
endif()
if(NOT DEFINED QT_DEFAULT_PLATFORM_DEFINITIONS)
set(QT_DEFAULT_PLATFORM_DEFINITIONS "")
endif()
set(QT_PLATFORM_DEFINITIONS ${QT_DEFAULT_PLATFORM_DEFINITIONS}
CACHE STRING "Qt platform specific pre-processor defines")
set(QT_PLATFORM_DEFINITION_DIR "${QT_DEFAULT_PLATFORM_DEFINITION_DIR}"
CACHE PATH "Path to directory that contains qplatformdefs.h")
set(QT_PLATFORM_DEFINITION_DIR_ABSOLUTE "${QT_DEFAULT_PLATFORM_DEFINITION_DIR_ABSOLUTE}"
CACHE INTERNAL "Path to directory that contains qplatformdefs.h")
set(QT_NAMESPACE "" CACHE STRING "Qt Namespace")
if(QT_NAMESPACE STREQUAL "")
set(QT_HAS_NAMESPACE OFF)
else()
set(QT_HAS_NAMESPACE ON)
endif()
function(qt_internal_clear_qt_repo_known_modules)
set(QT_REPO_KNOWN_MODULES "" CACHE INTERNAL "Known current repo Qt modules" FORCE)
endfunction()
function(qt_internal_add_qt_repo_known_module)
set(QT_REPO_KNOWN_MODULES ${QT_REPO_KNOWN_MODULES} ${ARGN}
CACHE INTERNAL "Known current repo Qt modules" FORCE)
endfunction()
function(qt_internal_get_qt_repo_known_modules out_var)
set("${out_var}" "${QT_REPO_KNOWN_MODULES}" PARENT_SCOPE)
endfunction()
# Gets the list of all known Qt modules both found and that were built as part of the
# current project.
function(qt_internal_get_qt_all_known_modules out_var)
qt_internal_get_qt_repo_known_modules(repo_known_modules)
set(known_modules ${QT_ALL_MODULES_FOUND_VIA_FIND_PACKAGE} ${repo_known_modules})
list(REMOVE_DUPLICATES known_modules)
set("${out_var}" "${known_modules}" PARENT_SCOPE)
endfunction()
macro(qt_internal_set_qt_known_plugins)
set(QT_KNOWN_PLUGINS ${ARGN} CACHE INTERNAL "Known Qt plugins" FORCE)
endmacro()
### Global plug-in types handling ###
# QT_REPO_KNOWN_PLUGIN_TYPES and QT_ALL_PLUGIN_TYPES_FOUND_VIA_FIND_PACKAGE
# hold a list of plug-in types (e.G. "imageformats;bearer")
function(qt_internal_clear_qt_repo_known_plugin_types)
set(QT_REPO_KNOWN_PLUGIN_TYPES "" CACHE INTERNAL "Known current repo Qt plug-in types" FORCE)
endfunction()
function(qt_internal_add_qt_repo_known_plugin_types)
set(QT_REPO_KNOWN_PLUGIN_TYPES ${QT_REPO_KNOWN_PLUGIN_TYPES} ${ARGN}
CACHE INTERNAL "Known current repo Qt plug-in types" FORCE)
endfunction()
function(qt_internal_get_qt_repo_known_plugin_types out_var)
set("${out_var}" "${QT_REPO_KNOWN_PLUGIN_TYPES}" PARENT_SCOPE)
endfunction()
function(qt_internal_get_qt_all_known_plugin_types out_var)
qt_internal_get_qt_repo_known_plugin_types(repo_known_plugin_types)
set(known ${QT_ALL_PLUGIN_TYPES_FOUND_VIA_FIND_PACKAGE} ${repo_known_plugin_types})
list(REMOVE_DUPLICATES known)
set("${out_var}" "${known}" PARENT_SCOPE)
endfunction()
# Reset:
qt_internal_clear_qt_repo_known_modules()
qt_internal_clear_qt_repo_known_plugin_types()
qt_internal_set_qt_known_plugins("")
set(QT_KNOWN_MODULES_WITH_TOOLS "" CACHE INTERNAL "Known Qt modules with tools" FORCE)
macro(qt_internal_append_known_modules_with_tools module)
if(NOT ${module} IN_LIST QT_KNOWN_MODULES_WITH_TOOLS)
set(QT_KNOWN_MODULES_WITH_TOOLS "${QT_KNOWN_MODULES_WITH_TOOLS};${module}"
CACHE INTERNAL "Known Qt modules with tools" FORCE)
set(QT_KNOWN_MODULE_${module}_TOOLS ""
CACHE INTERNAL "Known Qt module ${module} tools" FORCE)
endif()
endmacro()
macro(qt_internal_append_known_module_tool module tool)
if(NOT ${tool} IN_LIST QT_KNOWN_MODULE_${module}_TOOLS)
list(APPEND QT_KNOWN_MODULE_${module}_TOOLS "${tool}")
set(QT_KNOWN_MODULE_${module}_TOOLS "${QT_KNOWN_MODULE_${module}_TOOLS}"
CACHE INTERNAL "Known Qt module ${module} tools" FORCE)
endif()
endmacro()
# Reset syncqt cache variable, to make sure it gets recomputed on reconfiguration, otherwise
# it might not get installed.
unset(QT_SYNCQT CACHE)
# For adjusting variables when running tests, we need to know what
# the correct variable is for separating entries in PATH-alike
# variables.
if(CMAKE_HOST_SYSTEM_NAME STREQUAL "Windows")
set(QT_PATH_SEPARATOR "\\;")
else()
set(QT_PATH_SEPARATOR ":")
endif()
# This is used to hold extra cmake code that should be put into QtBuildInternalsExtra.cmake file
# at the QtPostProcess stage.
set(QT_BUILD_INTERNALS_EXTRA_CMAKE_CODE "")
# Save the value of the current first project source dir.
# This will be /path/to/qtbase for qtbase both in a super-build and a non super-build.
# This will be /path/to/qtbase/tests when building standalone tests.
set(QT_TOP_LEVEL_SOURCE_DIR "${CMAKE_CURRENT_SOURCE_DIR}")
# Prevent warnings about object files without any symbols. This is a common
# thing in Qt as we tend to build files unconditionally, and then use ifdefs
# to compile out parts that are not relevant.
if(CMAKE_HOST_APPLE AND APPLE)
foreach(lang ASM C CXX)
# We have to tell 'ar' to not run ranlib by itself, by passing the 'S' option
set(CMAKE_${lang}_ARCHIVE_CREATE "<CMAKE_AR> qcS <TARGET> <LINK_FLAGS> <OBJECTS>")
set(CMAKE_${lang}_ARCHIVE_APPEND "<CMAKE_AR> qS <TARGET> <LINK_FLAGS> <OBJECTS>")
set(CMAKE_${lang}_ARCHIVE_FINISH "<CMAKE_RANLIB> -no_warning_for_no_symbols <TARGET>")
endforeach()
endif()
# Functions and macros:
# qt_remove_args can remove arguments from an existing list of function
# arguments in order to pass a filtered list of arguments to a different function.
# Parameters:
# out_var: result of remove all arguments specified by ARGS_TO_REMOVE from ALL_ARGS
# ARGS_TO_REMOVE: Arguments to remove.
# ALL_ARGS: All arguments supplied to cmake_parse_arguments or
# qt_parse_all_arguments
# from which ARGS_TO_REMOVE should be removed from. We require all the
# arguments or we can't properly identify the range of the arguments detailed
# in ARGS_TO_REMOVE.
# ARGS: Arguments passed into the function, usually ${ARGV}
#
# E.g.:
# We want to forward all arguments from foo to bar, execpt ZZZ since it will
# trigger an error in bar.
#
# foo(target BAR .... ZZZ .... WWW ...)
# bar(target BAR.... WWW...)
#
# function(foo target)
# qt_parse_all_arguments(arg "" "" "BAR;ZZZ;WWW ${ARGV})
# qt_remove_args(forward_args
# ARGS_TO_REMOVE ${target} ZZZ
# ALL_ARGS ${target} BAR ZZZ WWW
# ARGS ${ARGV}
# )
# bar(${target} ${forward_args})
# endfunction()
#
function(qt_remove_args out_var)
cmake_parse_arguments(arg "" "" "ARGS_TO_REMOVE;ALL_ARGS;ARGS" ${ARGN})
set(result ${arg_ARGS})
foreach(arg IN LISTS arg_ARGS_TO_REMOVE)
# find arg
list(FIND result ${arg} find_result)
if (NOT find_result EQUAL -1)
# remove arg
list(REMOVE_AT result ${find_result})
list(LENGTH result result_len)
list(GET result ${find_result} arg_current)
# remove values until we hit another arg
while(NOT ${arg_current} IN_LIST arg_ALL_ARGS AND find_result LESS result_len)
list(REMOVE_AT result ${find_result})
list(GET result ${find_result} arg_current)
list(LENGTH result result_len)
endwhile()
endif()
endforeach()
set(${out_var} "${result}" PARENT_SCOPE)
endfunction()
# Wraps install() command. In a prefix build, simply passes along arguments to install().
# In a non-prefix build, handles association of targets to export names, and also calls export().
function(qt_install)
set(flags)
set(options EXPORT DESTINATION NAMESPACE)
set(multiopts TARGETS)
cmake_parse_arguments(arg "${flags}" "${options}" "${multiopts}" ${ARGN})
if(arg_TARGETS)
set(is_install_targets TRUE)
endif()
# In a prefix build, always invoke install() without modification.
# In a non-prefix build, pass install(TARGETS) commands to allow
# association of targets to export names, so we can later use the export names
# in export() commands.
if(QT_WILL_INSTALL OR is_install_targets)
install(${ARGV})
endif()
# Exit early if this is a prefix build.
if(QT_WILL_INSTALL)
return()
endif()
# In a non-prefix build, when install(EXPORT) is called,
# also call export(EXPORT) to generate build tree target files.
if(NOT is_install_targets AND arg_EXPORT)
set(namespace_option "")
if(arg_NAMESPACE)
set(namespace_option NAMESPACE ${arg_NAMESPACE})
endif()
export(EXPORT ${arg_EXPORT}
${namespace_option}
FILE "${arg_DESTINATION}/${arg_EXPORT}.cmake")
endif()
endfunction()
# Copies files using file(COPY) signature in non-prefix builds.
function(qt_non_prefix_copy)
if(NOT QT_WILL_INSTALL)
file(${ARGV})
endif()
endfunction()
# Retrieve the permissions that are set by install(PROGRAMS).
function(qt_get_install_executable_permissions out_var)
set(default_permissions ${CMAKE_INSTALL_DEFAULT_DIRECTORY_PERMISSIONS})
if(NOT default_permissions)
set(default_permissions OWNER_READ OWNER_WRITE GROUP_READ WORLD_READ)
endif()
set(executable_permissions ${default_permissions} OWNER_EXECUTE)
if(GROUP_READ IN_LIST default_permissions)
list(APPEND executable_permissions GROUP_EXECUTE)
endif()
if(WORLD_READ IN_LIST default_permissions)
list(APPEND executable_permissions WORLD_EXECUTE)
endif()
set(${out_var} ${executable_permissions} PARENT_SCOPE)
endfunction()
# Use case is installing files in a prefix build, or copying them to the correct build dir
# in a non-prefix build.
# Pass along arguments as you would pass them to install().
# Only supports FILES, PROGRAMS and DIRECTORY signature, and without fancy things
# like OPTIONAL or RENAME or COMPONENT.
function(qt_copy_or_install)
set(flags FILES PROGRAMS DIRECTORY)
set(options)
set(multiopts)
cmake_parse_arguments(arg "${flags}" "${options}" "${multiopts}" ${ARGN})
# Remember which option has to be passed to the install command.
set(copy_arguments "")
set(argv_copy ${ARGV})
if(arg_FILES)
set(install_option "FILES")
elseif(arg_PROGRAMS)
set(install_option "PROGRAMS")
qt_get_install_executable_permissions(executable_permissions)
list(APPEND copy_arguments FILE_PERMISSIONS ${executable_permissions})
elseif(arg_DIRECTORY)
set(install_option "DIRECTORY")
endif()
list(REMOVE_AT argv_copy 0)
qt_install(${install_option} ${argv_copy})
qt_non_prefix_copy(COPY ${argv_copy} ${copy_arguments})
endfunction()
# Hacky way to remove the install target in non-prefix builds.
# We need to associate targets with export names, and that is only possible to do with the
# install(TARGETS) command. But in a non-prefix build, we don't want to install anything.
# To make sure that developers don't accidentally run make install, replace the generated
# cmake_install.cmake file with an empty file. To do this, always create a new temporary file
# at CMake configuration step, and use it as an input to a custom command that replaces the
# cmake_install.cmake file with an empty one. This means we will always replace the file on
# every reconfiguration, but not when doing null builds.
function(qt_remove_install_target)
# On superbuilds we only do this for qtbase - it will correctly remove the
# cmake_install.cmake at the root of the repository.
if(QT_SUPERBUILD)
if(NOT (PROJECT_NAME STREQUAL "QtBase"))
return()
endif()
endif()
set(file_in "${CMAKE_BINARY_DIR}/.remove_cmake_install_in.txt")
set(file_generated "${CMAKE_BINARY_DIR}/.remove_cmake_install_generated.txt")
set(cmake_install_file "${CMAKE_BINARY_DIR}/cmake_install.cmake")
file(WRITE ${file_in} "")
add_custom_command(OUTPUT ${file_generated}
COMMAND ${CMAKE_COMMAND} -E copy ${file_in} ${file_generated}
COMMAND ${CMAKE_COMMAND} -E remove ${cmake_install_file}
COMMAND ${CMAKE_COMMAND} -E touch ${cmake_install_file}
COMMENT "Removing cmake_install.cmake"
MAIN_DEPENDENCY ${file_in})
add_custom_target(remove_cmake_install ALL DEPENDS ${file_generated})
endfunction()
function(qt_set_up_nonprefix_build)
if(NOT QT_WILL_INSTALL)
qt_remove_install_target()
endif()
endfunction()
function(qt_is_imported_target target out_var)
if(NOT TARGET "${target}")
set(target "${QT_CMAKE_EXPORT_NAMESPACE}::${target}")
endif()
if(NOT TARGET "${target}")
message(FATAL_ERROR "Invalid target given to qt_is_imported_target: ${target}")
endif()
get_target_property(is_imported "${target}" IMPORTED)
set(${out_var} "${is_imported}" PARENT_SCOPE)
endfunction()
# Creates a regular expression that exactly matches the given string
# Found in https://gitlab.kitware.com/cmake/cmake/issues/18580
function(qt_re_escape out_var str)
string(REGEX REPLACE "([][+.*()^])" "\\\\\\1" regex "${str}")
set(${out_var} ${regex} PARENT_SCOPE)
endfunction()
# Extracts the 3rdparty libraries for the module ${module_name}
# and stores the information in cmake language in
# ${output_root_dir}/$<CONFIG>/${output_file_name}.
#
# This function "follows" INTERFACE_LIBRARY targets to "real" targets
# and collects defines, include dirs and lib dirs on the way.
function(qt_generate_qmake_libraries_pri_content module_name output_root_dir output_file_name)
set(content "")
# Set up a regular expression that matches all implicit include dirs
set(implicit_include_dirs_regex "")
foreach(dir ${CMAKE_CXX_IMPLICIT_INCLUDE_DIRECTORIES})
qt_re_escape(regex "${dir}")
list(APPEND implicit_include_dirs_regex ${regex})
endforeach()
list(JOIN implicit_include_dirs_regex "|" implicit_include_dirs_regex)
foreach(lib ${QT_QMAKE_LIBS_FOR_${module_name}})
set(lib_targets ${QT_QMAKE_LIB_TARGETS_${lib}})
string(TOUPPER ${lib} uclib)
set(lib_defines "")
set(lib_incdir "")
set(lib_libdir "")
set(lib_libs "")
while(lib_targets)
list(POP_BACK lib_targets lib_target)
if(TARGET ${lib_target})
get_target_property(lib_target_type ${lib_target} TYPE)
if(lib_target_type STREQUAL "INTERFACE_LIBRARY")
get_target_property(iface_libs ${lib_target} INTERFACE_LINK_LIBRARIES)
if(iface_libs)
list(PREPEND lib_targets ${iface_libs})
endif()
else()
list(APPEND lib_libs "$<TARGET_LINKER_FILE:${lib_target}>")
endif()
list(APPEND lib_libdir "$<TARGET_PROPERTY:${lib_target},INTERFACE_LINK_DIRECTORIES>")
list(APPEND lib_incdir "$<TARGET_PROPERTY:${lib_target},INTERFACE_INCLUDE_DIRECTORIES>")
list(APPEND lib_defines "$<TARGET_PROPERTY:${lib_target},INTERFACE_COMPILE_DEFINITIONS>")
else()
if(lib_target MATCHES "/([^/]+).framework$")
list(APPEND lib_libs "-framework" "${CMAKE_MATCH_1}")
else()
list(APPEND lib_libs "${lib_target}")
endif()
endif()
endwhile()
# Wrap in $<REMOVE_DUPLICATES:...> but not the libs, because
# we would have to preserve the right order for the linker.
foreach(sfx libdir incdir defines)
string(PREPEND lib_${sfx} "$<REMOVE_DUPLICATES:")
string(APPEND lib_${sfx} ">")
endforeach()
# Filter out implicit include directories
string(PREPEND lib_incdir "$<FILTER:")
string(APPEND lib_incdir ",EXCLUDE,${implicit_include_dirs_regex}>")
set(uccfg $<UPPER_CASE:$<CONFIG>>)
string(APPEND content "list(APPEND known_libs ${uclib})
set(QMAKE_LIBS_${uclib}_${uccfg} \"${lib_libs}\")
set(QMAKE_LIBDIR_${uclib}_${uccfg} \"${lib_libdir}\")
set(QMAKE_INCDIR_${uclib}_${uccfg} \"${lib_incdir}\")
set(QMAKE_DEFINES_${uclib}_${uccfg} \"${lib_defines}\")
")
if(QT_QMAKE_LIB_DEPS_${lib})
string(APPEND content "set(QMAKE_DEPENDS_${uclib}_CC, ${deps})
set(QMAKE_DEPENDS_${uclib}_LD, ${deps})
")
endif()
endforeach()
file(GENERATE
OUTPUT "${output_root_dir}/$<CONFIG>/${output_file_name}"
CONTENT "${content}"
)
endfunction()
# Retrieves the public Qt module dependencies of the given Qt module or Qt Private module.
function(qt_get_direct_module_dependencies target out_var)
set(dependencies "")
get_target_property(libs ${target} INTERFACE_LINK_LIBRARIES)
if(NOT libs)
set(libs "")
endif()
get_target_property(target_type ${target} TYPE)
while(libs)
list(POP_FRONT libs lib)
string(GENEX_STRIP "${lib}" lib)
if(NOT lib OR NOT TARGET "${lib}")
continue()
endif()
get_target_property(lib_type ${lib} TYPE)
get_target_property(is_versionless_target ${lib} _qt_is_versionless_target)
if (lib_type STREQUAL "INTERFACE_LIBRARY" AND is_versionless_target)
# Found a version-less target like Qt::Core outside of qtbase.
# Skip this one and use what this target points to, e.g. Qt6::Core.
# Make sure to process Private interface libraries as-is.
get_target_property(ifacelibs ${lib} INTERFACE_LINK_LIBRARIES)
list(PREPEND libs ${ifacelibs})
continue()
endif()
if(lib_type STREQUAL "OBJECT_LIBRARY")
# Skip object libraries, because they're already part of ${target}.
continue()
elseif(lib_type STREQUAL "STATIC_LIBRARY" AND target_type STREQUAL "SHARED_LIBRARY")
# Skip static libraries if ${target} is a shared library.
continue()
endif()
get_target_property(lib_config_module_name ${lib} "_qt_config_module_name")
if(lib_config_module_name)
list(APPEND dependencies ${lib_config_module_name})
endif()
endwhile()
set(${out_var} ${dependencies} PARENT_SCOPE)
endfunction()
# Generates module .pri files for consumption by qmake
function(qt_generate_module_pri_file target)
set(flags INTERNAL_MODULE HEADER_MODULE)
set(options)
set(multiopts)
cmake_parse_arguments(arg "${flags}" "${options}" "${multiopts}" ${ARGN})
qt_internal_module_info(module "${target}")
set(pri_files)
set(property_prefix)
if(arg_HEADER_MODULE)
set(property_prefix "INTERFACE_")
endif()
get_target_property(enabled_features "${target}"
"${property_prefix}QT_ENABLED_PUBLIC_FEATURES")
get_target_property(disabled_features "${target}"
"${property_prefix}QT_DISABLED_PUBLIC_FEATURES")
get_target_property(enabled_private_features "${target}"
"${property_prefix}QT_ENABLED_PRIVATE_FEATURES")
get_target_property(disabled_private_features "${target}"
"${property_prefix}QT_DISABLED_PRIVATE_FEATURES")
qt_correct_features(enabled_features "${enabled_features}")
qt_correct_features(disabled_features "${disabled_features}")
qt_correct_features(enabled_private_features "${enabled_private_features}")
qt_correct_features(disabled_private_features "${disabled_private_features}")
foreach(var enabled_features disabled_features enabled_private_features disabled_private_features)
if(${var} STREQUAL "${var}-NOTFOUND")
set(${var} "")
else()
string (REPLACE ";" " " ${var} "${${var}}")
endif()
endforeach()
set(module_internal_config v2)
if(NOT QT_FEATURE_shared)
list(APPEND module_internal_config staticlib)
endif()
if(arg_INTERNAL_MODULE)
list(APPEND module_internal_config internal_module)
endif()
get_target_property(target_type ${target} TYPE)
if (NOT target_type STREQUAL "INTERFACE_LIBRARY")
get_target_property(is_fw ${target} FRAMEWORK)
if(is_fw)
list(APPEND module_internal_config lib_bundle)
endif()
endif()
# TODO: Add the value 'ltcg' to module_internal_config if LTCG is turned on.
list(JOIN module_internal_config " " joined_module_internal_config)
get_target_property(config_module_name ${target} _qt_config_module_name)
get_target_property(qmake_module_config ${target} ${property_prefix}QT_QMAKE_MODULE_CONFIG)
if(qmake_module_config)
string(REPLACE ";" " " module_build_config "${qmake_module_config}")
set(module_build_config "\nQT.${config_module_name}.CONFIG = ${module_build_config}")
else()
set(module_build_config "")
endif()
if(is_fw)
set(framework_base_path "$$QT_MODULE_LIB_BASE/${module}.framework/Headers")
set(public_module_includes "${framework_base_path}")
set(public_module_frameworks "$$QT_MODULE_LIB_BASE")
set(private_module_includes "${framework_base_path}/${PROJECT_VERSION} ${framework_base_path}/${PROJECT_VERSION}/${module}")
set(module_name_in_pri "${module}")
else()
set(public_module_includes "$$QT_MODULE_INCLUDE_BASE $$QT_MODULE_INCLUDE_BASE/${module}")
set(public_module_frameworks "")
set(private_module_includes "$$QT_MODULE_INCLUDE_BASE/${module}/${PROJECT_VERSION} $$QT_MODULE_INCLUDE_BASE/${module}/${PROJECT_VERSION}/${module}")
set(module_name_in_pri "${module_versioned}")
endif()
qt_path_join(target_path ${QT_BUILD_DIR} ${INSTALL_MKSPECSDIR}/modules)
if (arg_INTERNAL_MODULE)
string(PREPEND private_module_includes "${public_module_includes} ")
set(private_module_frameworks ${public_module_frameworks})
else()
unset(private_module_frameworks)
if(arg_HEADER_MODULE)
set(module_plugin_types "")
else()
get_target_property(module_plugin_types ${target} QMAKE_MODULE_PLUGIN_TYPES)
if(module_plugin_types)
list(JOIN module_plugin_types " " module_plugin_types)
else()
set(module_plugin_types "")
endif()
endif()
qt_get_direct_module_dependencies(${target} public_module_dependencies)
list(JOIN public_module_dependencies " " public_module_dependencies)
qt_path_join(pri_file_name "${target_path}" "qt_lib_${config_module_name}.pri")
list(APPEND pri_files "${pri_file_name}")
# Don't use $<TARGET_PROPERTY:${target},INTERFACE_COMPILE_DEFINITIONS> genex because that
# will compute the transitive list of all defines for a module (so Gui would get Core
#defines too). Instead query just the public defines on the target.
get_target_property(target_defines "${target}" INTERFACE_COMPILE_DEFINITIONS)
# We must filter out expressions of the form $<TARGET_PROPERTY:name>, because
# 1. They cannot be used in file(GENERATE) content.
# 2. They refer to the consuming target we have no access to here.
list(FILTER target_defines EXCLUDE REGEX "\\$<TARGET_PROPERTY:[^,>]+>")
list(JOIN target_defines " " joined_target_defines)
file(GENERATE
OUTPUT "${pri_file_name}"
CONTENT
"QT.${config_module_name}.VERSION = ${PROJECT_VERSION}
QT.${config_module_name}.name = ${module}
QT.${config_module_name}.module = ${module_name_in_pri}
QT.${config_module_name}.libs = $$QT_MODULE_LIB_BASE
QT.${config_module_name}.includes = ${public_module_includes}
QT.${config_module_name}.frameworks = ${public_module_frameworks}
QT.${config_module_name}.bins = $$QT_MODULE_BIN_BASE
QT.${config_module_name}.plugin_types = ${module_plugin_types}
QT.${config_module_name}.depends = ${public_module_dependencies}
QT.${config_module_name}.uses =
QT.${config_module_name}.module_config = ${joined_module_internal_config}
QT.${config_module_name}.DEFINES = ${joined_target_defines}
QT.${config_module_name}.enabled_features = ${enabled_features}
QT.${config_module_name}.disabled_features = ${disabled_features}${module_build_config}
QT_CONFIG += ${enabled_features}
QT_MODULES += ${config_module_name}
"
)
endif()
set(pri_data_cmake_file "qt_lib_${config_module_name}_private.cmake")
qt_generate_qmake_libraries_pri_content(${config_module_name} "${CMAKE_CURRENT_BINARY_DIR}"
${pri_data_cmake_file})
set(private_pri_file_name "qt_lib_${config_module_name}_private.pri")
set(private_module_dependencies "")
if(NOT arg_HEADER_MODULE)
qt_get_direct_module_dependencies(${target}Private private_module_dependencies)
endif()
list(JOIN private_module_dependencies " " private_module_dependencies)
# Generate a preliminary qt_lib_XXX_private.pri file
file(GENERATE
OUTPUT "${CMAKE_CURRENT_BINARY_DIR}/${private_pri_file_name}"
CONTENT
"QT.${config_module_name}_private.VERSION = ${PROJECT_VERSION}
QT.${config_module_name}_private.name = ${module}
QT.${config_module_name}_private.module =
QT.${config_module_name}_private.libs = $$QT_MODULE_LIB_BASE
QT.${config_module_name}_private.includes = ${private_module_includes}
QT.${config_module_name}_private.frameworks = ${private_module_frameworks}
QT.${config_module_name}_private.depends = ${private_module_dependencies}
QT.${config_module_name}_private.uses =
QT.${config_module_name}_private.module_config = ${joined_module_internal_config}
QT.${config_module_name}_private.enabled_features = ${enabled_private_features}
QT.${config_module_name}_private.disabled_features = ${disabled_private_features}"
)
if(QT_GENERATOR_IS_MULTI_CONFIG)
set(configs ${CMAKE_CONFIGURATION_TYPES})
else()
set(configs ${CMAKE_BUILD_TYPE})
endif()
set(inputs "${CMAKE_CURRENT_BINARY_DIR}/${private_pri_file_name}")
foreach(cfg ${configs})
list(APPEND inputs "${CMAKE_CURRENT_BINARY_DIR}/${cfg}/${pri_data_cmake_file}")
endforeach()
qt_path_join(private_pri_file_path "${target_path}" "${private_pri_file_name}")
list(APPEND pri_files "${private_pri_file_path}")
set(library_prefixes ${CMAKE_SHARED_LIBRARY_PREFIX} ${CMAKE_STATIC_LIBRARY_PREFIX})
set(library_suffixes
${CMAKE_SHARED_LIBRARY_SUFFIX}
${CMAKE_EXTRA_SHARED_LIBRARY_SUFFIXES}
${CMAKE_STATIC_LIBRARY_SUFFIX})
add_custom_command(
OUTPUT "${private_pri_file_path}"
DEPENDS ${inputs} "${QT_CMAKE_DIR}/QtGenerateLibPri.cmake"
COMMAND ${CMAKE_COMMAND} "-DIN_FILES=${inputs}" "-DOUT_FILE=${private_pri_file_path}"
"-DLIBRARY_PREFIXES=${library_prefixes}"
"-DLIBRARY_SUFFIXES=${library_suffixes}"
"-DLINK_LIBRARY_FLAG=${CMAKE_LINK_LIBRARY_FLAG}"
"-DCONFIGS=${configs}"
-P "${QT_CMAKE_DIR}/QtGenerateLibPri.cmake"
VERBATIM)
add_custom_target(${target}_lib_pri DEPENDS "${private_pri_file_path}")
if(arg_HEADER_MODULE)
add_dependencies(${target}_timestamp ${target}_lib_pri)
else()
add_dependencies(${target} ${target}_lib_pri)
endif()
qt_install(FILES "${pri_files}" DESTINATION ${INSTALL_MKSPECSDIR}/modules)
endfunction()
# Generates qt_ext_XXX.pri files for consumption by qmake
function(qt_generate_3rdparty_lib_pri_file target lib pri_file_var)
if(NOT lib)
# Don't write a pri file for projects that don't set QMAKE_LIB_NAME yet.
return()
endif()
if(QT_GENERATOR_IS_MULTI_CONFIG)
set(configs ${CMAKE_CONFIGURATION_TYPES})
else()
set(configs ${CMAKE_BUILD_TYPE})
endif()
file(GENERATE
OUTPUT "${CMAKE_CURRENT_BINARY_DIR}/$<CONFIG>/qt_ext_${lib}.cmake"
CONTENT "set(cfg $<CONFIG>)
set(incdir $<TARGET_PROPERTY:${target},INTERFACE_INCLUDE_DIRECTORIES>)
set(defines $<TARGET_PROPERTY:${target},INTERFACE_COMPILE_DEFINITIONS>)
set(libs $<TARGET_FILE:${target}>)
")
set(inputs "")
foreach(cfg ${configs})
list(APPEND inputs "${CMAKE_CURRENT_BINARY_DIR}/${cfg}/qt_ext_${lib}.cmake")
endforeach()
qt_path_join(pri_target_path ${QT_BUILD_DIR} ${INSTALL_MKSPECSDIR}/modules)
qt_path_join(pri_file "${pri_target_path}" "qt_ext_${lib}.pri")
qt_path_join(qt_build_libdir ${QT_BUILD_DIR} ${INSTALL_LIBDIR})
add_custom_command(
OUTPUT "${pri_file}"
DEPENDS ${inputs} "${QT_CMAKE_DIR}/QtGenerateExtPri.cmake"
COMMAND ${CMAKE_COMMAND} "-DIN_FILES=${inputs}" "-DOUT_FILE=${pri_file}" -DLIB=${lib}
"-DCONFIGS=${configs}"
"-DQT_BUILD_LIBDIR=${qt_build_libdir}"
-P "${QT_CMAKE_DIR}/QtGenerateExtPri.cmake"
VERBATIM)
add_custom_target(${target}_ext_pri DEPENDS "${pri_file}")
add_dependencies(${target} ${target}_ext_pri)
set(${pri_file_var} ${pri_file} PARENT_SCOPE)
endfunction()
# Transforms a CMake Qt module name to a qmake Qt module name.
# Example: Qt6FooPrivate becomes foo_private
function(qt_get_qmake_module_name result module)
string(REGEX REPLACE "^Qt6" "" module "${module}")
string(REGEX REPLACE "Private$" "_private" module "${module}")
string(REGEX REPLACE "Qpa$" "_qpa_lib_private" module "${module}")
string(TOLOWER "${module}" module)
set(${result} ${module} PARENT_SCOPE)
endfunction()
# Generates qt_plugin_XXX.pri files for consumption by qmake
#
# QT_PLUGIN.XXX.EXTENDS is set to "-" for the following plugin types:
# - generic
# - platform, if the plugin is not the default QPA plugin
# Otherwise, this variable is empty.
function(qt_generate_plugin_pri_file target pri_file_var)
get_target_property(plugin_name ${target} OUTPUT_NAME)
get_target_property(plugin_type ${target} QT_PLUGIN_TYPE)
get_target_property(qmake_plugin_type ${target} QT_QMAKE_PLUGIN_TYPE)
get_target_property(default_plugin ${target} QT_DEFAULT_PLUGIN)
get_target_property(plugin_class_name ${target} QT_PLUGIN_CLASS_NAME)
set(plugin_extends "")
if(NOT default_plugin AND (plugin_type STREQUAL "generic" OR plugin_type STREQUAL "platforms"))
set(plugin_extends "-")
endif()
set(plugin_deps "")
get_target_property(target_deps ${target} _qt_target_deps)
foreach(dep ${target_deps})
list(GET dep 0 dep_name)
qt_get_qmake_module_name(dep_name ${dep_name})
list(APPEND plugin_deps ${dep_name})
endforeach()
list(REMOVE_DUPLICATES plugin_deps)
list(JOIN plugin_deps " " plugin_deps)
qt_path_join(pri_target_path ${QT_BUILD_DIR} ${INSTALL_MKSPECSDIR}/modules)
qt_path_join(pri_file "${pri_target_path}" "qt_plugin_${plugin_name}.pri")
qt_configure_file(OUTPUT "${pri_file}"
CONTENT "QT_PLUGIN.${plugin_name}.TYPE = ${qmake_plugin_type}
QT_PLUGIN.${plugin_name}.EXTENDS = ${plugin_extends}
QT_PLUGIN.${plugin_name}.DEPENDS = ${plugin_deps}
QT_PLUGIN.${plugin_name}.CLASS_NAME = ${plugin_class_name}
QT_PLUGINS += ${plugin_name}
")
set(${pri_file_var} "${pri_file}" PARENT_SCOPE)
endfunction()
function(qt_cmake_build_type_to_qmake_build_config out_var build_type)
if(build_type STREQUAL "Debug")
set(cfg debug)
else()
set(cfg release)
endif()
set(${out_var} ${cfg} PARENT_SCOPE)
endfunction()
function(qt_guess_qmake_build_config out_var)
if(QT_GENERATOR_IS_MULTI_CONFIG)
unset(cfg)
foreach(config_type ${CMAKE_CONFIGURATION_TYPES})
qt_cmake_build_type_to_qmake_build_config(tmp ${config_type})
list(APPEND cfg ${tmp})
endforeach()
if(cfg)
list(REMOVE_DUPLICATES cfg)
else()
set(cfg debug)
endif()
else()
qt_cmake_build_type_to_qmake_build_config(cfg ${CMAKE_BUILD_TYPE})
endif()
set(${out_var} ${cfg} PARENT_SCOPE)
endfunction()
function(qt_correct_features out_var features)
set(corrected_features "")
foreach(feature ${features})
get_property(feature_original_name GLOBAL PROPERTY "QT_FEATURE_ORIGINAL_NAME_${feature}")
list(APPEND corrected_features "${feature_original_name}")
endforeach()
set(${out_var} ${corrected_features} PARENT_SCOPE)
endfunction()
# Get original names for config values (which correspond to feature names) and use them if they
# exist, otherwise just use the config value (which might be the case when a config value has
# a custom name).
function(qt_correct_config out_var config)
set(corrected_config "")
foreach(name ${config})
# Is the config value a known feature?
get_property(feature_original_name GLOBAL PROPERTY "QT_FEATURE_ORIGINAL_NAME_${name}")
if(feature_original_name)
list(APPEND corrected_config "${feature_original_name}")
continue()
endif()
# Is the config value a negated known feature, e.g. no_foo?
# Then add the config value no-foo.
if(name MATCHES "^no_(.*)")
get_property(feature_original_name GLOBAL PROPERTY
"QT_FEATURE_ORIGINAL_NAME_${CMAKE_MATCH_1}")
if(feature_original_name)
list(APPEND corrected_config "no-${feature_original_name}")
continue()
endif()
endif()
# The config value is no known feature. Add the value as is.
list(APPEND corrected_config "${name}")
endforeach()
set(${out_var} ${corrected_config} PARENT_SCOPE)
endfunction()
# Creates mkspecs/qconfig.pri which contains public global features among other things.
function(qt_generate_global_config_pri_file)
qt_path_join(qconfig_pri_target_path ${PROJECT_BINARY_DIR} ${INSTALL_MKSPECSDIR})
qt_path_join(qconfig_pri_target_path "${qconfig_pri_target_path}" "qconfig.pri")
get_target_property(enabled_features GlobalConfig INTERFACE_QT_ENABLED_PUBLIC_FEATURES)
get_target_property(disabled_features GlobalConfig INTERFACE_QT_DISABLED_PUBLIC_FEATURES)
qt_correct_features(corrected_enabled_features "${enabled_features}")
qt_correct_features(corrected_disabled_features "${disabled_features}")
string (REPLACE ";" " " corrected_enabled_features "${corrected_enabled_features}")
string (REPLACE ";" " " corrected_disabled_features "${corrected_disabled_features}")
# Add some required CONFIG entries.
set(config_entries "")
if(CMAKE_BUILD_TYPE STREQUAL Debug)
list(APPEND config_entries "debug")
elseif(CMAKE_BUILD_TYPE STREQUAL Release)
list(APPEND config_entries "release")
endif()
list(APPEND config_entries "${qt_build_config_type}")
string (REPLACE ";" " " config_entries "${config_entries}")
get_target_property(public_config GlobalConfig INTERFACE_QT_QMAKE_PUBLIC_CONFIG)
get_target_property(qt_public_config GlobalConfig INTERFACE_QT_QMAKE_PUBLIC_QT_CONFIG)
qt_correct_config(corrected_public_config "${public_config}")
qt_correct_config(corrected_qt_public_config "${qt_public_config}")
qt_guess_qmake_build_config(qmake_build_config)
list(APPEND corrected_qt_public_config ${qmake_build_config})
list(JOIN corrected_public_config " " public_config_joined)
list(JOIN corrected_qt_public_config " " qt_public_config_joined)
set(content "")
if(GCC OR CLANG AND NOT "${CMAKE_SYSROOT}" STREQUAL "")
string(APPEND content "!host_build {
QMAKE_CFLAGS += --sysroot=\$\$[QT_SYSROOT]
QMAKE_CXXFLAGS += --sysroot=\$\$[QT_SYSROOT]
QMAKE_LFLAGS += --sysroot=\$\$[QT_SYSROOT]
}
")
endif()
if(CMAKE_CROSSCOMPILING)
string(APPEND content "host_build {
QT_ARCH = ${QT${PROJECT_VERSION_MAJOR}_HOST_INFO_ARCH}
QT_BUILDABI = ${QT${PROJECT_VERSION_MAJOR}_HOST_INFO_BUILDABI}
QT_TARGET_ARCH = ${TEST_architecture_arch}
QT_TARGET_BUILDABI = ${TEST_buildAbi}
} else {
QT_ARCH = ${TEST_architecture_arch}
QT_BUILDABI = ${TEST_buildAbi}
}
")
else()
string(APPEND content "QT_ARCH = ${TEST_architecture_arch}
QT_BUILDABI = ${TEST_buildAbi}
")
endif()
string(APPEND content "QT.global.enabled_features = ${corrected_enabled_features}
QT.global.disabled_features = ${corrected_disabled_features}
QT.global.disabled_features += release build_all
QT_CONFIG += ${qt_public_config_joined}
CONFIG += ${config_entries} ${public_config_joined}
QT_VERSION = ${PROJECT_VERSION}
QT_MAJOR_VERSION = ${PROJECT_VERSION_MAJOR}
QT_MINOR_VERSION = ${PROJECT_VERSION_MINOR}
QT_PATCH_VERSION = ${PROJECT_VERSION_PATCH}
")
set(extra_statements "")
if(QT_NAMESPACE)
list(APPEND extra_statements "QT_NAMESPACE = ${QT_NAMESPACE}")
endif()
# TODO: Add libinfix support.
# TODO: Add QT_EMCC_VERSION when WASM is ported over.
if(APPLECLANG)
set(compiler_version_major_var_name "QT_APPLE_CLANG_MAJOR_VERSION")
set(compiler_version_minor_var_name "QT_APPLE_CLANG_MINOR_VERSION")
set(compiler_version_patch_var_name "QT_APPLE_CLANG_PATCH_VERSION")
elseif(CLANG)
set(compiler_version_major_var_name "QT_CLANG_MAJOR_VERSION")
set(compiler_version_minor_var_name "QT_CLANG_MINOR_VERSION")
set(compiler_version_patch_var_name "QT_CLANG_PATCH_VERSION")
elseif(GCC)
set(compiler_version_major_var_name "QT_GCC_MAJOR_VERSION")
set(compiler_version_minor_var_name "QT_GCC_MINOR_VERSION")
set(compiler_version_patch_var_name "QT_GCC_PATCH_VERSION")
elseif(ICC)
set(compiler_version_major_var_name "QT_ICC_MAJOR_VERSION")
set(compiler_version_minor_var_name "QT_ICC_MINOR_VERSION")
set(compiler_version_patch_var_name "QT_ICC_PATCH_VERSION")
elseif(MSVC)
set(compiler_version_major_var_name "QT_MSVC_MAJOR_VERSION")
set(compiler_version_minor_var_name "QT_MSVC_MINOR_VERSION")
set(compiler_version_patch_var_name "QT_MSVC_PATCH_VERSION")
endif()
if(compiler_version_major_var_name)
list(APPEND extra_statements
"${compiler_version_major_var_name} = ${QT_COMPILER_VERSION_MAJOR}")
list(APPEND extra_statements
"${compiler_version_minor_var_name} = ${QT_COMPILER_VERSION_MINOR}")
list(APPEND extra_statements
"${compiler_version_patch_var_name} = ${QT_COMPILER_VERSION_PATCH}")
endif()
if(APPLE)
list(APPEND extra_statements "QT_MAC_SDK_VERSION = ${QT_MAC_SDK_VERSION}")
endif()
list(APPEND extra_statements "QT_EDITION = Open Source")
if(extra_statements)
string(REPLACE ";" "\n" extra_statements "${extra_statements}")
string(APPEND content "\n${extra_statements}")
endif()
file(GENERATE
OUTPUT "${qconfig_pri_target_path}"
CONTENT "${content}"
)
qt_install(FILES "${qconfig_pri_target_path}" DESTINATION ${INSTALL_MKSPECSDIR})
endfunction()
# Creates mkspecs/qdevice.pri which contains target device information for cross-builds.
# The content of QT_QMAKE_DEVICE_OPTIONS is written verbatim into qdevice.pri.
function(qt_generate_global_device_pri_file)
if(NOT CMAKE_CROSSCOMPILING)
return()
endif()
qt_path_join(qdevice_pri_target_path ${PROJECT_BINARY_DIR} ${INSTALL_MKSPECSDIR} "qdevice.pri")
set(content "")
foreach(opt ${QT_QMAKE_DEVICE_OPTIONS})
string(APPEND content "${opt}\n")
endforeach()
# Write android specific device info.
if(ANDROID)
string(APPEND content "DEFAULT_ANDROID_SDK_ROOT = ${ANDROID_SDK_ROOT}\n")
string(APPEND content "DEFAULT_ANDROID_NDK_ROOT = ${ANDROID_NDK}\n")
set(android_platform "android-23")
if(ANDROID_NATIVE_API_LEVEL)
set(android_platform "android-${ANDROID_NATIVE_API_LEVEL}")
endif()
string(APPEND content "DEFAULT_ANDROID_PLATFORM = ${android_platform}\n")
string(APPEND content "DEFAULT_ANDROID_NDK_HOST = ${ANDROID_HOST_TAG}\n")
# TODO: QTBUG-80943 When we eventually support Android multi-abi, this should be changed.
string(APPEND content "DEFAULT_ANDROID_ABIS = ${ANDROID_ABI}\n")
endif()
set(gcc_machine_dump "")
if(TEST_machine_tuple)
set(gcc_machine_dump "${TEST_machine_tuple}")
endif()
string(APPEND content "GCC_MACHINE_DUMP = ${gcc_machine_dump}\n")
file(GENERATE OUTPUT "${qdevice_pri_target_path}" CONTENT "${content}")
qt_install(FILES "${qdevice_pri_target_path}" DESTINATION ${INSTALL_MKSPECSDIR})
endfunction()
function(qt_get_build_parts out_var)
set(parts "libs")
if(BUILD_EXAMPLES AND NOT QT_NO_MAKE_EXAMPLES)
list(APPEND parts "examples")
endif()
if(BUILD_TESTING AND NOT QT_NO_MAKE_TESTS)
list(APPEND parts "tests")
endif()
if(NOT CMAKE_CROSSCOMPILING OR QT_BUILD_TOOLS_WHEN_CROSSCOMPILING)
list(APPEND parts "tools")
endif()
set(${out_var} ${parts} PARENT_SCOPE)
endfunction()
# Creates mkspecs/qmodule.pri which contains private global features among other things.
function(qt_generate_global_module_pri_file)
qt_path_join(qmodule_pri_target_path ${PROJECT_BINARY_DIR} ${INSTALL_MKSPECSDIR})
qt_path_join(qmodule_pri_target_path "${qmodule_pri_target_path}" "qmodule.pri")
get_target_property(enabled_features GlobalConfig INTERFACE_QT_ENABLED_PRIVATE_FEATURES)
get_target_property(disabled_features GlobalConfig INTERFACE_QT_DISABLED_PRIVATE_FEATURES)
qt_correct_features(corrected_enabled_features "${enabled_features}")
qt_correct_features(corrected_disabled_features "${disabled_features}")
string (REPLACE ";" " " corrected_enabled_features "${corrected_enabled_features}")
string (REPLACE ";" " " corrected_disabled_features "${corrected_disabled_features}")
set(corrected_private_config "")
get_target_property(private_config GlobalConfig INTERFACE_QT_QMAKE_PRIVATE_CONFIG)
qt_correct_config(corrected_private_config "${private_config}")
list(JOIN corrected_private_config " " private_config_joined)
set(content "")
set(arch "${TEST_architecture_arch}")
list(JOIN TEST_subarch_result " " subarchs)
if(CMAKE_CROSSCOMPILING)
set(host_arch "${QT${PROJECT_VERSION_MAJOR}_HOST_INFO_ARCH}")
list(JOIN QT${PROJECT_VERSION_MAJOR}_HOST_INFO_SUBARCHS " " host_subarchs)
string(APPEND content "host_build {
QT_CPU_FEATURES.${host_arch} = ${host_subarchs}
} else {
QT_CPU_FEATURES.${arch} = ${subarchs}
}
")
else()
string(APPEND content "QT_CPU_FEATURES.${arch} = ${subarchs}\n")
endif()
string(APPEND content "QT.global_private.enabled_features = ${corrected_enabled_features}
QT.global_private.disabled_features = ${corrected_disabled_features}
CONFIG += ${private_config_joined}
")
if(PKG_CONFIG_FOUND)
string(APPEND content "PKG_CONFIG_EXECUTABLE = ${PKG_CONFIG_EXECUTABLE}\n")
endif()
# TODO: Write QT_COORD_TYPE once we support setting it.
qt_get_build_parts(build_parts)
string(REPLACE ";" " " build_parts "${build_parts}")
string(APPEND content "QT_BUILD_PARTS = ${build_parts}\n")
if(QT_EXTRA_RPATHS)
list(JOIN QT_EXTRA_RPATHS " " extra_rpaths)
string(APPEND content "EXTRA_RPATHS += ${extra_rpaths}")
endif()
set(preliminary_pri_root "${CMAKE_CURRENT_BINARY_DIR}/mkspecs/preliminary")
set(pri_data_cmake_file "qmodule.cmake")
qt_generate_qmake_libraries_pri_content(global ${preliminary_pri_root} ${pri_data_cmake_file})
# Generate a preliminary qmodule.pri file
set(preliminary_pri_file_path "${preliminary_pri_root}/qmodule.pri")
file(GENERATE
OUTPUT ${preliminary_pri_file_path}
CONTENT "${content}"
)
if(QT_GENERATOR_IS_MULTI_CONFIG)
set(configs ${CMAKE_CONFIGURATION_TYPES})
else()
set(configs ${CMAKE_BUILD_TYPE})
endif()
set(inputs ${preliminary_pri_file_path})
foreach(cfg ${configs})
list(APPEND inputs "${preliminary_pri_root}/${cfg}/${pri_data_cmake_file}")
endforeach()
set(library_prefixes ${CMAKE_SHARED_LIBRARY_PREFIX} ${CMAKE_STATIC_LIBRARY_PREFIX})
set(library_suffixes
${CMAKE_SHARED_LIBRARY_SUFFIX}
${CMAKE_EXTRA_SHARED_LIBRARY_SUFFIXES}
${CMAKE_STATIC_LIBRARY_SUFFIX})
add_custom_command(
OUTPUT "${qmodule_pri_target_path}"
DEPENDS ${inputs} "${QT_CMAKE_DIR}/QtGenerateLibPri.cmake"
COMMAND ${CMAKE_COMMAND} "-DIN_FILES=${inputs}" "-DOUT_FILE=${qmodule_pri_target_path}"
"-DLIBRARY_PREFIXES=${library_prefixes}"
"-DLIBRARY_SUFFIXES=${library_suffixes}"
"-DLINK_LIBRARY_FLAG=${CMAKE_LINK_LIBRARY_FLAG}"
"-DCONFIGS=${configs}"
-P "${QT_CMAKE_DIR}/QtGenerateLibPri.cmake"
VERBATIM)
add_custom_target(qmodule_pri DEPENDS "${qmodule_pri_target_path}")
qt_install(FILES "${qmodule_pri_target_path}" DESTINATION ${INSTALL_MKSPECSDIR})
endfunction()
# In the cross-compiling case, creates a wrapper around the host Qt's
# qmake executable. Also creates a qmake configuration file that sets
# up the host qmake's properties for cross-compiling with this Qt
# build.
function(qt_generate_qmake_wrapper_for_target)
if(NOT CMAKE_CROSSCOMPILING)
return()
endif()
# Call the configuration file something else but qt.conf to avoid
# being picked up by the qmake executable that's created if
# QT_BUILD_TOOLS_WHEN_CROSSCOMPILING is enabled.
qt_path_join(qt_conf_path "${INSTALL_BINDIR}" "target_qt.conf")
set(prefix "${CMAKE_INSTALL_PREFIX}")
set(ext_prefix "${QT_STAGING_PREFIX}")
set(host_prefix "${QT_HOST_PATH}")
file(RELATIVE_PATH host_prefix_relative_to_conf_file "${ext_prefix}/${INSTALL_BINDIR}"
"${host_prefix}")
file(RELATIVE_PATH ext_prefix_relative_to_conf_file "${ext_prefix}/${INSTALL_BINDIR}"
"${ext_prefix}")
file(RELATIVE_PATH ext_prefix_relative_to_host_prefix "${host_prefix}" "${ext_prefix}")
set(content "")
if(ext_prefix STREQUAL prefix)
set(sysrootify_prefix true)
else()
set(sysrootify_prefix false)
string(APPEND content "[DevicePaths]
Prefix=${prefix}
")
endif()
if(NOT QT_WILL_INSTALL)
# The shadow build directory of a non-prefix build does not contain a copy of the mkspecs
# directory. Let $$[QT_HOST_DATA/src] point to the qtbase source directory.
string(APPEND content "[EffectiveSourcePaths]
HostData=${CMAKE_CURRENT_SOURCE_DIR}
")
# Set $$[QT_HOST_DATA/get] to avoid falling back to the source dir where it isn't explicitly
# requested.
# Also make sure to specif the Prefix as well, because it doesn't get inherited from the
# [Paths] section.
string(APPEND content "[EffectivePaths]
HostData=${ext_prefix}
Prefix=${ext_prefix_relative_to_conf_file}
")
endif()
# On Android CMAKE_SYSROOT is set, but for Qt's purposes it should not be set, because then
# qmake generates incorrect Qt module include flags (among other things). Do the same for darwin
# cross-compilation.
set(sysroot "")
if(CMAKE_SYSROOT AND NOT ANDROID AND NOT UIKIT)
set(sysroot "${CMAKE_SYSROOT}")
endif()
string(APPEND content
"[Paths]
Prefix=${ext_prefix_relative_to_conf_file}
HostPrefix=${host_prefix_relative_to_conf_file}
HostData=${ext_prefix_relative_to_host_prefix}
Sysroot=${sysroot}
SysrootifyPrefix=${sysrootify_prefix}
TargetSpec=${QT_QMAKE_TARGET_MKSPEC}
HostSpec=${QT_QMAKE_HOST_MKSPEC}
")
file(GENERATE OUTPUT "${qt_conf_path}" CONTENT "${content}")
qt_path_join(qmake_wrapper_in_file "${CMAKE_CURRENT_SOURCE_DIR}/bin/qmake-wrapper-for-target")
qt_path_join(qmake_wrapper "preliminary" "qmake")
if(QT_BUILD_TOOLS_WHEN_CROSSCOMPILING)
# Avoid collisions with the cross-compiled qmake binary.
string(PREPEND qmake_wrapper "host-")
endif()
if(CMAKE_HOST_SYSTEM_NAME STREQUAL "Windows")
string(APPEND qmake_wrapper_in_file ".bat")
string(APPEND qmake_wrapper ".bat")
endif()
string(APPEND qmake_wrapper_in_file ".in")
set(host_qt_bindir "${host_prefix}/${QT${PROJECT_VERSION_MAJOR}_HOST_INFO_BINDIR}")
configure_file("${qmake_wrapper_in_file}" "${qmake_wrapper}" @ONLY)
qt_install(FILES "${CMAKE_CURRENT_BINARY_DIR}/${qt_conf_path}"
DESTINATION "${INSTALL_BINDIR}")
qt_copy_or_install(PROGRAMS "${CMAKE_CURRENT_BINARY_DIR}/${qmake_wrapper}"
DESTINATION "${INSTALL_BINDIR}")
endfunction()
# Takes a list of path components and joins them into one path separated by forward slashes "/",
# and saves the path in out_var.
function(qt_path_join out_var)
string(JOIN "/" path ${ARGN})
set(${out_var} ${path} PARENT_SCOPE)
endfunction()
function(qt_internal_export_modern_cmake_config_targets_file)
cmake_parse_arguments(__arg "" "EXPORT_NAME_PREFIX;CONFIG_INSTALL_DIR" "TARGETS" ${ARGN})
set(export_name "${__arg_EXPORT_NAME_PREFIX}VersionlessTargets")
foreach(target ${__arg_TARGETS})
if (TARGET "${target}Versionless")
continue()
endif()
add_library("${target}Versionless" INTERFACE)
target_link_libraries("${target}Versionless" INTERFACE "${target}")
set_target_properties("${target}Versionless" PROPERTIES
EXPORT_NAME "${target}"
_qt_is_versionless_target "TRUE")
set_property(TARGET "${target}Versionless"
APPEND PROPERTY EXPORT_PROPERTIES _qt_is_versionless_target)
qt_install(TARGETS "${target}Versionless" EXPORT ${export_name})
endforeach()
qt_install(EXPORT ${export_name} NAMESPACE Qt:: DESTINATION "${__arg_CONFIG_INSTALL_DIR}")
endfunction()
# Print all variables defined in the current scope.
macro(qt_debug_print_variables)
cmake_parse_arguments(__arg "DEDUP" "" "MATCH;IGNORE" ${ARGN})
message("Known Variables:")
get_cmake_property(__variableNames VARIABLES)
list (SORT __variableNames)
if (__arg_DEDUP)
list(REMOVE_DUPLICATES __variableNames)
endif()
foreach(__var ${__variableNames})
set(__ignore OFF)
foreach(__i ${__arg_IGNORE})
if(__var MATCHES "${__i}")
set(__ignore ON)
break()
endif()
endforeach()
if (__ignore)
continue()
endif()
set(__show OFF)
foreach(__i ${__arg_MATCH})
if(__var MATCHES "${__i}")
set(__show ON)
break()
endif()
endforeach()
if (__show)
message(" ${__var}=${${__var}}.")
endif()
endforeach()
endmacro()
macro(assert)
if (${ARGN})
else()
message(FATAL_ERROR "ASSERT: ${ARGN}.")
endif()
endmacro()
function(qt_create_nolink_target target dependee_target)
if(NOT TARGET "${target}")
message(FATAL_ERROR "${target} does not exist when trying to build a nolink target.")
endif()
get_target_property(type "${target}" TYPE)
if(type STREQUAL EXECUTABLE)
message(FATAL_ERROR "${target} must be a library of some kind.")
endif()
if(type STREQUAL OBJECT_LIBRARY)
message(FATAL_ERROR "${target} must not be an object library.")
endif()
# Strip off the namespace prefix, so from Vulkan::Vulkan to Vulkan, and then append _nolink.
string(REGEX REPLACE "^.*::" "" non_prefixed_target ${target})
set(nolink_target "${non_prefixed_target}_nolink")
# Create the nolink interface target, assign the properties from the original target,
# associate the nolink target with the same export which contains
# the target that uses the _nolink target.
# Also create a namespaced alias of the form ${target}::${target}_nolink which is used by
# our modules.
# Also create a Qt namespaced alias target, because when exporting via install(EXPORT)
# Vulkan::Vulkan_nolink transforms into Qt6::Vulkan_nolink, and the latter needs to be an
# accessible alias for standalone tests.
if(NOT TARGET "${nolink_target}")
add_library("${nolink_target}" INTERFACE)
set(prefixed_nolink_target "${target}_nolink")
set_target_properties("${nolink_target}" PROPERTIES
INTERFACE_INCLUDE_DIRECTORIES
$<TARGET_PROPERTY:${target},INTERFACE_INCLUDE_DIRECTORIES>
INTERFACE_SYSTEM_INCLUDE_DIRECTORIES
$<TARGET_PROPERTY:${target},INTERFACE_SYSTEM_INCLUDE_DIRECTORIES>
INTERFACE_COMPILE_DEFINITIONS
$<TARGET_PROPERTY:${target},INTERFACE_COMPILE_DEFINITIONS>
INTERFACE_COMPILE_OPTIONS
$<TARGET_PROPERTY:${target},INTERFACE_COMPILE_OPTIONS>
INTERFACE_COMPILE_FEATURES
$<TARGET_PROPERTY:${target},INTERFACE_COMPILE_FEATURES>)
add_library(${prefixed_nolink_target} ALIAS ${nolink_target})
add_library("${INSTALL_CMAKE_NAMESPACE}::${nolink_target}" ALIAS ${nolink_target})
set(export_name "${INSTALL_CMAKE_NAMESPACE}${dependee_target}Targets")
qt_install(TARGETS ${nolink_target} EXPORT ${export_name})
endif()
endfunction()
function(qt_ensure_perl)
if(DEFINED HOST_PERL)
return()
endif()
find_program(HOST_PERL "perl" DOC "Perl binary")
if (NOT HOST_PERL)
message(FATAL_ERROR "Perl needs to be available to build Qt.")
endif()
endfunction()
function(qt_ensure_sync_qt)
qt_ensure_perl()
if(DEFINED QT_SYNCQT)
return()
endif()
# When building qtbase, use the source syncqt, otherwise use the installed one.
set(SYNCQT_FROM_SOURCE "${QtBase_SOURCE_DIR}/bin/syncqt.pl")
if(NOT ("${QtBase_SOURCE_DIR}" STREQUAL "") AND EXISTS "${SYNCQT_FROM_SOURCE}")
set(QT_SYNCQT "${SYNCQT_FROM_SOURCE}" CACHE FILEPATH "syncqt script")
message(STATUS "Using source syncqt found at: ${QT_SYNCQT}")
qt_path_join(syncqt_install_dir ${QT_INSTALL_DIR} ${INSTALL_LIBEXECDIR})
qt_copy_or_install(PROGRAMS "${SYNCQT_FROM_SOURCE}"
DESTINATION "${syncqt_install_dir}")
qt_path_join(syncqt_install_dir ${QT_INSTALL_DIR} ${INSTALL_BINDIR})
qt_copy_or_install(PROGRAMS "${SYNCQT_FROM_SOURCE}"
DESTINATION "${syncqt_install_dir}")
elseif(QT_HOST_PATH)
get_filename_component(syncqt_absolute_path
"${QT_HOST_PATH}/${INSTALL_LIBEXECDIR}/syncqt.pl"
ABSOLUTE)
set(QT_SYNCQT "${syncqt_absolute_path}" CACHE FILEPATH "syncqt script")
message(STATUS "Using host syncqt found at: ${QT_SYNCQT}")
else()
get_filename_component(syncqt_absolute_path
"${QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX}/${INSTALL_LIBEXECDIR}/syncqt.pl"
ABSOLUTE)
set(QT_SYNCQT "${syncqt_absolute_path}" CACHE FILEPATH "syncqt script")
message(STATUS "Using installed syncqt found at: ${QT_SYNCQT}")
endif()
endfunction()
# A version of cmake_parse_arguments that makes sure all arguments are processed and errors out
# with a message about ${type} having received unknown arguments.
macro(qt_parse_all_arguments result type flags options multiopts)
cmake_parse_arguments(${result} "${flags}" "${options}" "${multiopts}" ${ARGN})
if(DEFINED ${result}_UNPARSED_ARGUMENTS)
message(FATAL_ERROR "Unknown arguments were passed to ${type} (${${result}_UNPARSED_ARGUMENTS}).")
endif()
endmacro()
include(CheckCXXSourceCompiles)
function(qt_internal_add_link_flags_no_undefined target)
if (NOT QT_BUILD_SHARED_LIBS)
return()
endif()
if (GCC OR CLANG)
set(previous_CMAKE_REQUIRED_LINK_OPTIONS ${CMAKE_REQUIRED_LINK_OPTIONS})
set(CMAKE_REQUIRED_LINK_OPTIONS "-Wl,-undefined,error")
check_cxx_source_compiles("int main() {}" HAVE_DASH_UNDEFINED_SYMBOLS)
if(HAVE_DASH_UNDEFINED_SYMBOLS)
set(no_undefined_flag "-Wl,-undefined,error")
endif()
set(CMAKE_REQUIRED_LINK_OPTIONS "-Wl,--no-undefined")
check_cxx_source_compiles("int main() {}" HAVE_DASH_DASH_NO_UNDEFINED)
if(HAVE_DASH_DASH_NO_UNDEFINED)
set(no_undefined_flag "-Wl,--no-undefined")
endif()
set(CMAKE_REQUIRED_LINK_OPTIONS ${previous_CMAKE_REQUIRED_LINK_OPTIONS})
if (NOT HAVE_DASH_UNDEFINED_SYMBOLS AND NOT HAVE_DASH_DASH_NO_UNDEFINED)
message(FATAL_ERROR "Platform linker doesn't support erroring upon encountering undefined symbols. Target:\"${target}\".")
endif()
target_link_options("${target}" PRIVATE "${no_undefined_flag}")
endif()
endfunction()
function(qt_internal_apply_gc_binaries_conditional target visibility)
# Should only be applied when the feature is enabled, aka for static builds.
if(NOT QT_FEATURE_gc_binaries)
return()
endif()
qt_internal_apply_gc_binaries("${target}" "${visibility}")
endfunction()
function(qt_internal_apply_gc_binaries target visibility)
set(possible_visibilities PRIVATE INTERFACE PUBLIC)
list(FIND possible_visibilities "${visibility}" known_visibility)
if (known_visibility EQUAL "-1")
message(FATAL_ERROR "Visibitily setting must be one of PRIVATE, INTERFACE or PUBLIC.")
endif()
if ((GCC OR CLANG) AND NOT EMSCRIPTEN AND NOT UIKIT)
if(APPLE)
set(gc_sections_flag "-Wl,-dead_strip")
elseif(SOLARIS)
set(gc_sections_flag "-Wl,-z,ignore")
elseif(LINUX OR BSD OR WIN32 OR ANDROID)
set(gc_sections_flag "-Wl,--gc-sections")
endif()
endif()
if(gc_sections_flag)
target_link_options("${target}" ${visibility} "${gc_sections_flag}")
endif()
if((GCC OR CLANG OR ICC) AND NOT EMSCRIPTEN AND NOT UIKIT)
set(split_sections_flags "-ffunction-sections" "-fdata-sections")
endif()
if(split_sections_flags)
target_compile_options("${target}" ${visibility} ${split_sections_flags})
endif()
endfunction()
function(qt_internal_apply_intel_cet target visibility)
if(NOT QT_FEATURE_intelcet)
return()
endif()
set(possible_visibilities PRIVATE INTERFACE PUBLIC)
list(FIND possible_visibilities "${visibility}" known_visibility)
if (known_visibility EQUAL "-1")
message(FATAL_ERROR "Visibitily setting must be one of PRIVATE, INTERFACE or PUBLIC.")
endif()
if(GCC)
set(flags "-mshstk")
endif()
if(flags)
target_compile_options("${target}" ${visibility} "${flags}")
endif()
endfunction()
function(qt_internal_add_linker_version_script target)
qt_parse_all_arguments(arg "qt_internal_add_linker" "INTERNAL" "" "PRIVATE_HEADERS" ${ARGN})
if (TEST_ld_version_script)
if (arg_INTERNAL)
set(contents "Qt_${PROJECT_VERSION_MAJOR}_PRIVATE_API { *; };")
else()
set(contents "Qt_${PROJECT_VERSION_MAJOR}_PRIVATE_API {\n qt_private_api_tag*;\n")
foreach(ph ${arg_PRIVATE_HEADERS})
string(APPEND contents " @FILE:${ph}@\n")
endforeach()
string(APPEND contents "};\n")
set(current "Qt_${PROJECT_VERSION_MAJOR}")
if (QT_NAMESPACE STREQUAL "")
set(tag_symbol "qt_version_tag")
else()
set(tag_symbol "qt_version_tag_${QT_NAMESPACE}")
endif()
string(APPEND contents "${current} { *; };\n")
foreach(minor_version RANGE ${PROJECT_VERSION_MINOR})
set(previous "${current}")
set(current "Qt_${PROJECT_VERSION_MAJOR}.${minor_version}")
if (minor_version EQUAL ${PROJECT_VERSION_MINOR})
string(APPEND contents "${current} { ${tag_symbol}; } ${previous};\n")
else()
string(APPEND contents "${current} {} ${previous};\n")
endif()
endforeach()
set(infile "${CMAKE_CURRENT_BINARY_DIR}/${target}.version.in")
set(outfile "${CMAKE_CURRENT_BINARY_DIR}/${target}.version")
file(GENERATE OUTPUT "${infile}" CONTENT "${contents}")
qt_ensure_perl()
add_custom_command(TARGET "${target}" PRE_LINK
COMMAND "${HOST_PERL}" "${QT_MKSPECS_DIR}/features/data/unix/findclasslist.pl" < "${infile}" > "${outfile}"
BYPRODUCTS "${outfile}" DEPENDS "${infile}"
WORKING_DIRECTORY "${CMAKE_CURRENT_SOURCE_DIR}"
COMMENT "Generating version linker script"
)
target_link_options("${target}" PRIVATE "-Wl,--version-script,${outfile}")
endif()
endif()
endfunction()
# Get a set of Qt module related values based on the target name.
# When doing qt_internal_module_info(foo Core) this method will set
# the following variables in the caller's scope:
# * foo with the value "QtCore"
# * foo_versioned with the value "Qt6Core" (based on major Qt version)
# * foo_upper with the value "CORE"
# * foo_lower with the value "core"
# * foo_repo_include_dir with the module's include directory
# e.g for QtQuick it would be qtdeclarative_build_dir/include for a prefix build or
# qtbase_build_dir/include for a non-prefix build
# * foo_include_dir with the module's include directory
# e.g for QtQuick it would be qtdeclarative_build_dir/include/QtQuick for a prefix build or
# qtbase_build_dir/include/QtQuick for a non-prefix build
# * foo_define same as foo_uper but with - replaced as _
function(qt_internal_module_info result target)
set(module "Qt${target}")
set("${result}" "${module}" PARENT_SCOPE)
set("${result}_versioned" "Qt${PROJECT_VERSION_MAJOR}${target}" PARENT_SCOPE)
string(TOUPPER "${target}" upper)
string(TOLOWER "${target}" lower)# * foo_upper with the value "CORE"
string(REPLACE "-" "_" define "${upper}")
string(REPLACE "." "_" define "${define}")
set("${result}_upper" "${upper}" PARENT_SCOPE)
set("${result}_lower" "${lower}" PARENT_SCOPE)
set("${result}_repo_include_dir" "${QT_BUILD_DIR}/${INSTALL_INCLUDEDIR}" PARENT_SCOPE)
set("${result}_include_dir" "${QT_BUILD_DIR}/${INSTALL_INCLUDEDIR}/${module}" PARENT_SCOPE)
set("${result}_define" "${define}" PARENT_SCOPE)
endfunction()
set(__default_private_args "SOURCES;LIBRARIES;INCLUDE_DIRECTORIES;DEFINES;DBUS_ADAPTOR_BASENAME;DBUS_ADAPTOR_FLAGS;DBUS_ADAPTOR_SOURCES;DBUS_INTERFACE_BASENAME;DBUS_INTERFACE_FLAGS;DBUS_INTERFACE_SOURCES;FEATURE_DEPENDENCIES;COMPILE_OPTIONS;LINK_OPTIONS;MOC_OPTIONS;DISABLE_AUTOGEN_TOOLS;ENABLE_AUTOGEN_TOOLS;PLUGIN_TYPES")
set(__default_public_args "PUBLIC_LIBRARIES;PUBLIC_INCLUDE_DIRECTORIES;PUBLIC_DEFINES;PUBLIC_COMPILE_OPTIONS;PUBLIC_LINK_OPTIONS")
set(__default_private_module_args "PRIVATE_MODULE_INTERFACE")
set(__default_target_info_args TARGET_VERSION TARGET_PRODUCT TARGET_DESCRIPTION TARGET_COMPANY
TARGET_COPYRIGHT)
option(QT_CMAKE_DEBUG_EXTEND_TARGET "Debug extend_target calls in Qt's build system" OFF)
# Initial autogen setup for a target to specify certain CMake properties which are common
# to all autogen tools. Also enable AUTOMOC by default.
function(qt_autogen_tools_initial_setup target)
set_property(TARGET "${target}" PROPERTY INTERFACE_QT_MAJOR_VERSION ${PROJECT_VERSION_MAJOR})
set_property(TARGET "${target}" APPEND PROPERTY COMPATIBLE_INTERFACE_STRING QT_MAJOR_VERSION)
set_directory_properties(PROPERTIES
QT_VERSION_MAJOR ${PROJECT_VERSION_MAJOR}
QT_VERSION_MINOR ${PROJECT_VERSION_MINOR}
QT_VERSION_PATCH ${PROJECT_VERSION_PATCH}
)
qt_enable_autogen_tool(${target} "moc" ON)
endfunction()
# Enables or disables an autogen tool like moc, uic or rcc on ${target}.
function(qt_enable_autogen_tool target tool enable)
string(TOUPPER "${tool}" captitalAutogenTool)
get_target_property(tool_enabled ${target} AUTO${captitalAutogenTool})
get_target_property(autogen_target_depends ${target} AUTOGEN_TARGET_DEPENDS)
if(NOT autogen_target_depends)
set(autogen_target_depends "")
endif()
set(tool_executable "$<TARGET_FILE:${QT_CMAKE_EXPORT_NAMESPACE}::${tool}>")
set(tool_target_name ${QT_CMAKE_EXPORT_NAMESPACE}::${tool})
if(enable)
list(APPEND autogen_target_depends ${tool_target_name})
else()
list(REMOVE_ITEM autogen_target_depends ${tool_target_name})
endif()
# f66c1db16c050c9d685a44a38ad7c5cf9f6fcc96 in qtbase introduced a new macro
# that the moc scanner has to look for. Inform the CMake moc scanner about it.
if(tool STREQUAL "moc" AND enable)
set_target_properties("${target}" PROPERTIES
AUTOMOC_MACRO_NAMES "Q_OBJECT;Q_GADGET;Q_NAMESPACE;Q_NAMESPACE_EXPORT;Q_ENUM_NS")
endif()
set_target_properties("${target}"
PROPERTIES
AUTO${captitalAutogenTool} "${enable}"
AUTO${captitalAutogenTool}_EXECUTABLE "${tool_executable}"
AUTOGEN_TARGET_DEPENDS "${autogen_target_depends}"
)
endfunction()
# This function adds or removes additional AUTOGEN tools to a target: AUTOMOC/UIC/RCC
function(qt_autogen_tools target)
qt_parse_all_arguments(arg "qt_autogen_tools" "" "" "${__default_private_args}" ${ARGN})
if (arg_ENABLE_AUTOGEN_TOOLS)
foreach(tool ${arg_ENABLE_AUTOGEN_TOOLS})
qt_enable_autogen_tool(${target} ${tool} ON)
endforeach()
endif()
if (arg_DISABLE_AUTOGEN_TOOLS)
foreach(tool ${arg_DISABLE_AUTOGEN_TOOLS})
qt_enable_autogen_tool(${target} ${tool} OFF)
endforeach()
endif()
endfunction()
# This function stores the list of Qt modules a library depend on,
# along with their version info, for usage in ${target}Depends.cmake file
function(qt_register_target_dependencies target public_libs private_libs)
get_target_property(target_deps "${target}" _qt_target_deps)
if(NOT target_deps)
set(target_deps "")
endif()
# Only process private dependencies if target is a static library
get_target_property(target_type ${target} TYPE)
set(lib_list ${public_libs})
if (target_type STREQUAL "STATIC_LIBRARY")
list(APPEND lib_list ${private_libs})
endif()
foreach(lib IN LISTS lib_list)
if ("${lib}" MATCHES "^Qt::(.*)")
set(lib "${CMAKE_MATCH_1}")
if (lib STREQUAL Platform
OR lib STREQUAL GlobalConfig
OR lib STREQUAL GlobalConfigPrivate
OR lib STREQUAL PlatformModuleInternal
OR lib STREQUAL PlatformPluginInternal
OR lib STREQUAL PlatformToolInternal)
list(APPEND target_deps "Qt6\;${PROJECT_VERSION}")
elseif ("${lib}" MATCHES "(.*)Private")
list(APPEND target_deps "${INSTALL_CMAKE_NAMESPACE}${CMAKE_MATCH_1}\;${PROJECT_VERSION}")
else()
list(APPEND target_deps "${INSTALL_CMAKE_NAMESPACE}${lib}\;${PROJECT_VERSION}")
endif()
endif()
endforeach()
set_target_properties("${target}" PROPERTIES _qt_target_deps "${target_deps}")
endfunction()
function(qt_update_precompiled_header target precompiled_header)
if (precompiled_header AND BUILD_WITH_PCH)
set_property(TARGET "${target}" APPEND PROPERTY "PRECOMPILE_HEADERS" "$<$<OR:$<COMPILE_LANGUAGE:CXX>,$<COMPILE_LANGUAGE:OBJCXX>>:${precompiled_header}>")
endif()
endfunction()
function(qt_update_precompiled_header_with_library target library)
if (TARGET "${library}")
get_target_property(TARGET_TYPE "${library}" TYPE)
if (NOT TARGET_TYPE STREQUAL "INTERFACE_LIBRARY")
get_target_property(HEADER "${library}" MODULE_HEADER)
qt_update_precompiled_header("${target}" "${HEADER}")
endif()
endif()
endfunction()
function(qt_update_ignore_pch_source target sources)
if (sources)
set_source_files_properties(${sources} PROPERTIES SKIP_PRECOMPILE_HEADERS ON)
endif()
endfunction()
function(qt_ignore_pch_obj_c_sources target sources)
# No obj-cxx PCH support for versions lower than 3.16.
if(CMAKE_VERSION VERSION_LESS 3.16.0)
list(FILTER sources INCLUDE REGEX "\\.mm$")
qt_update_ignore_pch_source("${target}" "${sources}")
endif()
endfunction()
# This function can be used to add sources/libraries/etc. to the specified CMake target
# if the provided CONDITION evaluates to true.
function(qt_extend_target target)
# Don't try to extend_target when cross compiling an imported host target (like a tool).
qt_is_imported_target("${target}" is_imported)
if(is_imported)
return()
endif()
if (NOT TARGET "${target}")
message(FATAL_ERROR "Trying to extend non-existing target \"${target}\".")
endif()
qt_parse_all_arguments(arg "qt_extend_target" "HEADER_MODULE" "PRECOMPILED_HEADER"
"CONDITION;${__default_public_args};${__default_private_args};${__default_private_module_args};COMPILE_FLAGS;NO_PCH_SOURCES" ${ARGN})
if ("x${arg_CONDITION}" STREQUAL x)
set(arg_CONDITION ON)
endif()
qt_evaluate_config_expression(result ${arg_CONDITION})
if (${result})
if(QT_CMAKE_DEBUG_EXTEND_TARGET)
message("qt_extend_target(${target} CONDITION ${arg_CONDITION} ...): Evaluated")
endif()
set(dbus_sources "")
foreach(adaptor ${arg_DBUS_ADAPTOR_SOURCES})
qt_create_qdbusxml2cpp_command("${target}" "${adaptor}" ADAPTOR BASENAME "${arg_DBUS_ADAPTOR_BASENAME}" FLAGS "${arg_DBUS_ADAPTOR_FLAGS}")
list(APPEND dbus_sources "${sources}")
endforeach()
foreach(interface ${arg_DBUS_INTERFACE_SOURCES})
qt_create_qdbusxml2cpp_command("${target}" "${interface}" INTERFACE BASENAME "${arg_DBUS_INTERFACE_BASENAME}" FLAGS "${arg_DBUS_INTERFACE_FLAGS}")
list(APPEND dbus_sources "${sources}")
endforeach()
get_target_property(target_type ${target} TYPE)
set(is_library FALSE)
if (${target_type} STREQUAL "STATIC_LIBRARY" OR ${target_type} STREQUAL "SHARED_LIBRARY")
set(is_library TRUE)
endif()
foreach(lib ${arg_PUBLIC_LIBRARIES} ${arg_LIBRARIES})
# Automatically generate PCH for 'target' using dependencies
# if 'target' is a library/module!
if (${is_library})
qt_update_precompiled_header_with_library("${target}" "${lib}")
endif()
string(REGEX REPLACE "_nolink$" "" base_lib "${lib}")
if(NOT base_lib STREQUAL lib)
qt_create_nolink_target("${base_lib}" ${target})
endif()
endforeach()
# Set-up the target
target_sources("${target}" PRIVATE ${arg_SOURCES} ${dbus_sources})
if (arg_COMPILE_FLAGS)
set_source_files_properties(${arg_SOURCES} PROPERTIES COMPILE_FLAGS "${arg_COMPILE_FLAGS}")
endif()
set(public_visibility_option "PUBLIC")
set(private_visibility_option "PRIVATE")
if(arg_HEADER_MODULE)
set(public_visibility_option "INTERFACE")
set(private_visibility_option "INTERFACE")
endif()
target_include_directories("${target}"
${public_visibility_option} ${arg_PUBLIC_INCLUDE_DIRECTORIES}
${private_visibility_option} ${arg_INCLUDE_DIRECTORIES})
target_compile_definitions("${target}"
${public_visibility_option} ${arg_PUBLIC_DEFINES}
${private_visibility_option} ${arg_DEFINES})
target_link_libraries("${target}"
${public_visibility_option} ${arg_PUBLIC_LIBRARIES}
${private_visibility_option} ${arg_LIBRARIES})
target_compile_options("${target}"
${public_visibility_option} ${arg_PUBLIC_COMPILE_OPTIONS}
${private_visibility_option} ${arg_COMPILE_OPTIONS})
target_link_options("${target}"
${public_visibility_option} ${arg_PUBLIC_LINK_OPTIONS}
${private_visibility_option} ${arg_LINK_OPTIONS})
if(NOT arg_HEADER_MODULE)
set_property (TARGET "${target}" APPEND PROPERTY
AUTOMOC_MOC_OPTIONS "${arg_MOC_OPTIONS}"
)
endif()
# When computing the private library dependencies, we need to check not only the known
# modules added by this repo's qt_build_repo(), but also all module dependencies that
# were found via find_package().
qt_internal_get_qt_all_known_modules(known_modules)
# When a public module depends on a private module (Gui on CorePrivate)
# make its private module depend on the other private module (GuiPrivate will depend on
# CorePrivate).
set(qt_libs_private "")
foreach(it ${known_modules})
list(FIND arg_LIBRARIES "Qt::${it}Private" pos)
if(pos GREATER -1)
list(APPEND qt_libs_private "Qt::${it}Private")
endif()
endforeach()
set(target_private "${target}Private")
if(TARGET "${target_private}")
target_link_libraries("${target_private}"
INTERFACE ${arg_PRIVATE_MODULE_INTERFACE})
endif()
qt_register_target_dependencies("${target}"
"${arg_PUBLIC_LIBRARIES}"
"${qt_libs_private};${arg_LIBRARIES}")
qt_autogen_tools(${target}
ENABLE_AUTOGEN_TOOLS ${arg_ENABLE_AUTOGEN_TOOLS}
DISABLE_AUTOGEN_TOOLS ${arg_DISABLE_AUTOGEN_TOOLS})
qt_update_precompiled_header("${target}" "${arg_PRECOMPILED_HEADER}")
qt_update_ignore_pch_source("${target}" "${arg_NO_PCH_SOURCES}")
## Ignore objective-c files for PCH (not supported atm)
qt_ignore_pch_obj_c_sources("${target}" "${arg_SOURCES}")
else()
if(QT_CMAKE_DEBUG_EXTEND_TARGET)
message("qt_extend_target(${target} CONDITION ${arg_CONDITION} ...): Skipped")
endif()
endif()
endfunction()
function(qt_internal_library_deprecation_level result)
if(WIN32)
# On Windows, due to the way DLLs work, we need to export all functions,
# including the inlines
list(APPEND deprecations "QT_DISABLE_DEPRECATED_BEFORE=0x040800")
else()
# On other platforms, Qt's own compilation goes needs to compile the Qt 5.0 API
list(APPEND deprecations "QT_DISABLE_DEPRECATED_BEFORE=0x050000")
endif()
list(APPEND deprecations "QT_DEPRECATED_WARNINGS_SINCE=0x060000")
set("${result}" deprecations PARENT_SCOPE)
endfunction()
function(qt_install_injections target build_dir install_dir)
set(injections ${ARGN})
set(module "Qt${target}")
get_target_property(target_type ${target} TYPE)
if (target_type STREQUAL "INTERFACE_LIBRARY")
set(is_framework FALSE)
else()
get_target_property(is_framework ${target} FRAMEWORK)
endif()
# examples:
# SYNCQT.INJECTIONS = src/corelib/global/qconfig.h:qconfig.h:QtConfig src/corelib/global/qconfig_p.h:5.12.0/QtCore/private/qconfig_p.h
# SYNCQT.INJECTIONS = src/gui/vulkan/qvulkanfunctions.h:^qvulkanfunctions.h:QVulkanFunctions:QVulkanDeviceFunctions src/gui/vulkan/qvulkanfunctions_p.h:^5.12.0/QtGui/private/qvulkanfunctions_p.h
# The are 3 parts to the assignment, divded by colons ':'.
# The first part contains a path to a generated file in a build folder.
# The second part contains the file name that the forwarding header should have, which points
# to the file in the first part.
# The third part contains multiple UpperCaseFileNames that should be forwarding headers to the
# header specified in the second part.
separate_arguments(injections UNIX_COMMAND "${injections}")
foreach(injection ${injections})
string(REPLACE ":" ";" injection ${injection})
# Part 1.
list(GET injection 0 file)
# Part 2.
list(GET injection 1 destination)
string(REGEX REPLACE "^\\^" "" destination "${destination}")
list(REMOVE_AT injection 0 1)
# Part 3.
set(fwd_hdrs ${injection})
get_filename_component(destinationdir ${destination} DIRECTORY)
get_filename_component(destinationname ${destination} NAME)
get_filename_component(original_file_name ${file} NAME)
# This describes a concrete example for easier comprehension:
# A file 'qtqml-config.h' is generated by qt_internal_feature_write_file into
# ${qtdeclarative_build_dir}/src/{module}/qtqml-config.h (part 1).
#
# Generate a lower case forwarding header (part 2) 'qtqml-config.h' at the following
# location:
# ${some_prefix}/include/${module}/qtqml-config.h.
#
# Inside this file, we #include the originally generated file,
# ${qtdeclarative_build_dir}/src/{module}/qtqml-config.h.
#
# ${some_prefix}'s value depends on the build type.
# If doing a prefix build, it should point to
# ${current_repo_build_dir} which is ${qtdeclarative_build_dir}.
# If doing a non-prefix build, it should point to
# ${qtbase_build_dir}.
#
# In the code below, ${some_prefix} == ${build_dir}.
set(lower_case_forwarding_header_path "${build_dir}/${INSTALL_INCLUDEDIR}/${module}")
if(destinationdir)
string(APPEND lower_case_forwarding_header_path "/${destinationdir}")
endif()
set(current_repo_build_dir "${PROJECT_BINARY_DIR}")
file(RELATIVE_PATH relpath
"${lower_case_forwarding_header_path}"
"${current_repo_build_dir}/${file}")
set(main_contents "#include \"${relpath}\"")
qt_configure_file(OUTPUT "${lower_case_forwarding_header_path}/${original_file_name}"
CONTENT "${main_contents}")
if(is_framework)
if(file MATCHES "_p\\.h$")
set(header_type PRIVATE)
else()
set(header_type PUBLIC)
endif()
qt_copy_framework_headers(${target} ${header_type}
${current_repo_build_dir}/${file})
else()
# Copy the actual injected (generated) header file (not the just created forwarding one)
# to its install location when doing a prefix build. In an non-prefix build, the qt_install
# will be a no-op.
qt_path_join(install_destination
${install_dir} ${INSTALL_INCLUDEDIR} ${module} ${destinationdir})
qt_install(FILES ${current_repo_build_dir}/${file}
DESTINATION ${install_destination}
RENAME ${destinationname} OPTIONAL)
endif()
# Generate UpperCaseNamed forwarding headers (part 3).
foreach(fwd_hdr ${fwd_hdrs})
set(upper_case_forwarding_header_path "${INSTALL_INCLUDEDIR}/${module}")
if(destinationdir)
string(APPEND upper_case_forwarding_header_path "/${destinationdir}")
endif()
# Generate upper case forwarding header like QVulkanFunctions or QtConfig.
qt_configure_file(OUTPUT "${build_dir}/${upper_case_forwarding_header_path}/${fwd_hdr}"
CONTENT "#include \"${destinationname}\"\n")
if(is_framework)
# Copy the forwarding header to the framework's Headers directory.
qt_copy_framework_headers(${target} PUBLIC
"${build_dir}/${upper_case_forwarding_header_path}/${fwd_hdr}")
else()
# Install the forwarding header.
qt_path_join(install_destination
${install_dir} ${upper_case_forwarding_header_path})
qt_install(FILES "${build_dir}/${upper_case_forwarding_header_path}/${fwd_hdr}"
DESTINATION ${install_destination} OPTIONAL)
endif()
endforeach()
endforeach()
endfunction()
function(qt_read_headers_pri module_include_dir resultVarPrefix)
file(STRINGS "${module_include_dir}/headers.pri" headers_pri_contents)
foreach(line ${headers_pri_contents})
if("${line}" MATCHES "SYNCQT.HEADER_FILES = (.*)")
set(public_module_headers "${CMAKE_MATCH_1}")
separate_arguments(public_module_headers UNIX_COMMAND "${public_module_headers}")
elseif("${line}" MATCHES "SYNCQT.PRIVATE_HEADER_FILES = (.*)")
set(private_module_headers "${CMAKE_MATCH_1}")
separate_arguments(private_module_headers UNIX_COMMAND "${private_module_headers}")
elseif("${line}" MATCHES "SYNCQT.GENERATED_HEADER_FILES = (.*)")
set(generated_module_headers "${CMAKE_MATCH_1}")
separate_arguments(generated_module_headers UNIX_COMMAND "${generated_module_headers}")
foreach(generated_header ${generated_module_headers})
list(APPEND public_module_headers "${module_include_dir}/${generated_header}")
endforeach()
elseif("${line}" MATCHES "SYNCQT.INJECTIONS = (.*)")
set(injections "${CMAKE_MATCH_1}")
elseif("${line}" MATCHES "SYNCQT.([A-Z_]+)_HEADER_FILES = (.+)")
set(prefix "${CMAKE_MATCH_1}")
string(TOLOWER "${prefix}" prefix)
set(entries "${CMAKE_MATCH_2}")
separate_arguments(entries UNIX_COMMAND "${entries}")
set("${resultVarPrefix}_${prefix}" "${entries}" PARENT_SCOPE)
endif()
endforeach()
set(${resultVarPrefix}_public "${public_module_headers}" PARENT_SCOPE)
set(${resultVarPrefix}_private "${private_module_headers}" PARENT_SCOPE)
set(${resultVarPrefix}_injections "${injections}" PARENT_SCOPE)
endfunction()
# Add Qt::target and Qt6::target as aliases for the target
function(qt_internal_add_target_aliases target)
get_target_property(type "${target}" TYPE)
if (type STREQUAL EXECUTABLE)
add_executable("Qt::${target}" ALIAS "${target}")
add_executable("Qt${PROJECT_VERSION_MAJOR}::${target}" ALIAS "${target}")
else()
add_library("Qt::${target}" ALIAS "${target}")
add_library("Qt${PROJECT_VERSION_MAJOR}::${target}" ALIAS "${target}")
endif()
endfunction()
# Sets the exceptions flags for the given target
function(qt_internal_set_no_exceptions_flags target)
target_compile_definitions("${target}" PRIVATE "QT_NO_EXCEPTIONS")
if ("${CMAKE_CXX_COMPILER_ID}" STREQUAL "MSVC")
target_compile_options("${target}" PRIVATE "/wd4530" "/wd4577")
elseif ("${CMAKE_CXX_COMPILER_ID}" STREQUAL "GNU")
target_compile_options("${target}" PRIVATE "-fno-exceptions")
elseif ("${CMAKE_CXX_COMPILER_ID}" STREQUAL "AppleClang")
target_compile_options("${target}" PRIVATE "-fno-exceptions")
elseif ("${CMAKE_CXX_COMPILER_ID}" STREQUAL "Clang")
target_compile_options("${target}" PRIVATE "-fno-exceptions")
elseif ("${CMAKE_CXX_COMPILER_ID}" STREQUAL "Intel")
target_compile_options("${target}" PRIVATE "-fno-exceptions")
endif()
endfunction()
function(qt_skip_warnings_are_errors target)
get_target_property(target_type "${target}" TYPE)
if(target_type STREQUAL "INTERFACE_LIBRARY")
return()
endif()
set_target_properties("${target}" PROPERTIES QT_SKIP_WARNINGS_ARE_ERRORS ON)
endfunction()
function(qt_skip_warnings_are_errors_when_repo_unclean target)
if(QT_REPO_NOT_WARNINGS_CLEAN)
qt_skip_warnings_are_errors("${target}")
endif()
endfunction()
function(qt_disable_warnings target)
get_target_property(target_type "${target}" TYPE)
if(target_type STREQUAL "INTERFACE_LIBRARY")
return()
endif()
set_target_properties("${target}" PROPERTIES QT_COMPILE_OPTIONS_DISABLE_WARNINGS ON)
endfunction()
function(qt_set_symbol_visibility_preset target value)
get_target_property(target_type "${target}" TYPE)
if(target_type STREQUAL "INTERFACE_LIBRARY")
return()
endif()
set_target_properties("${target}" PROPERTIES C_VISIBILITY_PRESET "${value}")
set_target_properties("${target}" PROPERTIES CXX_VISIBILITY_PRESET "${value}")
set_target_properties("${target}" PROPERTIES OBJC_VISIBILITY_PRESET "${value}")
set_target_properties("${target}" PROPERTIES OBJCXX_VISIBILITY_PRESET "${value}")
endfunction()
function(qt_set_symbol_visibility_hidden target)
qt_set_symbol_visibility_preset("${target}" "hidden")
endfunction()
function(qt_get_sanitized_plugin_type plugin_type out_var)
# Used to handle some edge cases such as platforms/darwin
string(REGEX REPLACE "[-/]" "_" plugin_type "${plugin_type}")
set("${out_var}" "${plugin_type}" PARENT_SCOPE)
endfunction()
# Copy header files to QtXYZ.framework/Versions/6/Headers/
# Use this function for header files that
# - are not added as source files to the target
# - are not marked as PUBLIC_HEADER
# - or are private and supposed to end up in the 6.7.8/QtXYZ/private subdir.
function(qt_copy_framework_headers target)
get_target_property(is_fw ${target} FRAMEWORK)
if(NOT "${is_fw}")
return()
endif()
set(options PUBLIC PRIVATE QPA)
set(oneValueArgs)
set(multiValueArgs)
cmake_parse_arguments(ARG "${options}" "${oneValueArgs}" "${multiValueArgs}" ${ARGN})
get_target_property(fw_version ${target} FRAMEWORK_VERSION)
get_target_property(fw_bundle_version ${target} MACOSX_FRAMEWORK_BUNDLE_VERSION)
get_target_property(fw_dir ${target} LIBRARY_OUTPUT_DIRECTORY)
get_target_property(fw_name ${target} OUTPUT_NAME)
set(fw_headers_dir ${fw_dir}/${fw_name}.framework/Versions/${fw_version}/Headers/)
if(ARG_PRIVATE)
string(APPEND fw_headers_dir "${fw_bundle_version}/Qt${target}/private/")
elseif(ARG_QPA)
string(APPEND fw_headers_dir "${fw_bundle_version}/Qt${target}/qpa/")
endif()
set(out_files)
foreach(hdr IN LISTS ARG_UNPARSED_ARGUMENTS)
get_filename_component(in_file_path ${hdr} ABSOLUTE)
get_filename_component(in_file_name ${hdr} NAME)
set(out_file_path ${fw_headers_dir}${in_file_name})
add_custom_command(
OUTPUT ${out_file_path}
DEPENDS ${in_file_path}
COMMAND ${CMAKE_COMMAND} -E make_directory "${fw_headers_dir}"
COMMAND ${CMAKE_COMMAND} -E copy "${in_file_path}" "${fw_headers_dir}")
list(APPEND out_files ${out_file_path})
endforeach()
get_target_property(fw_copied_headers ${target} QT_COPIED_FRAMEWORK_HEADERS)
if(NOT fw_copied_headers)
set(fw_copied_headers "")
endif()
list(APPEND fw_copied_headers ${out_files})
set_target_properties(${target} PROPERTIES QT_COPIED_FRAMEWORK_HEADERS "${fw_copied_headers}")
endfunction()
function(qt_finalize_framework_headers_copy target)
get_target_property(target_type ${target} TYPE)
if(${target_type} STREQUAL "INTERFACE_LIBRARY")
return()
endif()
get_target_property(is_fw ${target} FRAMEWORK)
if(NOT "${is_fw}")
return()
endif()
get_target_property(headers ${target} QT_COPIED_FRAMEWORK_HEADERS)
if(headers)
# Hack to create the "Headers" symlink in the framework:
# Create a fake header file and copy it into the framework by marking it as PUBLIC_HEADER.
# CMake now takes care of creating the symlink.
set(fake_header ${target}_fake_header.h)
qt_get_main_cmake_configuration(main_config)
file(GENERATE OUTPUT ${fake_header} CONTENT "// ignore this file\n"
CONDITION "$<CONFIG:${main_config}>")
string(PREPEND fake_header "${CMAKE_CURRENT_BINARY_DIR}/")
target_sources(${target} PRIVATE ${fake_header})
set_source_files_properties(${fake_header} PROPERTIES GENERATED ON)
set_property(TARGET ${target} APPEND PROPERTY PUBLIC_HEADER ${fake_header})
# Add a target, e.g. Core_framework_headers, that triggers the header copy.
add_custom_target(${target}_framework_headers DEPENDS ${headers})
add_dependencies(${target} ${target}_framework_headers)
endif()
endfunction()
function(qt_get_cmake_configurations out_var)
set(possible_configs "${CMAKE_BUILD_TYPE}")
if(CMAKE_CONFIGURATION_TYPES)
set(possible_configs "${CMAKE_CONFIGURATION_TYPES}")
endif()
set(${out_var} "${possible_configs}" PARENT_SCOPE)
endfunction()
function(qt_clone_property_for_configs target property configs)
get_target_property(value "${target}" "${property}")
foreach(config ${configs})
string(TOUPPER "${config}" upper_config)
set_property(TARGET "${target}" PROPERTY "${property}_${upper_config}" "${value}")
endforeach()
endfunction()
function(qt_handle_multi_config_output_dirs target)
qt_get_cmake_configurations(possible_configs)
qt_clone_property_for_configs(${target} LIBRARY_OUTPUT_DIRECTORY "${possible_configs}")
qt_clone_property_for_configs(${target} RUNTIME_OUTPUT_DIRECTORY "${possible_configs}")
qt_clone_property_for_configs(${target} ARCHIVE_OUTPUT_DIRECTORY "${possible_configs}")
endfunction()
# Add a finalizer function for the current CMake list file.
#
# You may add up to nine arguments that are passed to the finalizer.
# A finalizer that is registered with qt_add_list_file_finalizer(foo bar baz)
# will be called with nine arguments: foo(bar baz IGNORE IGNORE IGNORE...),
# because CMake's handling of empty list elements is a cruel joke.
#
# For CMake < 3.18 the function qt_watch_current_list_dir must know about the finalizer.
function(qt_add_list_file_finalizer func)
set_property(GLOBAL APPEND
PROPERTY QT_LIST_FILE_FINALIZER_FILES "${CMAKE_CURRENT_LIST_FILE}")
set_property(GLOBAL APPEND
PROPERTY QT_LIST_FILE_FINALIZER_FUNCS ${func})
foreach(i RANGE 1 9)
set(arg "${ARGV${i}}")
if(i GREATER_EQUAL ARGC OR "${arg}" STREQUAL "")
set(arg "IGNORE")
endif()
set_property(GLOBAL APPEND
PROPERTY QT_LIST_FILE_FINALIZER_ARGV${i} "${arg}")
endforeach()
endfunction()
# Watcher function for the variable CMAKE_CURRENT_LIST_DIR.
# This is the driver of the finalizer facility.
function(qt_watch_current_list_dir variable access value current_list_file stack)
if(NOT access STREQUAL "MODIFIED_ACCESS")
# We are only interested in modifications of CMAKE_CURRENT_LIST_DIR.
return()
endif()
list(GET stack -1 stack_top)
if(stack_top STREQUAL current_list_file)
# If the top of the stack equals the current list file then
# we're entering a file. We're not interested in this case.
return()
endif()
get_property(files GLOBAL PROPERTY QT_LIST_FILE_FINALIZER_FILES)
if(NOT files)
return()
endif()
get_property(funcs GLOBAL PROPERTY QT_LIST_FILE_FINALIZER_FUNCS)
foreach(i RANGE 1 9)
get_property(args${i} GLOBAL PROPERTY QT_LIST_FILE_FINALIZER_ARGV${i})
endforeach()
list(LENGTH files n)
set(i 0)
while(i LESS n)
list(GET files ${i} file)
if(file STREQUAL stack_top)
list(GET funcs ${i} func)
foreach(k RANGE 1 9)
list(GET args${k} ${i} a${k})
endforeach()
# We've found a file we're looking for. Call the finalizer.
if(${CMAKE_VERSION} VERSION_LESS "3.18.0")
# Make finalizer known functions here:
if(func STREQUAL "qt_finalize_module")
qt_finalize_module(${a1} ${a2} ${a3} ${a4} ${a5} ${a6} ${a7} ${a8} ${a9})
elseif(func STREQUAL "qt_finalize_plugin")
qt_finalize_plugin(${a1} ${a2} ${a3} ${a4} ${a5} ${a6} ${a7} ${a8} ${a9})
else()
message(FATAL_ERROR "qt_watch_current_list_dir doesn't know about ${func}. Consider adding it.")
endif()
else()
cmake_language(CALL ${func} ${a1} ${a2} ${a3} ${a4} ${a5} ${a6} ${a7} ${a8} ${a9})
endif()
list(REMOVE_AT files ${i})
list(REMOVE_AT funcs ${i})
foreach(k RANGE 1 9)
list(REMOVE_AT args${k} ${i})
endforeach()
math(EXPR n "${n} - 1")
else()
math(EXPR i "${i} + 1")
endif()
endwhile()
set_property(GLOBAL PROPERTY QT_LIST_FILE_FINALIZER_FILES ${files})
set_property(GLOBAL PROPERTY QT_LIST_FILE_FINALIZER_FUNCS ${funcs})
foreach(i RANGE 1 9)
set_property(GLOBAL PROPERTY QT_LIST_FILE_FINALIZER_ARGV${i} "${args${i}}")
endforeach()
endfunction()
variable_watch(CMAKE_CURRENT_LIST_DIR qt_watch_current_list_dir)
# Set target properties that are the same for all modules, plugins, executables
# and 3rdparty libraries.
function(qt_set_common_target_properties target)
if(FEATURE_static_runtime)
if(MSVC)
set_property(TARGET ${target} PROPERTY
MSVC_RUNTIME_LIBRARY "MultiThreaded$<$<CONFIG:Debug>:Debug>")
elseif(MINGW)
target_link_options(${target} INTERFACE "LINKER:-static")
endif()
endif()
endfunction()
# Set common, informational target properties.
#
# On Windows, these properties are used to generate the version information resource.
function(qt_set_target_info_properties target)
cmake_parse_arguments(arg "" "${__default_target_info_args}" "" ${ARGN})
if("${arg_TARGET_VERSION}" STREQUAL "")
set(arg_TARGET_VERSION "${PROJECT_VERSION}.0")
endif()
if("${arg_TARGET_PRODUCT}" STREQUAL "")
set(arg_TARGET_PRODUCT "Qt6")
endif()
if("${arg_TARGET_DESCRIPTION}" STREQUAL "")
set(arg_TARGET_DESCRIPTION "C++ Application Development Framework")
endif()
if("${arg_TARGET_COMPANY}" STREQUAL "")
set(arg_TARGET_COMPANY "The Qt Company Ltd.")
endif()
if("${arg_TARGET_COPYRIGHT}" STREQUAL "")
set(arg_TARGET_COPYRIGHT "Copyright (C) 2020 The Qt Company Ltd.")
endif()
set_target_properties(${target} PROPERTIES
QT_TARGET_VERSION "${arg_TARGET_VERSION}"
QT_TARGET_COMPANY_NAME "${arg_TARGET_COMPANY}"
QT_TARGET_DESCRIPTION "${arg_TARGET_DESCRIPTION}"
QT_TARGET_COPYRIGHT "${arg_TARGET_COPYRIGHT}"
QT_TARGET_PRODUCT_NAME "${arg_TARGET_PRODUCT}")
endfunction()
# This is the main entry function for creating a Qt module, that typically
# consists of a library, public header files, private header files and configurable
# features.
#
# A CMake target with the specified target parameter is created. If the current source
# directory has a configure.cmake file, then that is also processed for feature definition
# and testing. Any features defined as well as any features coming from dependencies to
# this module are imported into the scope of the calling feature.
#
# Target is without leading "Qt". So e.g. the "QtCore" module has the target "Core".
function(qt_add_module target)
qt_internal_module_info(module "${target}")
# Process arguments:
qt_parse_all_arguments(arg "qt_add_module"
"NO_MODULE_HEADERS;STATIC;DISABLE_TOOLS_EXPORT;EXCEPTIONS;INTERNAL_MODULE;NO_SYNC_QT;NO_PRIVATE_MODULE;HEADER_MODULE;GENERATE_METATYPES;NO_CONFIG_HEADER_FILE;SKIP_DEPENDS_INCLUDE"
"MODULE_INCLUDE_NAME;CONFIG_MODULE_NAME;PRECOMPILED_HEADER;CONFIGURE_FILE_PATH;${__default_target_info_args}"
"${__default_private_args};${__default_public_args};${__default_private_module_args};QMAKE_MODULE_CONFIG;EXTRA_CMAKE_FILES;EXTRA_CMAKE_INCLUDES;NO_PCH_SOURCES" ${ARGN})
qt_internal_add_qt_repo_known_module("${target}")
if(NOT DEFINED arg_CONFIG_MODULE_NAME)
set(arg_CONFIG_MODULE_NAME "${module_lower}")
endif()
### Define Targets:
set(is_interface_lib 0)
set(is_shared_lib 0)
if(${arg_HEADER_MODULE})
add_library("${target}" INTERFACE)
set(is_interface_lib 1)
elseif(${arg_STATIC})
add_library("${target}" STATIC)
elseif(${QT_BUILD_SHARED_LIBS})
add_library("${target}" SHARED)
set(is_shared_lib 1)
else()
add_library("${target}" STATIC)
endif()
set(property_prefix "INTERFACE_")
if(NOT arg_HEADER_MODULE)
qt_set_common_target_properties(${target})
set(property_prefix "")
endif()
set_target_properties(${target} PROPERTIES
_qt_config_module_name "${arg_CONFIG_MODULE_NAME}"
${property_prefix}QT_QMAKE_MODULE_CONFIG "${arg_QMAKE_MODULE_CONFIG}")
set_property(TARGET "${target}" APPEND PROPERTY EXPORT_PROPERTIES _qt_config_module_name)
set(is_framework 0)
if(QT_FEATURE_framework AND NOT ${arg_HEADER_MODULE} AND NOT ${arg_STATIC})
set(is_framework 1)
set_target_properties(${target} PROPERTIES
FRAMEWORK TRUE
FRAMEWORK_VERSION ${PROJECT_VERSION_MAJOR}
MACOSX_FRAMEWORK_IDENTIFIER org.qt-project.Qt${target}
MACOSX_FRAMEWORK_BUNDLE_VERSION ${PROJECT_VERSION}
MACOSX_FRAMEWORK_SHORT_VERSION_STRING ${PROJECT_VERSION_MAJOR}.${PROJECT_VERSION_MINOR}
)
endif()
if(QT_FEATURE_reduce_relocations AND UNIX AND NOT is_interface_lib)
# On x86 and x86-64 systems with ELF binaries (especially Linux), due to
# a new optimization in GCC 5.x in combination with a recent version of
# GNU binutils, compiling Qt applications with -fPIE is no longer
# enough.
# Applications now need to be compiled with the -fPIC option if the Qt option
# \"reduce relocations\" is active.
target_compile_options(${target} INTERFACE -fPIC)
if(GCC AND is_shared_lib)
target_link_options(${target} PRIVATE LINKER:-Bsymbolic-functions)
endif()
endif()
if(QT_FEATURE_separate_debug_info AND is_shared_lib AND (UNIX OR MINGW))
qt_enable_separate_debug_info(${target} ${INSTALL_LIBDIR})
endif()
if (ANDROID)
qt_android_apply_arch_suffix("${target}")
endif()
qt_internal_add_target_aliases("${target}")
qt_skip_warnings_are_errors_when_repo_unclean("${target}")
# Add _private target to link against the private headers:
if(NOT ${arg_NO_PRIVATE_MODULE})
set(target_private "${target}Private")
add_library("${target_private}" INTERFACE)
qt_internal_add_target_aliases("${target_private}")
set_target_properties(${target_private} PROPERTIES
_qt_config_module_name ${arg_CONFIG_MODULE_NAME}_private)
set_property(TARGET "${target_private}" APPEND PROPERTY
EXPORT_PROPERTIES _qt_config_module_name)
endif()
if(NOT arg_HEADER_MODULE)
set_target_properties(${target} PROPERTIES
LIBRARY_OUTPUT_DIRECTORY "${QT_BUILD_DIR}/${INSTALL_LIBDIR}"
RUNTIME_OUTPUT_DIRECTORY "${QT_BUILD_DIR}/${INSTALL_BINDIR}"
ARCHIVE_OUTPUT_DIRECTORY "${QT_BUILD_DIR}/${INSTALL_LIBDIR}"
VERSION ${PROJECT_VERSION}
SOVERSION ${PROJECT_VERSION_MAJOR}
)
qt_set_target_info_properties(${target} ${ARGN})
qt_handle_multi_config_output_dirs("${target}")
if(NOT BUILD_SHARED_LIBS AND LINUX)
# Horrible workaround for static build failures due to incorrect static library link
# order. By increasing the multiplicity to 3, each library cycle will be repeated
# 3 times on the link line, reducing the probability of undefined symbols at
# link time.
# These failures are only observed on Linux with the ld linker (not sure about
# ld.gold).
# Allow opting out and modifying the value via cache value, in case if we urgently
# need to increase it without waiting for the qtbase change to propagate to
# other dependent repos.
# The proper fix will be to get rid of the cycles in the future.
# See QTBUG-83498 for details.
set(default_link_cycle_multiplicity "3")
if(DEFINED QT_LINK_CYCLE_MULTIPLICITY)
set(default_link_cycle_multiplicity "${QT_LINK_CYCLE_MULTIPLICITY}")
endif()
if(default_link_cycle_multiplicity)
set_property(TARGET "${target}"
PROPERTY
LINK_INTERFACE_MULTIPLICITY "${default_link_cycle_multiplicity}")
endif()
endif()
if (arg_SKIP_DEPENDS_INCLUDE)
set_target_properties(${target} PROPERTIES QT_MODULE_SKIP_DEPENDS_INCLUDE TRUE)
endif()
if(is_framework)
set_target_properties(${target} PROPERTIES
OUTPUT_NAME Qt${target}
)
else()
set_target_properties(${target} PROPERTIES
OUTPUT_NAME "${INSTALL_CMAKE_NAMESPACE}${target}"
)
endif()
qt_internal_apply_win_prefix_and_suffix("${target}")
if (WIN32 AND BUILD_SHARED_LIBS)
qt6_generate_win32_rc_file(${target})
endif()
endif()
# Module headers:
if(${arg_NO_MODULE_HEADERS} OR ${arg_NO_SYNC_QT})
set_target_properties("${target}" PROPERTIES INTERFACE_MODULE_HAS_HEADERS OFF)
else()
if(arg_MODULE_INCLUDE_NAME)
set(module_include_name ${arg_MODULE_INCLUDE_NAME})
else()
set(module_include_name ${module})
endif()
set_target_properties("${target}" PROPERTIES INTERFACE_MODULE_INCLUDE_NAME "${module_include_name}")
# Use QT_BUILD_DIR for the syncqt call.
# So we either write the generated files into the qtbase non-prefix build root, or the
# module specific build root.
qt_ensure_sync_qt()
set(syncqt_full_command "${HOST_PERL}" -w "${QT_SYNCQT}"
-quiet
-check-includes
-module "${module_include_name}"
-version "${PROJECT_VERSION}"
-outdir "${QT_BUILD_DIR}"
-builddir "${PROJECT_BINARY_DIR}"
"${PROJECT_SOURCE_DIR}")
message(STATUS "Running syncqt for module: '${module_include_name}' ")
execute_process(COMMAND ${syncqt_full_command})
set_target_properties("${target}" PROPERTIES INTERFACE_MODULE_HAS_HEADERS ON)
### FIXME: Can we replace headers.pri?
set(module_include_dir "${QT_BUILD_DIR}/${INSTALL_INCLUDEDIR}/${module_include_name}")
qt_read_headers_pri("${module_include_dir}" "module_headers")
set(module_depends_header "${module_include_dir}/${module}Depends")
if(is_framework)
if(NOT is_interface_lib)
set(public_headers_to_copy "${module_headers_public}" "${module_depends_header}")
qt_copy_framework_headers(${target} PUBLIC "${public_headers_to_copy}")
qt_copy_framework_headers(${target} PRIVATE "${module_headers_private}")
endif()
else()
set_property(TARGET ${target} APPEND PROPERTY PUBLIC_HEADER "${module_headers_public}")
set_property(TARGET ${target} APPEND PROPERTY PUBLIC_HEADER ${module_depends_header})
set_property(TARGET ${target} APPEND PROPERTY PRIVATE_HEADER "${module_headers_private}")
endif()
if (NOT ${arg_HEADER_MODULE})
set_property(TARGET "${target}" PROPERTY MODULE_HEADER "${module_include_dir}/${module_include_name}")
endif()
if(module_headers_qpa)
if(is_framework)
qt_copy_framework_headers(${target} QPA "${module_headers_qpa}")
else()
qt_install(
FILES ${module_headers_qpa}
DESTINATION ${INSTALL_INCLUDEDIR}/${module}/${PROJECT_VERSION}/${module_include_name}/qpa)
endif()
endif()
endif()
if(NOT arg_HEADER_MODULE)
# This property is used for super builds with static libraries. We use
# it in QtPlugins.cmake.in to avoid "polluting" the dependency chain
# for the target in it's project directory.
# E.g: When we process find_package(Qt6 ... Gui) in QtDeclarative, the
# rules in QtPugins.cmake add all the known Gui plugins as interface
# dependencies. This in turn causes circular dependencies on every
# plugin which links against Gui. Plugin A -> GUI -> Plugin A ....
set_target_properties(${target} PROPERTIES QT_BUILD_PROJECT_NAME ${PROJECT_NAME})
# Plugin types associated to a module
if(NOT "x${arg_PLUGIN_TYPES}" STREQUAL "x")
# Reset the variable containing the list of plugins for the given plugin type
foreach(plugin_type ${arg_PLUGIN_TYPES})
qt_get_sanitized_plugin_type("${plugin_type}" plugin_type)
set_property(TARGET "${target}" APPEND PROPERTY MODULE_PLUGIN_TYPES "${plugin_type}")
qt_internal_add_qt_repo_known_plugin_types("${plugin_type}")
endforeach()
# Save the non-sanitized plugin type values for qmake consumption via .pri files.
set_property(TARGET "${target}"
PROPERTY QMAKE_MODULE_PLUGIN_TYPES "${arg_PLUGIN_TYPES}")
endif()
endif()
qt_internal_library_deprecation_level(deprecation_define)
if(NOT arg_HEADER_MODULE)
qt_autogen_tools_initial_setup(${target})
endif()
set(private_includes
"$<BUILD_INTERFACE:${CMAKE_CURRENT_SOURCE_DIR}>"
"$<BUILD_INTERFACE:${CMAKE_CURRENT_BINARY_DIR}>"
${arg_INCLUDE_DIRECTORIES}
)
set(public_includes "")
set(public_headers_list "public_includes")
if(is_framework)
set(public_headers_list "private_includes")
endif()
# Make sure the BUILD_INTERFACE include paths come before the framework headers, so that the
# the compiler prefers the build dir includes.
#
# Make sure to add non-framework "build_dir/include" as an include path for moc to find the
# currently built module headers. qmake does this too.
# Framework-style include paths are found by moc when cmQtAutoMocUic.cxx detects frameworks by
# looking at an include path and detecting a "QtFoo.framework/Headers" path.
# Make sure to create such paths for both the the BUILD_INTERFACE and the INSTALL_INTERFACE.
#
# Only add syncqt headers if they exist.
# This handles cases like QmlDevTools which do not have their own headers, but borrow them
# from another module.
if(NOT arg_NO_SYNC_QT AND NOT arg_NO_MODULE_HEADERS)
# Don't include private headers unless they exist, aka syncqt created them.
if(module_headers_private)
list(APPEND private_includes
"$<BUILD_INTERFACE:${module_include_dir}/${PROJECT_VERSION}>"
"$<BUILD_INTERFACE:${module_include_dir}/${PROJECT_VERSION}/${module}>")
endif()
list(APPEND public_includes
# For the syncqt headers
"$<BUILD_INTERFACE:${module_repo_include_dir}>"
"$<BUILD_INTERFACE:${module_include_dir}>")
endif()
if(is_framework)
set(fw_bundle_subdir "${INSTALL_LIBDIR}/Qt${target}.framework")
list(APPEND public_includes
# Add the lib/Foo.framework dir as include path to let CMake generate
# the -F compiler flag for framework-style includes to work.
"$<INSTALL_INTERFACE:${fw_bundle_subdir}>"
# Add the framework Headers subdir, so that non-framework-style includes work. The
# BUILD_INTERFACE Headers symlink was previously claimed not to exist at the relevant
# time, and a fully specified Header path was used instead. This doesn't seem to be a
# problem anymore.
"$<BUILD_INTERFACE:${QT_BUILD_DIR}/${fw_bundle_subdir}/Headers>"
"$<INSTALL_INTERFACE:${fw_bundle_subdir}/Headers>"
)
endif()
if(NOT arg_NO_MODULE_HEADERS AND NOT arg_NO_SYNC_QT)
# For the syncqt headers
list(APPEND ${public_headers_list} "$<INSTALL_INTERFACE:${INSTALL_INCLUDEDIR}/${module}>")
endif()
list(APPEND ${public_headers_list} ${arg_PUBLIC_INCLUDE_DIRECTORIES})
set(header_module)
if(arg_HEADER_MODULE)
set(header_module "HEADER_MODULE")
# Provide a *_timestamp target that can be used to trigger the build of custom_commands.
set(timestamp_file "${CMAKE_CURRENT_BINARY_DIR}/timestamp")
add_custom_command(OUTPUT "${timestamp_file}"
COMMAND ${CMAKE_COMMAND} -E touch "${timestamp_file}"
DEPENDS ${module_headers_public}
VERBATIM)
add_custom_target(${target}_timestamp ALL DEPENDS "${timestamp_file}")
endif()
set(defines_for_extend_target "")
if(NOT arg_HEADER_MODULE)
list(APPEND defines_for_extend_target
QT_NO_CAST_TO_ASCII QT_ASCII_CAST_WARNINGS
QT_MOC_COMPAT #we don't need warnings from calling moc code in our generated code
QT_USE_QSTRINGBUILDER
QT_DEPRECATED_WARNINGS
QT_BUILDING_QT
QT_BUILD_${module_define}_LIB ### FIXME: use QT_BUILD_ADDON for Add-ons or remove if we don't have add-ons anymore
"${deprecation_define}"
)
endif()
qt_extend_target("${target}"
${header_module}
SOURCES ${arg_SOURCES}
INCLUDE_DIRECTORIES
${private_includes}
PUBLIC_INCLUDE_DIRECTORIES
${public_includes}
PUBLIC_DEFINES
${arg_PUBLIC_DEFINES}
QT_${module_define}_LIB
DEFINES
${arg_DEFINES}
${defines_for_extend_target}
PUBLIC_LIBRARIES ${arg_PUBLIC_LIBRARIES}
LIBRARIES ${arg_LIBRARIES} Qt::PlatformModuleInternal
PRIVATE_MODULE_INTERFACE ${arg_PRIVATE_MODULE_INTERFACE}
FEATURE_DEPENDENCIES ${arg_FEATURE_DEPENDENCIES}
DBUS_ADAPTOR_SOURCES ${arg_DBUS_ADAPTOR_SOURCES}
DBUS_ADAPTOR_FLAGS ${arg_DBUS_ADAPTOR_FLAGS}
DBUS_INTERFACE_SOURCES ${arg_DBUS_INTERFACE_SOURCES}
DBUS_INTERFACE_FLAGS ${arg_DBUS_INTERFACE_FLAGS}
COMPILE_OPTIONS ${arg_COMPILE_OPTIONS}
PUBLIC_COMPILE_OPTIONS ${arg_PUBLIC_COMPILE_OPTIONS}
LINK_OPTIONS ${arg_LINK_OPTIONS}
PUBLIC_LINK_OPTIONS ${arg_PUBLIC_LINK_OPTIONS}
MOC_OPTIONS ${arg_MOC_OPTIONS}
ENABLE_AUTOGEN_TOOLS ${arg_ENABLE_AUTOGEN_TOOLS}
DISABLE_AUTOGEN_TOOLS ${arg_DISABLE_AUTOGEN_TOOLS}
PRECOMPILED_HEADER ${arg_PRECOMPILED_HEADER}
NO_PCH_SOURCES ${arg_NO_PCH_SOURCES}
)
if(NOT ${arg_EXCEPTIONS} AND NOT ${arg_HEADER_MODULE})
qt_internal_set_no_exceptions_flags("${target}")
endif()
set(configureFile "${CMAKE_CURRENT_SOURCE_DIR}/configure.cmake")
if(arg_CONFIGURE_FILE_PATH)
set(configureFile "${arg_CONFIGURE_FILE_PATH}")
endif()
if(EXISTS "${configureFile}" AND NOT arg_NO_CONFIG_HEADER_FILE)
qt_feature_module_begin(
LIBRARY "${target}"
PUBLIC_FILE "qt${arg_CONFIG_MODULE_NAME}-config.h"
PRIVATE_FILE "qt${arg_CONFIG_MODULE_NAME}-config_p.h"
PUBLIC_DEPENDENCIES ${arg_FEATURE_DEPENDENCIES}
PRIVATE_DEPENDENCIES ${arg_FEATURE_DEPENDENCIES}
)
include(${configureFile})
qt_feature_module_end("${target}")
set_property(TARGET "${target}" APPEND PROPERTY PUBLIC_HEADER "${CMAKE_CURRENT_BINARY_DIR}/qt${arg_CONFIG_MODULE_NAME}-config.h")
set_property(TARGET "${target}" APPEND PROPERTY PRIVATE_HEADER "${CMAKE_CURRENT_BINARY_DIR}/qt${arg_CONFIG_MODULE_NAME}-config_p.h")
endif()
if(NOT arg_HEADER_MODULE)
if(DEFINED module_headers_private)
qt_internal_add_linker_version_script("${target}" PRIVATE_HEADERS ${module_headers_private} ${module_headers_qpa})
else()
qt_internal_add_linker_version_script("${target}")
endif()
endif()
# Handle injections. Aka create forwarding headers for certain headers that have been
# automatically generated in the build dir (for example qconfig.h, qtcore-config.h,
# qvulkanfunctions.h, etc)
# module_headers_injections come from the qt_read_headers_pri() call.
# extra_library_injections come from the qt_feature_module_end() call.
set(final_injections "")
if(module_headers_injections)
string(APPEND final_injections "${module_headers_injections} ")
endif()
if(extra_library_injections)
string(APPEND final_injections "${extra_library_injections} ")
endif()
if(final_injections)
qt_install_injections(${target} "${QT_BUILD_DIR}" "${QT_INSTALL_DIR}" ${final_injections})
endif()
# Handle creation of cmake files for consumers of find_package().
set(path_suffix "${INSTALL_CMAKE_NAMESPACE}${target}")
qt_path_join(config_build_dir ${QT_CONFIG_BUILD_DIR} ${path_suffix})
qt_path_join(config_install_dir ${QT_CONFIG_INSTALL_DIR} ${path_suffix})
set(extra_cmake_files)
set(extra_cmake_includes)
if (EXISTS "${CMAKE_CURRENT_LIST_DIR}/${INSTALL_CMAKE_NAMESPACE}${target}Macros.cmake")
list(APPEND extra_cmake_files "${CMAKE_CURRENT_LIST_DIR}/${INSTALL_CMAKE_NAMESPACE}${target}Macros.cmake")
list(APPEND extra_cmake_includes "${INSTALL_CMAKE_NAMESPACE}${target}Macros.cmake")
endif()
if (EXISTS "${CMAKE_CURRENT_LIST_DIR}/${INSTALL_CMAKE_NAMESPACE}${target}ConfigExtras.cmake.in")
configure_file("${CMAKE_CURRENT_LIST_DIR}/${INSTALL_CMAKE_NAMESPACE}${target}ConfigExtras.cmake.in"
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}ConfigExtras.cmake"
@ONLY)
list(APPEND extra_cmake_files "${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}ConfigExtras.cmake")
list(APPEND extra_cmake_includes "${INSTALL_CMAKE_NAMESPACE}${target}ConfigExtras.cmake")
endif()
foreach(cmake_file IN LISTS arg_EXTRA_CMAKE_FILES)
get_filename_component(basename ${cmake_file} NAME)
file(COPY ${cmake_file} DESTINATION ${config_build_dir})
list(APPEND extra_cmake_files "${config_build_dir}/${basename}")
endforeach()
list(APPEND extra_cmake_includes ${arg_EXTRA_CMAKE_INCLUDES})
set(extra_cmake_code "")
if(target STREQUAL Core)
# Propagate non-build related variables that are needed for consuming Qt packages.
# Do this in CoreConfig instead of Qt6Config, so that consumers can also use
# find_package(Qt6Core) instead of find_package(Qt6 COMPONENTS Core)
string(APPEND extra_cmake_code "
set(QT_CMAKE_EXPORT_NAMESPACE ${QT_CMAKE_EXPORT_NAMESPACE})")
endif()
# Generate metatypes
set(QT_MODULE_HAS_META_TYPES_FILE FALSE)
if (${arg_GENERATE_METATYPES})
set(QT_MODULE_HAS_META_TYPES_FILE TRUE)
set(metatypes_install_dir ${INSTALL_LIBDIR}/metatypes)
set(args)
if (NOT QT_WILL_INSTALL)
set(args COPY_OVER_INSTALL INSTALL_DIR "${QT_BUILD_DIR}/${metatypes_install_dir}")
else()
set(args INSTALL_DIR "${metatypes_install_dir}")
endif()
qt6_generate_meta_types_json_file(${target} ${args})
endif()
configure_package_config_file(
"${QT_CMAKE_DIR}/QtModuleConfig.cmake.in"
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}Config.cmake"
INSTALL_DESTINATION "${config_install_dir}"
)
if (EXISTS "${CMAKE_CURRENT_LIST_DIR}/${INSTALL_CMAKE_NAMESPACE}${target}BuildInternals.cmake")
configure_file("${CMAKE_CURRENT_LIST_DIR}/${INSTALL_CMAKE_NAMESPACE}${target}BuildInternals.cmake"
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}BuildInternals.cmake"
@ONLY)
list(APPEND extra_cmake_files "${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}BuildInternals.cmake")
endif()
write_basic_package_version_file(
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}ConfigVersion.cmake"
VERSION ${PROJECT_VERSION}
COMPATIBILITY AnyNewerVersion
)
qt_install(FILES
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}Config.cmake"
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}ConfigVersion.cmake"
${extra_cmake_files}
DESTINATION "${config_install_dir}"
COMPONENT Devel
)
file(COPY ${extra_cmake_files} DESTINATION "${config_build_dir}")
set(exported_targets ${target})
if(NOT ${arg_NO_PRIVATE_MODULE})
list(APPEND exported_targets ${target_private})
endif()
set(export_name "${INSTALL_CMAKE_NAMESPACE}${target}Targets")
qt_install(TARGETS ${exported_targets}
EXPORT ${export_name}
RUNTIME DESTINATION ${INSTALL_BINDIR}
LIBRARY DESTINATION ${INSTALL_LIBDIR}
ARCHIVE DESTINATION ${INSTALL_LIBDIR}
FRAMEWORK DESTINATION ${INSTALL_LIBDIR}
PUBLIC_HEADER DESTINATION ${INSTALL_INCLUDEDIR}/${module}
PRIVATE_HEADER DESTINATION ${INSTALL_INCLUDEDIR}/${module}/${PROJECT_VERSION}/${module}/private
)
qt_apply_rpaths(TARGET "${target}" INSTALL_PATH "${INSTALL_LIBDIR}" RELATIVE_RPATH)
if (ANDROID AND NOT arg_HEADER_MODULE)
# Record install library location so it can be accessed by
# qt_android_dependencies without having to specify it again.
set_target_properties(${target} PROPERTIES
QT_ANDROID_MODULE_INSTALL_DIR ${INSTALL_LIBDIR})
endif()
qt_install(EXPORT ${export_name}
NAMESPACE ${QT_CMAKE_EXPORT_NAMESPACE}::
DESTINATION ${config_install_dir})
qt_internal_export_modern_cmake_config_targets_file(
TARGETS ${exported_targets}
EXPORT_NAME_PREFIX ${INSTALL_CMAKE_NAMESPACE}${target}
CONFIG_INSTALL_DIR "${config_install_dir}")
if (${arg_INTERNAL_MODULE})
set(arg_INTERNAL_MODULE "INTERNAL_MODULE")
else()
unset(arg_INTERNAL_MODULE)
endif()
### fixme: cmake is missing a built-in variable for this. We want to apply it only to modules and plugins
# that belong to Qt.
if(NOT arg_HEADER_MODULE)
qt_internal_add_link_flags_no_undefined("${target}")
endif()
set(interface_includes "")
# Handle cases like QmlDevTools which do not have their own headers, but rather borrow them
# from another module.
if(NOT arg_NO_SYNC_QT)
list(APPEND interface_includes "$<BUILD_INTERFACE:${CMAKE_CURRENT_BINARY_DIR}>")
# syncqt.pl does not create a private header directory like 'include/6.0/QtFoo' unless
# the module has foo_p.h header files. For QtZlib, there are no such private headers, so we
# need to make sure not to add such include paths unless the directory exists, otherwise
# consumers of the module will fail at CMake generation time stating that
# INTERFACE_INCLUDE_DIRECTORIES contains a non-existent path.
if(NOT arg_NO_MODULE_HEADERS
AND EXISTS "${module_include_dir}/${PROJECT_VERSION}/${module}")
list(APPEND interface_includes
"$<BUILD_INTERFACE:${module_include_dir}/${PROJECT_VERSION}>"
"$<BUILD_INTERFACE:${module_include_dir}/${PROJECT_VERSION}/${module}>")
if(is_framework)
set(fw_headers_dir
"${INSTALL_LIBDIR}/${module}.framework/Headers/")
list(APPEND interface_includes
"$<INSTALL_INTERFACE:${fw_headers_dir}${PROJECT_VERSION}>"
"$<INSTALL_INTERFACE:${fw_headers_dir}${PROJECT_VERSION}/${module}>")
else()
list(APPEND interface_includes
"$<INSTALL_INTERFACE:${INSTALL_INCLUDEDIR}/${module}/${PROJECT_VERSION}>"
"$<INSTALL_INTERFACE:${INSTALL_INCLUDEDIR}/${module}/${PROJECT_VERSION}/${module}>")
endif()
endif()
endif()
if(NOT ${arg_NO_PRIVATE_MODULE})
target_include_directories("${target_private}" INTERFACE ${interface_includes})
target_link_libraries("${target_private}" INTERFACE "${target}")
endif()
if(is_framework AND NOT is_interface_lib)
qt_finalize_framework_headers_copy(${target})
endif()
qt_describe_module(${target})
qt_add_list_file_finalizer(qt_finalize_module ${target} ${arg_INTERNAL_MODULE} ${header_module})
endfunction()
function(qt_finalize_module target)
qt_generate_prl_file(${target} "${INSTALL_LIBDIR}")
qt_generate_module_pri_file("${target}" ${ARGN})
endfunction()
# Add libraries to variable ${out_libs_var} in a way that duplicates
# are added at the end. This ensures the library order needed for the
# linker.
function(qt_merge_libs out_libs_var)
foreach(dep ${ARGN})
list(REMOVE_ITEM ${out_libs_var} ${dep})
list(APPEND ${out_libs_var} ${dep})
endforeach()
set(${out_libs_var} ${${out_libs_var}} PARENT_SCOPE)
endfunction()
# Collects the library dependencies of a target.
# This takes into account transitive usage requirements.
function(qt_collect_libs target out_var)
qt_internal_walk_libs("${target}" "${out_var}" "qt_collect_libs_dict" "collect_libs")
set("${out_var}" "${${out_var}}" PARENT_SCOPE)
endfunction()
# Walks a target's link libraries recursively, and performs some actions (poor man's polypmorphism)
#
# out_var is the name of the variable where the result will be assigned. The result is a list of
# libraries, mostly in generator expression form.
# dict_name is used for caching the result, and preventing the same target from being processed
# twice
# operation is a string to tell the function what to do
function(qt_internal_walk_libs target out_var dict_name operation)
set(collected ${ARGN})
if(target IN_LIST collected)
return()
endif()
list(APPEND collected ${target})
if(NOT TARGET ${dict_name})
add_library(${dict_name} INTERFACE IMPORTED GLOBAL)
endif()
get_target_property(libs ${dict_name} INTERFACE_${target})
if(NOT libs)
unset(libs)
get_target_property(target_libs ${target} INTERFACE_LINK_LIBRARIES)
if(NOT target_libs)
unset(target_libs)
endif()
get_target_property(target_type ${target} TYPE)
if(target_type STREQUAL "STATIC_LIBRARY")
get_target_property(link_libs ${target} LINK_LIBRARIES)
if(link_libs)
list(APPEND target_libs ${link_libs})
endif()
endif()
foreach(lib ${target_libs})
# Cannot use $<TARGET_POLICY:...> in add_custom_command.
# Check the policy now, and replace the generator expression with the value.
while(lib MATCHES "\\$<TARGET_POLICY:([^>]+)>")
cmake_policy(GET ${CMAKE_MATCH_1} value)
if(value STREQUAL "NEW")
set(value "TRUE")
else()
set(value "FALSE")
endif()
string(REPLACE "${CMAKE_MATCH_0}" "${value}" lib "${lib}")
endwhile()
# Fix up $<TARGET_PROPERTY:FOO> expressions that refer to the "current" target.
# Those cannot be used with add_custom_command.
while(lib MATCHES "\\$<TARGET_PROPERTY:([^,>]+)>")
string(REPLACE "${CMAKE_MATCH_0}" "$<TARGET_PROPERTY:${target},${CMAKE_MATCH_1}>"
lib "${lib}")
endwhile()
if(lib MATCHES "^\\$<TARGET_OBJECTS:")
# Skip object files.
continue()
elseif(lib MATCHES "^\\$<LINK_ONLY:(.*)>$")
set(lib_target ${CMAKE_MATCH_1})
else()
set(lib_target ${lib})
endif()
if(TARGET ${lib_target})
if ("${lib_target}" MATCHES "^Qt::(.*)")
# If both, Qt::Foo and Foo targets exist, prefer the target name without
# namespace. Which one is preferred doesn't really matter. This code exists to
# avoid ending up with both, Qt::Foo and Foo in our dependencies.
set(namespaceless_lib_target "${CMAKE_MATCH_1}")
if(TARGET namespaceless_lib_target)
set(lib_target ${namespaceless_lib_target})
endif()
endif()
get_target_property(lib_target_type ${lib_target} TYPE)
if(lib_target_type STREQUAL "INTERFACE_LIBRARY")
qt_internal_walk_libs(
${lib_target} lib_libs "${dict_name}" "${operation}" ${collected})
if(lib_libs)
qt_merge_libs(libs ${lib_libs})
set(is_module 0)
endif()
else()
qt_merge_libs(libs "$<TARGET_FILE:${lib_target}>")
qt_internal_walk_libs(
${lib_target} lib_libs "${dict_name}" "${operation}" ${collected})
if(lib_libs)
qt_merge_libs(libs ${lib_libs})
endif()
endif()
if(operation STREQUAL "promote_global")
set(lib_target_unaliased "${lib_target}")
get_target_property(aliased_target ${lib_target} ALIASED_TARGET)
if(aliased_target)
set(lib_target_unaliased ${aliased_target})
endif()
get_property(is_imported TARGET ${lib_target_unaliased} PROPERTY IMPORTED)
get_property(is_global TARGET ${lib_target_unaliased} PROPERTY IMPORTED_GLOBAL)
if(NOT is_global AND is_imported)
set_property(TARGET ${lib_target_unaliased} PROPERTY IMPORTED_GLOBAL TRUE)
endif()
endif()
else()
set(final_lib_name_to_merge "${lib_target}")
if(lib_target MATCHES "/([^/]+).framework$")
set(final_lib_name_to_merge "-framework ${CMAKE_MATCH_1}")
endif()
qt_merge_libs(libs "${final_lib_name_to_merge}")
endif()
endforeach()
set_target_properties(${dict_name} PROPERTIES INTERFACE_${target} "${libs}")
endif()
set(${out_var} ${libs} PARENT_SCOPE)
endfunction()
# Generate a qmake .prl file for the given target.
# The install_dir argument is a relative path, for example "lib".
function(qt_generate_prl_file target install_dir)
get_target_property(target_type ${target} TYPE)
if(target_type STREQUAL "INTERFACE_LIBRARY")
return()
endif()
get_target_property(rcc_objects ${target} QT_RCC_OBJECTS)
if(rcc_objects)
if(QT_WILL_INSTALL)
list(TRANSFORM rcc_objects PREPEND "$$[QT_INSTALL_LIBS]/")
endif()
else()
unset(rcc_objects)
endif()
unset(prl_libs)
qt_collect_libs(${target} prl_libs)
unset(prl_config)
if(target_type STREQUAL "STATIC_LIBRARY")
list(APPEND prl_config static)
elseif(target_type STREQUAL "SHARED_LIBRARY")
list(APPEND prl_config shared)
endif()
if (NOT target_type STREQUAL "INTERFACE_LIBRARY")
get_target_property(is_fw ${target} FRAMEWORK)
if(is_fw)
list(APPEND prl_config lib_bundle)
endif()
endif()
list(JOIN prl_config " " prl_config)
# Generate a preliminary .prl file that contains absolute paths to all libraries
if(MINGW)
# For MinGW, qmake doesn't have a lib prefix in prl files.
set(prefix_for_prl_name "")
else()
set(prefix_for_prl_name "$<TARGET_FILE_PREFIX:${target}>")
endif()
# For frameworks, the prl file should be placed under the Resources subdir.
get_target_property(is_framework ${target} FRAMEWORK)
if(is_framework)
get_target_property(fw_version ${target} FRAMEWORK_VERSION)
string(APPEND prefix_for_prl_name "Versions/${fw_version}/Resources/")
endif()
set(prl_file_name "${prefix_for_prl_name}$<TARGET_FILE_BASE_NAME:${target}>.prl")
file(GENERATE
OUTPUT "${prl_file_name}"
CONTENT
"RCC_OBJECTS = ${rcc_objects}
QMAKE_PRL_BUILD_DIR = ${CMAKE_CURRENT_BINARY_DIR}
QMAKE_PRL_TARGET = $<TARGET_FILE_NAME:${target}>
QMAKE_PRL_CONFIG = ${prl_config}
QMAKE_PRL_VERSION = ${PROJECT_VERSION}
QMAKE_PRL_LIBS_FOR_CMAKE = ${prl_libs}
"
)
# Add a custom command that prepares the .prl file for installation
qt_path_join(final_prl_file_path "${QT_BUILD_DIR}/${install_dir}" "${prl_file_name}")
qt_path_join(fake_dependency_prl_file_path
"${CMAKE_CURRENT_BINARY_DIR}" "fake_dep_prl_for_${target}.prl")
set(library_suffixes ${CMAKE_SHARED_LIBRARY_SUFFIX} ${CMAKE_STATIC_LIBRARY_SUFFIX})
add_custom_command(
OUTPUT "${fake_dependency_prl_file_path}"
DEPENDS "${CMAKE_CURRENT_BINARY_DIR}/${prl_file_name}"
"${QT_CMAKE_DIR}/QtFinishPrlFile.cmake"
COMMAND ${CMAKE_COMMAND} "-DIN_FILE=${prl_file_name}"
"-DOUT_FILE=${fake_dependency_prl_file_path}"
"-DLIBRARY_SUFFIXES=${library_suffixes}"
"-DQT_BUILD_LIBDIR=${QT_BUILD_DIR}/${INSTALL_LIBDIR}"
-P "${QT_CMAKE_DIR}/QtFinishPrlFile.cmake"
COMMAND ${CMAKE_COMMAND} -E copy_if_different
"${fake_dependency_prl_file_path}"
"${final_prl_file_path}"
VERBATIM
COMMENT "Generating prl file for target ${target}"
)
# Tell the target to depend on the fake dependency prl file, to ensure the custom command
# is executed. As a side-effect, this will also create the final_prl_file_path that uses
# generator expressions. It should not be specified as a BYPRODUCT.
# This allows proper per-file dependency tracking, without having to resort on a POST_BUILD
# step, which means that relinking would happen as well as transitive rebuilding of any
# dependees.
# This is inspired by https://gitlab.kitware.com/cmake/cmake/-/issues/20842
target_sources(${target} PRIVATE "${fake_dependency_prl_file_path}")
# Installation of the .prl file happens globally elsewhere,
# because we have no clue here what the actual file name is.
# What we know however, is the directory where the prl file is created.
# Save that for later, to install all prl files from that directory.
get_property(prl_install_dirs GLOBAL PROPERTY QT_PRL_INSTALL_DIRS)
if(NOT install_dir IN_LIST prl_install_dirs)
set_property(GLOBAL APPEND PROPERTY QT_PRL_INSTALL_DIRS "${install_dir}")
endif()
endfunction()
function(qt_export_tools module_name)
# Bail out when cross-compiling, unless QT_BUILD_TOOLS_WHEN_CROSSCOMPILING is on.
if(CMAKE_CROSSCOMPILING AND NOT QT_BUILD_TOOLS_WHEN_CROSSCOMPILING)
return()
endif()
# If no tools were defined belonging to this module, don't create a config and targets file.
if(NOT "${module_name}" IN_LIST QT_KNOWN_MODULES_WITH_TOOLS)
return()
endif()
# The tools target name. For example: CoreTools
set(target "${module_name}Tools")
set(path_suffix "${INSTALL_CMAKE_NAMESPACE}${target}")
qt_path_join(config_build_dir ${QT_CONFIG_BUILD_DIR} ${path_suffix})
qt_path_join(config_install_dir ${QT_CONFIG_INSTALL_DIR} ${path_suffix})
# Add the extra cmake statements to make the tool targets global, so it doesn't matter where
# find_package is called.
# Also assemble a list of tool targets to expose in the config file for informational purposes.
set(extra_cmake_statements "")
set(tool_targets "")
set(tool_targets_non_prefixed "")
# List of package dependencies that need be find_package'd when using the Tools package.
set(package_deps "")
foreach(tool_name ${QT_KNOWN_MODULE_${module_name}_TOOLS})
# Specific tools can have package dependencies.
# e.g. qtwaylandscanner depends on WaylandScanner (non-qt package).
get_target_property(extra_packages "${tool_name}" QT_EXTRA_PACKAGE_DEPENDENCIES)
if(extra_packages)
list(APPEND package_deps "${extra_packages}")
endif()
if (CMAKE_CROSSCOMPILING AND QT_BUILD_TOOLS_WHEN_CROSSCOMPILING)
string(REGEX REPLACE "_native$" "" tool_name ${tool_name})
endif()
set(extra_cmake_statements "${extra_cmake_statements}
if (NOT QT_NO_CREATE_TARGETS)
get_property(is_global TARGET ${INSTALL_CMAKE_NAMESPACE}::${tool_name} PROPERTY IMPORTED_GLOBAL)
if(NOT is_global)
set_property(TARGET ${INSTALL_CMAKE_NAMESPACE}::${tool_name} PROPERTY IMPORTED_GLOBAL TRUE)
endif()
endif()
")
list(APPEND tool_targets "${QT_CMAKE_EXPORT_NAMESPACE}::${tool_name}")
list(APPEND tool_targets_non_prefixed "${tool_name}")
endforeach()
string(APPEND extra_cmake_statements
"set(${QT_CMAKE_EXPORT_NAMESPACE}${module_name}Tools_TARGETS \"${tool_targets}\")")
# Extract package dependencies that were determined in QtPostProcess, but only if ${module_name}
# is an actual target.
# module_name can be a non-existent target, if the tool doesn't have an existing associated
# module, e.g. qtwaylandscanner.
if(TARGET "${module_name}")
get_target_property(module_package_deps "${module_name}" _qt_tools_package_deps)
if(module_package_deps)
list(APPEND package_deps "${module_package_deps}")
endif()
endif()
# Configure and install dependencies file for the ${module_name}Tools package.
configure_file(
"${QT_CMAKE_DIR}/QtModuleToolsDependencies.cmake.in"
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}Dependencies.cmake"
@ONLY
)
qt_install(FILES
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}Dependencies.cmake"
DESTINATION "${config_install_dir}"
COMPONENT Devel
)
# Configure and install the ${module_name}Tools package Config file.
configure_package_config_file(
"${QT_CMAKE_DIR}/QtModuleToolsConfig.cmake.in"
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}Config.cmake"
INSTALL_DESTINATION "${config_install_dir}"
)
write_basic_package_version_file(
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}ConfigVersion.cmake"
VERSION ${PROJECT_VERSION}
COMPATIBILITY AnyNewerVersion
)
qt_install(FILES
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}Config.cmake"
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}ConfigVersion.cmake"
DESTINATION "${config_install_dir}"
COMPONENT Devel
)
set(export_name "${INSTALL_CMAKE_NAMESPACE}${target}Targets")
qt_install(EXPORT "${export_name}"
NAMESPACE "${QT_CMAKE_EXPORT_NAMESPACE}::"
DESTINATION "${config_install_dir}")
# Create versionless targets file.
configure_file(
"${QT_CMAKE_DIR}/QtModuleToolsVersionlessTargets.cmake.in"
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}VersionlessTargets.cmake"
@ONLY
)
qt_install(FILES
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}VersionlessTargets.cmake"
DESTINATION "${config_install_dir}"
COMPONENT Devel
)
endfunction()
# This function records a dependency between ${target_name} and ${dep_package_name}.
# at the CMake package level.
# E.g. The Tools package that provides the qtwaylandscanner target
# needs to call find_package(WaylandScanner) (non-qt-package).
# main_target_name = qtwaylandscanner
# dep_package_name = WaylandScanner
function(qt_record_extra_package_dependency main_target_name dep_package_name dep_package_version)
if (TARGET "${main_target_name}")
get_target_property(extra_packages "${main_target_name}" QT_EXTRA_PACKAGE_DEPENDENCIES)
if(NOT extra_packages)
set(extra_packages "")
endif()
list(APPEND extra_packages "${dep_package_name}\;${dep_package_version}")
set_target_properties("${main_target_name}" PROPERTIES QT_EXTRA_PACKAGE_DEPENDENCIES
"${extra_packages}")
endif()
endfunction()
# This function records a dependency between ${main_target_name} and ${dep_target_name}
# at the CMake package level.
# E.g. Qt6CoreConfig.cmake needs to find_package(Qt6WinMain).
# main_target_name = Core
# dep_target_name = WinMain
# This is just a convenience function that deals with Qt targets and their associated packages
# instead of raw package names.
function(qt_record_extra_qt_package_dependency main_target_name dep_target_name
dep_package_version)
# WinMain -> Qt6WinMain.
qt_internal_module_info(qtfied_target_name "${dep_target_name}")
qt_record_extra_package_dependency("${main_target_name}" "${qtfied_target_name_versioned}"
"${dep_package_version}")
endfunction()
function(qt_internal_check_directory_or_type name dir type default result_var)
if ("x${dir}" STREQUAL x)
if("x${type}" STREQUAL x)
message(FATAL_ERROR "qt_internal_add_plugin called without setting either TYPE or ${name}.")
endif()
set(${result_var} "${default}" PARENT_SCOPE)
else()
set(${result_var} "${dir}" PARENT_SCOPE)
endif()
endfunction()
# Utility function to find the module to which a plug-in belongs.
# This will set the QT_MODULE target property on the plug-in - e.g. "Gui", "Sql"...
function(qt_get_module_for_plugin target target_type)
qt_internal_get_qt_all_known_modules(known_modules)
qt_get_sanitized_plugin_type("${target_type}" target_type)
foreach(qt_module ${known_modules})
get_target_property(module_type "${QT_CMAKE_EXPORT_NAMESPACE}::${qt_module}" TYPE)
# Assuming interface libraries can't have plugins. Otherwise we'll need to fix the property
# name, because the current one would be invalid for interface libraries.
if(module_type STREQUAL "INTERFACE_LIBRARY")
continue()
endif()
get_target_property(plugin_types
"${QT_CMAKE_EXPORT_NAMESPACE}::${qt_module}"
MODULE_PLUGIN_TYPES)
if(plugin_types)
foreach(plugin_type ${plugin_types})
if("${target_type}" STREQUAL "${plugin_type}")
set_target_properties("${target}" PROPERTIES QT_MODULE "${qt_module}")
return()
endif()
endforeach()
endif()
endforeach()
message(AUTHOR_WARNING "The plug-in '${target}' does not belong to any Qt module.")
endfunction()
# Collection of qt_add_plugin arguments so they can be shared across different
# plugin type wrappers
set(__qt_add_plugin_optional_args
"STATIC;EXCEPTIONS;ALLOW_UNDEFINED_SYMBOLS"
)
set(__qt_add_plugin_single_args
"TYPE;CLASS_NAME;OUTPUT_DIRECTORY;INSTALL_DIRECTORY;ARCHIVE_INSTALL_DIRECTORY;QML_TARGET_PATH;OUTPUT_NAME"
${__default_target_info_args}
)
set(__qt_add_plugin_multi_args
"${__default_private_args};${__default_public_args};DEFAULT_IF"
)
# This is the main entry point for defining Qt plugins.
# A CMake target is created with the given target. The TYPE parameter is needed to place the
# plugin into the correct plugins/ sub-directory.
function(qt_internal_add_plugin target)
qt_internal_module_info(module "${target}")
qt_internal_set_qt_known_plugins("${QT_KNOWN_PLUGINS}" "${target}")
qt_parse_all_arguments(arg "qt_internal_add_plugin"
"${__qt_add_plugin_optional_args};SKIP_INSTALL"
"${__qt_add_plugin_single_args}"
"${__qt_add_plugin_multi_args}"
"${ARGN}"
)
qt_get_sanitized_plugin_type("${arg_TYPE}" plugin_type_escaped)
set(output_directory_default "${QT_BUILD_DIR}/${INSTALL_PLUGINSDIR}/${arg_TYPE}")
set(install_directory_default "${INSTALL_PLUGINSDIR}/${arg_TYPE}")
if (arg_QML_TARGET_PATH)
set(target_path "${arg_QML_TARGET_PATH}")
set(output_directory_default "${QT_BUILD_DIR}/${INSTALL_QMLDIR}/${target_path}")
set(install_directory_default "${INSTALL_QMLDIR}/${target_path}")
endif()
# Derive the class name from the target name if it's not explicitly specified.
# Don't set it for qml plugins though.
set(plugin_class_name "")
if (NOT "${plugin_type_escaped}" STREQUAL "qml_plugin")
if (NOT arg_CLASS_NAME)
set(plugin_class_name "${target}")
else()
set(plugin_class_name "${arg_CLASS_NAME}")
endif()
endif()
qt_internal_check_directory_or_type(OUTPUT_DIRECTORY "${arg_OUTPUT_DIRECTORY}" "${arg_TYPE}"
"${output_directory_default}" output_directory)
if (NOT arg_SKIP_INSTALL)
qt_internal_check_directory_or_type(INSTALL_DIRECTORY "${arg_INSTALL_DIRECTORY}" "${arg_TYPE}"
"${install_directory_default}" install_directory)
set(archive_install_directory ${arg_ARCHIVE_INSTALL_DIRECTORY})
if (NOT archive_install_directory AND install_directory)
set(archive_install_directory "${install_directory}")
endif()
endif()
if(arg_STATIC OR NOT BUILD_SHARED_LIBS)
add_library("${target}" STATIC)
else()
add_library("${target}" MODULE)
if(APPLE)
# CMake defaults to using .so extensions for loadable modules, aka plugins,
# but Qt plugins are actually suffixed with .dylib.
set_property(TARGET "${target}" PROPERTY SUFFIX ".dylib")
endif()
qt_internal_apply_win_prefix_and_suffix("${target}")
endif()
qt_set_common_target_properties(${target})
qt_set_target_info_properties(${target} ${ARGN} TARGET_VERSION "${arg_VERSION}")
# Make sure the Qt6 plugin library names are like they were in Qt5 qmake land.
# Whereas the Qt6 CMake target names are like the Qt5 CMake target names.
set(output_name "${target}")
if(arg_OUTPUT_NAME)
set(output_name "${arg_OUTPUT_NAME}")
endif()
set_property(TARGET "${target}" PROPERTY OUTPUT_NAME "${output_name}")
# Add a custom target with the Qt5 qmake name for a more user friendly ninja experience.
if(arg_OUTPUT_NAME AND NOT TARGET "${output_name}")
add_custom_target("${output_name}")
add_dependencies("${output_name}" "${target}")
endif()
if (ANDROID)
qt_android_apply_arch_suffix("${target}")
set_target_properties(${target}
PROPERTIES
LIBRARY_OUTPUT_NAME "plugins_${arg_TYPE}_${output_name}"
)
endif()
qt_internal_add_target_aliases("${target}")
qt_skip_warnings_are_errors_when_repo_unclean("${target}")
# Disable linking of plugins against other plugins during static regular and
# super builds. The latter causes cyclic dependencies otherwise.
set_target_properties(${target} PROPERTIES QT_DEFAULT_PLUGINS 0)
set_target_properties("${target}" PROPERTIES
LIBRARY_OUTPUT_DIRECTORY "${output_directory}"
RUNTIME_OUTPUT_DIRECTORY "${output_directory}"
ARCHIVE_OUTPUT_DIRECTORY "${output_directory}"
QT_PLUGIN_TYPE "${plugin_type_escaped}"
# Save the non-sanitized plugin type values for qmake consumption via .pri files.
QT_QMAKE_PLUGIN_TYPE "${arg_TYPE}"
QT_PLUGIN_CLASS_NAME "${plugin_class_name}")
qt_handle_multi_config_output_dirs("${target}")
qt_internal_library_deprecation_level(deprecation_define)
qt_autogen_tools_initial_setup(${target})
set(static_plugin_define "")
if (arg_STATIC OR NOT QT_BUILD_SHARED_LIBS)
set(static_plugin_define "QT_STATICPLUGIN")
endif()
# Save the Qt module in the plug-in's properties
if(NOT plugin_type_escaped STREQUAL "qml_plugin")
qt_get_module_for_plugin("${target}" "${plugin_type_escaped}")
get_target_property(qt_module "${target}" QT_MODULE)
endif()
# Add the plug-in to the list of plug-ins of this module
if(TARGET "${qt_module}")
set_property(TARGET "${qt_module}" APPEND PROPERTY QT_PLUGINS "${target}")
endif()
set(_default_plugin 1)
if (DEFINED arg_DEFAULT_IF)
if (NOT ${arg_DEFAULT_IF})
set(_default_plugin 0)
endif()
endif()
set_property(TARGET "${target}" PROPERTY QT_DEFAULT_PLUGIN "${_default_plugin}")
set_property(TARGET "${target}" APPEND PROPERTY EXPORT_PROPERTIES "QT_PLUGIN_CLASS_NAME;QT_PLUGIN_TYPE;QT_MODULE;QT_DEFAULT_PLUGIN")
set(private_includes
"${CMAKE_CURRENT_SOURCE_DIR}"
"${CMAKE_CURRENT_BINARY_DIR}"
# For the syncqt headers
"$<BUILD_INTERFACE:${module_repo_include_dir}>"
${arg_INCLUDE_DIRECTORIES}
)
set(public_includes
${arg_PUBLIC_INCLUDE_DIRECTORIES}
)
qt_extend_target("${target}"
SOURCES ${arg_SOURCES}
INCLUDE_DIRECTORIES
${private_includes}
PUBLIC_INCLUDE_DIRECTORIES
${public_includes}
LIBRARIES ${arg_LIBRARIES} Qt::PlatformPluginInternal
PUBLIC_LIBRARIES ${arg_PUBLIC_LIBRARIES}
DEFINES
${arg_DEFINES}
QT_DEPRECATED_WARNINGS
"${deprecation_define}"
"${static_plugin_define}"
QT_PLUGIN
PUBLIC_DEFINES
QT_${module_define}_LIB
${arg_PUBLIC_DEFINES}
FEATURE_DEPENDENCIES ${arg_FEATURE_DEPENDENCIES}
DBUS_ADAPTOR_SOURCES "${arg_DBUS_ADAPTOR_SOURCES}"
DBUS_ADAPTOR_FLAGS "${arg_DBUS_ADAPTOR_FLAGS}"
DBUS_INTERFACE_SOURCES "${arg_DBUS_INTERFACE_SOURCES}"
DBUS_INTERFACE_FLAGS "${arg_DBUS_INTERFACE_FLAGS}"
COMPILE_OPTIONS ${arg_COMPILE_OPTIONS}
PUBLIC_COMPILE_OPTIONS ${arg_PUBLIC_COMPILE_OPTIONS}
LINK_OPTIONS ${arg_LINK_OPTIONS}
PUBLIC_LINK_OPTIONS ${arg_PUBLIC_LINK_OPTIONS}
MOC_OPTIONS ${arg_MOC_OPTIONS}
ENABLE_AUTOGEN_TOOLS ${arg_ENABLE_AUTOGEN_TOOLS}
DISABLE_AUTOGEN_TOOLS ${arg_DISABLE_AUTOGEN_TOOLS}
)
if(NOT ${arg_EXCEPTIONS})
qt_internal_set_no_exceptions_flags("${target}")
endif()
set(qt_libs_private "")
qt_internal_get_qt_all_known_modules(known_modules)
foreach(it ${known_modules})
list(FIND arg_LIBRARIES "Qt::${it}Private" pos)
if(pos GREATER -1)
list(APPEND qt_libs_private "Qt::${it}Private")
endif()
endforeach()
qt_register_target_dependencies("${target}" "${arg_PUBLIC_LIBRARIES}" "${qt_libs_private}")
qt_generate_plugin_pri_file("${target}" pri_file)
if (NOT arg_SKIP_INSTALL)
# Handle creation of cmake files for consumers of find_package().
# If we are part of a Qt module, the plugin cmake files are installed as part of that module.
if(qt_module)
set(path_suffix "${INSTALL_CMAKE_NAMESPACE}${qt_module}")
else()
set(path_suffix "${INSTALL_CMAKE_NAMESPACE}${target}")
endif()
qt_path_join(config_build_dir ${QT_CONFIG_BUILD_DIR} ${path_suffix})
qt_path_join(config_install_dir ${QT_CONFIG_INSTALL_DIR} ${path_suffix})
configure_package_config_file(
"${QT_CMAKE_DIR}/QtPluginConfig.cmake.in"
"${config_build_dir}/${target}Config.cmake"
INSTALL_DESTINATION "${config_install_dir}"
)
write_basic_package_version_file(
"${config_build_dir}/${target}ConfigVersion.cmake"
VERSION ${PROJECT_VERSION}
COMPATIBILITY AnyNewerVersion
)
qt_install(FILES
"${config_build_dir}/${target}Config.cmake"
"${config_build_dir}/${target}ConfigVersion.cmake"
DESTINATION "${config_install_dir}"
COMPONENT Devel
)
qt_install(FILES
"${pri_file}"
DESTINATION "${INSTALL_MKSPECSDIR}/modules"
)
# Make the export name of plugins be consistent with modules, so that
# qt_add_resource adds its additional targets to the same export set in a static Qt build.
set(export_name "${INSTALL_CMAKE_NAMESPACE}${target}Targets")
qt_install(TARGETS "${target}"
EXPORT ${export_name}
RUNTIME DESTINATION "${install_directory}"
LIBRARY DESTINATION "${install_directory}"
ARCHIVE DESTINATION "${archive_install_directory}"
)
qt_install(EXPORT ${export_name}
NAMESPACE ${QT_CMAKE_EXPORT_NAMESPACE}::
DESTINATION "${config_install_dir}"
)
qt_apply_rpaths(TARGET "${target}" INSTALL_PATH "${install_directory}" RELATIVE_RPATH)
endif()
if (NOT arg_ALLOW_UNDEFINED_SYMBOLS)
### fixme: cmake is missing a built-in variable for this. We want to apply it only to
# modules and plugins that belong to Qt.
qt_internal_add_link_flags_no_undefined("${target}")
endif()
qt_internal_add_linker_version_script(${target})
qt_add_list_file_finalizer(qt_finalize_plugin ${target} "${install_directory}")
endfunction()
function(qt_finalize_plugin target install_directory)
# Generate .prl files for plugins of static Qt builds.
if(NOT BUILD_SHARED_LIBS)
qt_generate_prl_file(${target} "${install_directory}")
endif()
endfunction()
function(qt_install_qml_files target)
qt_parse_all_arguments(arg "qt_install_qml_files"
"" "" "FILES" ${ARGN}
)
if (NOT arg_FILES)
message(FATAL_ERROR "No files specified for qt_install_qml_files. Please specify them using the FILES parameter.")
endif()
get_target_property(target_path ${target} QT_QML_MODULE_TARGET_PATH)
if (NOT target_path)
message(FATAL_ERROR "Target ${target} is not a qml module.")
endif()
qt_path_join(qml_module_install_dir ${QT_INSTALL_DIR} "${INSTALL_QMLDIR}/${target_path}")
qt_copy_or_install(FILES ${arg_FILES}
DESTINATION ${qml_module_install_dir}
)
endfunction()
function(qt_add_resource target resourceName)
# Don't try to add resources when cross compiling, and the target is actually a host target
# (like a tool).
qt_is_imported_target("${target}" is_imported)
if(is_imported)
return()
endif()
qt_parse_all_arguments(arg "qt_add_resource" "" "PREFIX;LANG;BASE" "FILES" ${ARGN})
QT6_PROCESS_RESOURCE(${target} ${resourceName}
PREFIX "${arg_PREFIX}"
LANG "${arg_LANG}"
BASE "${arg_BASE}"
FILES ${arg_FILES}
OUTPUT_TARGETS out_targets
)
if (out_targets)
qt_install(TARGETS ${out_targets}
EXPORT "${INSTALL_CMAKE_NAMESPACE}${target}Targets"
DESTINATION ${INSTALL_LIBDIR}
)
foreach(out_target ${out_targets})
get_target_property(resource_name ${out_target} QT_RESOURCE_NAME)
if(NOT resource_name)
continue()
endif()
if(QT_WILL_INSTALL)
# Compute the install location of the rcc object file.
# This is the relative path below the install destination (install_prefix/lib).
# See CMake's computeInstallObjectDir function.
set(object_file_name "qrc_${resource_name}.cpp${CMAKE_CXX_OUTPUT_EXTENSION}")
qt_path_join(rcc_object_file_path
"objects-$<CONFIG>" ${out_target} .rcc "${object_file_name}")
else()
# In a non-prefix build we use the object file paths right away.
set(rcc_object_file_path $<TARGET_OBJECTS:$<TARGET_NAME:${out_target}>>)
endif()
set_property(TARGET ${target} APPEND PROPERTY QT_RCC_OBJECTS "${rcc_object_file_path}")
# Make sure that the target cpp files are compiled with the regular Qt internal compile
# flags, needed for building iOS apps with qmake where bitcode is involved.
target_link_libraries("${out_target}" PRIVATE Qt::PlatformModuleInternal)
endforeach()
endif()
endfunction()
# Collection of qt_add_executable arguments so they can be shared across qt_add_executable
# and qt_add_test_helper.
set(__qt_add_executable_optional_args
"GUI;BOOTSTRAP;NO_QT;NO_INSTALL;EXCEPTIONS"
)
set(__qt_add_executable_single_args
"OUTPUT_DIRECTORY;INSTALL_DIRECTORY;VERSION"
${__default_target_info_args}
)
set(__qt_add_executable_multi_args
"EXE_FLAGS;${__default_private_args};${__default_public_args}"
)
# This function creates a CMake target for a generic console or GUI binary.
# Please consider to use a more specific version target like the one created
# by qt_add_test or qt_add_tool below.
function(qt_add_executable name)
qt_parse_all_arguments(arg "qt_add_executable"
"${__qt_add_executable_optional_args}"
"${__qt_add_executable_single_args}"
"${__qt_add_executable_multi_args}"
${ARGN})
if ("x${arg_OUTPUT_DIRECTORY}" STREQUAL "x")
set(arg_OUTPUT_DIRECTORY "${QT_BUILD_DIR}/${INSTALL_BINDIR}")
endif()
get_filename_component(arg_OUTPUT_DIRECTORY "${arg_OUTPUT_DIRECTORY}"
ABSOLUTE BASE_DIR "${QT_BUILD_DIR}")
if ("x${arg_INSTALL_DIRECTORY}" STREQUAL "x")
set(arg_INSTALL_DIRECTORY "${INSTALL_BINDIR}")
endif()
if (ANDROID)
add_library("${name}" MODULE)
qt_android_apply_arch_suffix("${name}")
qt_android_generate_deployment_settings("${name}")
qt_android_add_apk_target("${name}")
# On our qmake builds we don't compile the executables with
# visibility=hidden. Not having this flag set will cause the
# executable to have main() hidden and can then no longer be loaded
# through dlopen()
set_property(TARGET ${name} PROPERTY C_VISIBILITY_PRESET default)
set_property(TARGET ${name} PROPERTY CXX_VISIBILITY_PRESET default)
else()
add_executable("${name}" ${arg_EXE_FLAGS})
endif()
if (arg_VERSION)
if(arg_VERSION MATCHES "[0-9]+\\.[0-9]+\\.[0-9]+\\.[0-9]+")
# nothing to do
elseif(arg_VERSION MATCHES "[0-9]+\\.[0-9]+\\.[0-9]+")
set(arg_VERSION "${arg_VERSION}.0")
elseif(arg_VERSION MATCHES "[0-9]+\\.[0-9]+")
set(arg_VERSION "${arg_VERSION}.0.0")
elseif (arg_VERSION MATCHES "[0-9]+")
set(arg_VERSION "${arg_VERSION}.0.0.0")
else()
message(FATAL_ERROR "Invalid version format")
endif()
endif()
if("${arg_TARGET_DESCRIPTION}" STREQUAL "")
set(arg_TARGET_DESCRIPTION "Qt ${name}")
endif()
qt_set_target_info_properties(${name} ${ARGN}
TARGET_DESCRIPTION "${arg_TARGET_DESCRIPTION}"
TARGET_VERSION "${arg_VERSION}")
if (WIN32)
qt6_generate_win32_rc_file(${name})
endif()
qt_set_common_target_properties(${name})
qt_autogen_tools_initial_setup(${name})
qt_skip_warnings_are_errors_when_repo_unclean("${name}")
set(extra_libraries "")
if(NOT arg_BOOTSTRAP AND NOT arg_NO_QT)
set(extra_libraries "Qt::Core")
endif()
set(private_includes
"${CMAKE_CURRENT_SOURCE_DIR}"
"${CMAKE_CURRENT_BINARY_DIR}"
${arg_INCLUDE_DIRECTORIES}
)
qt_extend_target("${name}"
SOURCES ${arg_SOURCES}
INCLUDE_DIRECTORIES ${private_includes}
DEFINES ${arg_DEFINES}
LIBRARIES ${arg_LIBRARIES} Qt::PlatformCommonInternal
PUBLIC_LIBRARIES ${extra_libraries} ${arg_PUBLIC_LIBRARIES}
DBUS_ADAPTOR_SOURCES "${arg_DBUS_ADAPTOR_SOURCES}"
DBUS_ADAPTOR_FLAGS "${arg_DBUS_ADAPTOR_FLAGS}"
DBUS_INTERFACE_SOURCES "${arg_DBUS_INTERFACE_SOURCES}"
DBUS_INTERFACE_FLAGS "${arg_DBUS_INTERFACE_FLAGS}"
COMPILE_OPTIONS ${arg_COMPILE_OPTIONS}
LINK_OPTIONS ${arg_LINK_OPTIONS}
MOC_OPTIONS ${arg_MOC_OPTIONS}
ENABLE_AUTOGEN_TOOLS ${arg_ENABLE_AUTOGEN_TOOLS}
DISABLE_AUTOGEN_TOOLS ${arg_DISABLE_AUTOGEN_TOOLS}
)
set_target_properties("${name}" PROPERTIES
RUNTIME_OUTPUT_DIRECTORY "${arg_OUTPUT_DIRECTORY}"
LIBRARY_OUTPUT_DIRECTORY "${arg_OUTPUT_DIRECTORY}"
WIN32_EXECUTABLE "${arg_GUI}"
MACOSX_BUNDLE "${arg_GUI}"
)
if(NOT ${arg_EXCEPTIONS})
qt_internal_set_no_exceptions_flags("${name}")
endif()
# Check if target needs to be excluded from all target. Also affects qt_install.
# Set by qt_exclude_tool_directories_from_default_target.
set(exclude_from_all FALSE)
if(__qt_exclude_tool_directories)
foreach(absolute_dir ${__qt_exclude_tool_directories})
string(FIND "${CMAKE_CURRENT_SOURCE_DIR}" "${absolute_dir}" dir_starting_pos)
if(dir_starting_pos EQUAL 0)
set(exclude_from_all TRUE)
set_target_properties("${name}" PROPERTIES EXCLUDE_FROM_ALL TRUE)
break()
endif()
endforeach()
endif()
if(NOT arg_NO_INSTALL)
set(additional_install_args "")
if(exclude_from_all)
list(APPEND additional_install_args EXCLUDE_FROM_ALL COMPONENT "ExcludedExecutables")
endif()
qt_get_cmake_configurations(cmake_configs)
foreach(cmake_config ${cmake_configs})
qt_get_install_target_default_args(
OUT_VAR install_targets_default_args
CMAKE_CONFIG "${cmake_config}"
ALL_CMAKE_CONFIGS "${cmake_configs}"
RUNTIME "${arg_INSTALL_DIRECTORY}"
LIBRARY "${arg_INSTALL_DIRECTORY}"
BUNDLE "${arg_INSTALL_DIRECTORY}")
qt_install(TARGETS "${name}"
${additional_install_args} # Needs to be before the DESTINATIONS.
CONFIGURATIONS ${cmake_config}
${install_targets_default_args})
endforeach()
endif()
endfunction()
# Simple wrapper around qt_add_executable for benchmarks which insure that
# the binary is built under ${CMAKE_CURRENT_BINARY_DIR} and never installed.
# See qt_add_executable() for more details.
function(qt_add_benchmark target)
qt_parse_all_arguments(arg "qt_add_benchmark"
"${__qt_add_executable_optional_args}"
"${__qt_add_executable_single_args}"
"${__qt_add_executable_multi_args}"
${ARGN}
)
qt_remove_args(exec_args
ARGS_TO_REMOVE
${target}
OUTPUT_DIRECTORY
INSTALL_DIRECTORY
ALL_ARGS
"${__qt_add_executable_optional_args}"
"${__qt_add_executable_single_args}"
"${__qt_add_executable_multi_args}"
ARGS
${ARGV}
)
if(NOT arg_OUTPUT_DIRECTORY)
set(arg_OUTPUT_DIRECTORY "${CMAKE_CURRENT_BINARY_DIR}")
endif()
qt_add_executable(${target}
NO_INSTALL # we don't install benchmarks
OUTPUT_DIRECTORY "${arg_OUTPUT_DIRECTORY}" # avoid polluting bin directory
${exec_args}
)
endfunction()
# Simple wrapper around qt_add_executable for manual tests which insure that
# the binary is built under ${CMAKE_CURRENT_BINARY_DIR} and never installed.
# See qt_add_executable() for more details.
function(qt_add_manual_test target)
qt_parse_all_arguments(arg "qt_add_manual_test"
"${__qt_add_executable_optional_args}"
"${__qt_add_executable_single_args}"
"${__qt_add_executable_multi_args}"
${ARGN}
)
qt_remove_args(exec_args
ARGS_TO_REMOVE
${target}
OUTPUT_DIRECTORY
INSTALL_DIRECTORY
ALL_ARGS
"${__qt_add_executable_optional_args}"
"${__qt_add_executable_single_args}"
"${__qt_add_executable_multi_args}"
ARGS
${ARGV}
)
if(NOT arg_OUTPUT_DIRECTORY)
set(arg_OUTPUT_DIRECTORY "${CMAKE_CURRENT_BINARY_DIR}")
endif()
qt_add_executable(${target}
NO_INSTALL # we don't install benchmarks
OUTPUT_DIRECTORY "${arg_OUTPUT_DIRECTORY}" # avoid polluting bin directory
${exec_args}
)
endfunction()
# This function creates a CMake test target with the specified name for use with CTest.
function(qt_add_test name)
qt_parse_all_arguments(arg "qt_add_test"
"RUN_SERIAL;EXCEPTIONS;GUI;QMLTEST"
"OUTPUT_DIRECTORY;WORKING_DIRECTORY;TIMEOUT;VERSION"
"QML_IMPORTPATH;TESTDATA;${__default_private_args};${__default_public_args}" ${ARGN}
)
if (NOT arg_OUTPUT_DIRECTORY)
set(arg_OUTPUT_DIRECTORY "${CMAKE_CURRENT_BINARY_DIR}")
endif()
if (${arg_EXCEPTIONS})
set(exceptions_text "EXCEPTIONS")
endif()
if (${arg_GUI})
set(gui_text "GUI")
endif()
if (arg_VERSION)
set(version_arg VERSION "${arg_VERSION}")
endif()
# Handle cases where we have a qml test without source files
if (arg_SOURCES)
set(private_includes
"${CMAKE_CURRENT_SOURCE_DIR}"
"${CMAKE_CURRENT_BINARY_DIR}"
"$<BUILD_INTERFACE:${QT_BUILD_DIR}/${INSTALL_INCLUDEDIR}>"
${arg_INCLUDE_DIRECTORIES}
)
qt_add_executable("${name}"
${exceptions_text}
${gui_text}
${version_arg}
NO_INSTALL
OUTPUT_DIRECTORY "${arg_OUTPUT_DIRECTORY}"
SOURCES "${arg_SOURCES}"
INCLUDE_DIRECTORIES
${private_includes}
DEFINES
QT_TESTCASE_BUILDDIR="${CMAKE_CURRENT_BINARY_DIR}"
QT_TESTCASE_SOURCEDIR="${CMAKE_CURRENT_SOURCE_DIR}"
${arg_DEFINES}
PUBLIC_LIBRARIES ${QT_CMAKE_EXPORT_NAMESPACE}::Core ${QT_CMAKE_EXPORT_NAMESPACE}::Test ${arg_PUBLIC_LIBRARIES}
LIBRARIES ${arg_LIBRARIES}
COMPILE_OPTIONS ${arg_COMPILE_OPTIONS}
LINK_OPTIONS ${arg_LINK_OPTIONS}
MOC_OPTIONS ${arg_MOC_OPTIONS}
ENABLE_AUTOGEN_TOOLS ${arg_ENABLE_AUTOGEN_TOOLS}
DISABLE_AUTOGEN_TOOLS ${arg_DISABLE_AUTOGEN_TOOLS}
)
# Tests should not be bundles on macOS even if arg_GUI is true, because some tests make
# assumptions about the location of helper processes, and those paths would be different
# if a test is built as a bundle.
set_property(TARGET "${name}" PROPERTY MACOSX_BUNDLE FALSE)
# The same goes for WIN32_EXECUTABLE, but because it will detach from the console window
# and not print anything.
set_property(TARGET "${name}" PROPERTY WIN32_EXECUTABLE FALSE)
# QMLTest specifics
qt_extend_target("${name}" CONDITION arg_QMLTEST
PUBLIC_LIBRARIES ${QT_CMAKE_EXPORT_NAMESPACE}::QuickTest
)
qt_extend_target("${name}" CONDITION arg_QMLTEST AND NOT ANDROID
DEFINES
QUICK_TEST_SOURCE_DIR="${CMAKE_CURRENT_SOURCE_DIR}"
)
qt_extend_target("${name}" CONDITION arg_QMLTEST AND ANDROID
DEFINES
QUICK_TEST_SOURCE_DIR=":/"
)
endif()
foreach(path IN LISTS arg_QML_IMPORTPATH)
list(APPEND extra_test_args "-import" "${path}")
endforeach()
# Generate a label in the form tests/auto/foo/bar/tst_baz
# and use it also for XML output
file(RELATIVE_PATH label "${PROJECT_SOURCE_DIR}" "${CMAKE_CURRENT_SOURCE_DIR}/${name}")
if (ANDROID)
qt_android_add_test("${name}")
else()
if(arg_QMLTEST AND NOT arg_SOURCES)
set(test_working_dir "${CMAKE_CURRENT_SOURCE_DIR}")
set(test_executable ${QT_CMAKE_EXPORT_NAMESPACE}::qmltestrunner)
else()
if (arg_WORKING_DIRECTORY)
set(test_working_dir "${arg_WORKING_DIRECTORY}")
elseif(arg_OUTPUT_DIRECTORY)
set(test_working_dir "${arg_OUTPUT_DIRECTORY}")
else()
set(test_working_dir "${CMAKE_CURRENT_BINARY_DIR}")
endif()
set(test_executable "${name}")
endif()
add_test(NAME "${name}" COMMAND ${test_executable} ${extra_test_args} -o ${name}.xml,xml -o -,txt WORKING_DIRECTORY "${test_working_dir}")
endif()
set_tests_properties("${name}" PROPERTIES RUN_SERIAL "${arg_RUN_SERIAL}" LABELS "${label}")
if (arg_TIMEOUT)
set_tests_properties(${name} PROPERTIES TIMEOUT ${arg_TIMEOUT})
endif()
# Add a ${target}/check makefile target, to more easily test one test.
if(TEST "${name}")
add_custom_target("${name}_check"
VERBATIM
COMMENT "Running ${CMAKE_CTEST_COMMAND} -V -R \"^${name}$\""
COMMAND "${CMAKE_CTEST_COMMAND}" -V -R "^${name}$"
)
if(TARGET "${name}")
add_dependencies("${name}_check" "${name}")
endif()
endif()
# Get path to <qt_relocatable_install_prefix>/bin, as well as CMAKE_INSTALL_PREFIX/bin, then
# prepend them to the PATH environment variable.
# It's needed on Windows to find the shared libraries and plugins.
# qt_relocatable_install_prefix is dynamically computed from the location of where the Qt CMake
# package is found.
# The regular CMAKE_INSTALL_PREFIX can be different for example when building standalone tests.
# Any given CMAKE_INSTALL_PREFIX takes priority over qt_relocatable_install_prefix for the
# PATH environment variable.
set(install_prefixes "${CMAKE_INSTALL_PREFIX}")
if(QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX)
list(APPEND install_prefixes "${QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX}")
endif()
set(test_env_path "PATH=${CMAKE_CURRENT_BINARY_DIR}")
foreach(install_prefix ${install_prefixes})
set(test_env_path "${test_env_path}${QT_PATH_SEPARATOR}${install_prefix}/${INSTALL_BINDIR}")
endforeach()
set(test_env_path "${test_env_path}${QT_PATH_SEPARATOR}$ENV{PATH}")
string(REPLACE ";" "\;" test_env_path "${test_env_path}")
set_property(TEST "${name}" APPEND PROPERTY ENVIRONMENT "${test_env_path}")
set_property(TEST "${name}" APPEND PROPERTY ENVIRONMENT "QT_TEST_RUNNING_IN_CTEST=1")
# Add the install prefix to list of plugin paths when doing a prefix build
if(NOT QT_INSTALL_DIR)
foreach(install_prefix ${install_prefixes})
list(APPEND plugin_paths "${install_prefix}/${INSTALL_PLUGINSDIR}")
endforeach()
endif()
#TODO: Collect all paths from known repositories when performing a super
# build.
list(APPEND plugin_paths "${PROJECT_BINARY_DIR}/${INSTALL_PLUGINSDIR}")
list(JOIN plugin_paths "${QT_PATH_SEPARATOR}" plugin_paths_joined)
set_property(TEST "${name}" APPEND PROPERTY ENVIRONMENT "QT_PLUGIN_PATH=${plugin_paths_joined}")
if(ANDROID OR IOS OR WINRT)
set(builtin_testdata TRUE)
endif()
if(builtin_testdata)
# Safe guard against qml only tests, no source files == no target
if (TARGET "${name}")
target_compile_definitions("${name}" PRIVATE BUILTIN_TESTDATA)
foreach(testdata IN LISTS arg_TESTDATA)
list(APPEND builtin_files ${testdata})
endforeach()
set(blacklist_path "BLACKLIST")
if(EXISTS "${CMAKE_CURRENT_SOURCE_DIR}/${blacklist_path}")
list(APPEND builtin_files ${blacklist_path})
endif()
list(REMOVE_DUPLICATES builtin_files)
# Skip Qt quick compiler when embedding test resources
foreach(file IN LISTS builtin_files)
set_source_files_properties(${file}
PROPERTIES QT_SKIP_QUICKCOMPILER TRUE
)
endforeach()
if (builtin_files)
qt_add_resource(${name} "${name}_testdata_builtin"
PREFIX "/"
FILES ${builtin_files}
BASE ${CMAKE_CURRENT_SOURCE_DIR})
endif()
endif()
else()
# Install test data
file(RELATIVE_PATH relative_path_to_test_project
"${QT_TOP_LEVEL_SOURCE_DIR}"
"${CMAKE_CURRENT_SOURCE_DIR}")
qt_path_join(testdata_install_dir ${QT_INSTALL_DIR}
"${relative_path_to_test_project}")
foreach(testdata IN LISTS arg_TESTDATA)
set(testdata "${CMAKE_CURRENT_SOURCE_DIR}/${testdata}")
if (IS_DIRECTORY "${testdata}")
qt_install(
DIRECTORY "${testdata}"
DESTINATION "${testdata_install_dir}")
else()
qt_install(
FILES "${testdata}"
DESTINATION "${testdata_install_dir}")
endif()
endforeach()
endif()
endfunction()
# This function creates an executable for use as a helper program with tests. Some
# tests launch separate programs to test certain input/output behavior.
# Specify OVERRIDE_OUTPUT_DIRECTORY if you dont' want to place the helper in the parent directory,
# in which case you should specify OUTPUT_DIRECTORY "/foo/bar" manually.
function(qt_add_test_helper name)
set(qt_add_test_helper_optional_args
"OVERRIDE_OUTPUT_DIRECTORY"
)
qt_parse_all_arguments(arg "qt_add_test_helper"
"${qt_add_test_helper_optional_args};${__qt_add_executable_optional_args}"
"${__qt_add_executable_single_args}"
"${__qt_add_executable_multi_args}"
${ARGN})
qt_remove_args(forward_args
ARGS_TO_REMOVE
"${name}"
${qt_add_test_helper_optional_args}
ALL_ARGS
${qt_add_test_helper_optional_args}
${__qt_add_executable_optional_args}
${__qt_add_executable_single_args}
${__qt_add_executable_multi_args}
ARGS
${ARGV}
)
set(extra_args_to_pass)
if(NOT arg_OVERRIDE_OUTPUT_DIRECTORY)
set(extra_args_to_pass OUTPUT_DIRECTORY "${CMAKE_CURRENT_BINARY_DIR}/..")
endif()
qt_add_executable("${name}" NO_INSTALL ${extra_args_to_pass} ${forward_args})
endfunction()
# Sets QT_WILL_BUILD_TOOLS if tools will be built.
function(qt_check_if_tools_will_be_built)
if(QT_FORCE_FIND_TOOLS OR (CMAKE_CROSSCOMPILING AND NOT QT_BUILD_TOOLS_WHEN_CROSSCOMPILING))
set(will_build_tools FALSE)
else()
set(will_build_tools TRUE)
endif()
set(QT_WILL_BUILD_TOOLS ${will_build_tools} CACHE INTERNAL "Are tools going to be built" FORCE)
endfunction()
# Wrapper function to create a regular cmake target and forward all the
# arguments collected by the conversion script. This is only meant for tests!
function(qt_add_cmake_library target)
# Process arguments:
qt_parse_all_arguments(arg "qt_add_cmake_library"
"SHARED;MODULE;STATIC;INTERFACE"
"OUTPUT_DIRECTORY;ARCHIVE_INSTALL_DIRECTORY;INSTALL_DIRECTORY"
"${__default_private_args};${__default_public_args}"
${ARGN}
)
### Define Targets:
if(${arg_INTERFACE})
add_library("${target}" INTERFACE)
elseif(${arg_STATIC} OR (${arg_MODULE} AND NOT BUILD_SHARED_LIBS))
add_library("${target}" STATIC)
elseif(${arg_SHARED})
add_library("${target}" SHARED)
qt_internal_apply_win_prefix_and_suffix("${target}")
elseif(${arg_MODULE})
add_library("${target}" MODULE)
set_property(TARGET ${name} PROPERTY C_VISIBILITY_PRESET default)
set_property(TARGET ${name} PROPERTY CXX_VISIBILITY_PRESET default)
set_property(TARGET ${name} PROPERTY OBJC_VISIBILITY_PRESET default)
set_property(TARGET ${name} PROPERTY OBJCXX_VISIBILITY_PRESET default)
if(APPLE)
# CMake defaults to using .so extensions for loadable modules, aka plugins,
# but Qt plugins are actually suffixed with .dylib.
set_property(TARGET "${target}" PROPERTY SUFFIX ".dylib")
endif()
qt_internal_apply_win_prefix_and_suffix("${target}")
else()
add_library("${target}")
endif()
if (NOT arg_ARCHIVE_INSTALL_DIRECTORY AND arg_INSTALL_DIRECTORY)
set(arg_ARCHIVE_INSTALL_DIRECTORY "${arg_INSTALL_DIRECTORY}")
endif()
if (ANDROID)
qt_android_apply_arch_suffix("${target}")
endif()
qt_skip_warnings_are_errors_when_repo_unclean("${target}")
if (arg_INSTALL_DIRECTORY)
set(install_arguments
ARCHIVE_INSTALL_DIRECTORY ${arg_ARCHIVE_INSTALL_DIRECTORY}
INSTALL_DIRECTORY ${arg_INSTALL_DIRECTORY}
)
endif()
if (arg_OUTPUT_DIRECTORY)
set_target_properties(${target} PROPERTIES
ARCHIVE_OUTPUT_DIRECTORY ${arg_OUTPUT_DIRECTORY}
RUNTIME_OUTPUT_DIRECTORY ${arg_OUTPUT_DIRECTORY}
LIBRARY_OUTPUT_DIRECTORY ${arg_OUTPUT_DIRECTORY}
)
endif()
qt_extend_target("${target}"
SOURCES ${arg_SOURCES}
INCLUDE_DIRECTORIES
${arg_INCLUDE_DIRECTORIES}
PUBLIC_INCLUDE_DIRECTORIES
${arg_PUBLIC_INCLUDE_DIRECTORIES}
PUBLIC_DEFINES
${arg_PUBLIC_DEFINES}
DEFINES
${arg_DEFINES}
PUBLIC_LIBRARIES ${arg_PUBLIC_LIBRARIES}
LIBRARIES ${arg_LIBRARIES} Qt::PlatformModuleInternal
COMPILE_OPTIONS ${arg_COMPILE_OPTIONS}
PUBLIC_COMPILE_OPTIONS ${arg_PUBLIC_COMPILE_OPTIONS}
LINK_OPTIONS ${arg_LINK_OPTIONS}
PUBLIC_LINK_OPTIONS ${arg_PUBLIC_LINK_OPTIONS}
MOC_OPTIONS ${arg_MOC_OPTIONS}
ENABLE_AUTOGEN_TOOLS ${arg_ENABLE_AUTOGEN_TOOLS}
DISABLE_AUTOGEN_TOOLS ${arg_DISABLE_AUTOGEN_TOOLS}
${install_arguments}
)
endfunction()
#
# This function replaces qmake's qt_helper_lib feature. It is intended to
# compile 3rdparty libraries as part of the build.
#
function(qt_add_3rdparty_library target)
# Process arguments:
qt_parse_all_arguments(arg "qt_add_3rdparty_library"
"SHARED;MODULE;STATIC;INTERFACE;EXCEPTIONS;INSTALL;SKIP_AUTOMOC"
"OUTPUT_DIRECTORY;QMAKE_LIB_NAME"
"${__default_private_args};${__default_public_args}"
${ARGN}
)
### Define Targets:
if(${arg_INTERFACE})
add_library("${target}" INTERFACE)
elseif(${arg_STATIC} OR (${arg_MODULE} AND NOT BUILD_SHARED_LIBS))
add_library("${target}" STATIC)
elseif(${arg_SHARED})
add_library("${target}" SHARED)
elseif(${arg_MODULE})
add_library("${target}" MODULE)
set_property(TARGET ${name} PROPERTY C_VISIBILITY_PRESET default)
set_property(TARGET ${name} PROPERTY CXX_VISIBILITY_PRESET default)
set_property(TARGET ${name} PROPERTY OBJC_VISIBILITY_PRESET default)
set_property(TARGET ${name} PROPERTY OBJCXX_VISIBILITY_PRESET default)
if(APPLE)
# CMake defaults to using .so extensions for loadable modules, aka plugins,
# but Qt plugins are actually suffixed with .dylib.
set_property(TARGET "${target}" PROPERTY SUFFIX ".dylib")
endif()
else()
add_library("${target}")
endif()
if(NOT arg_INTERFACE)
qt_set_common_target_properties(${target})
endif()
if (NOT arg_ARCHIVE_INSTALL_DIRECTORY AND arg_INSTALL_DIRECTORY)
set(arg_ARCHIVE_INSTALL_DIRECTORY "${arg_INSTALL_DIRECTORY}")
endif()
qt_internal_add_qt_repo_known_module(${target})
qt_internal_add_target_aliases(${target})
if (ANDROID)
qt_android_apply_arch_suffix("${target}")
endif()
qt_skip_warnings_are_errors_when_repo_unclean("${target}")
set_target_properties(${target} PROPERTIES
LIBRARY_OUTPUT_DIRECTORY "${QT_BUILD_DIR}/${INSTALL_LIBDIR}"
RUNTIME_OUTPUT_DIRECTORY "${QT_BUILD_DIR}/${INSTALL_BINDIR}"
ARCHIVE_OUTPUT_DIRECTORY "${QT_BUILD_DIR}/${INSTALL_LIBDIR}"
VERSION ${PROJECT_VERSION}
SOVERSION ${PROJECT_VERSION_MAJOR}
QT_MODULE_IS_3RDPARTY_LIBRARY TRUE
QT_MODULE_SKIP_DEPENDS_INCLUDE TRUE
)
qt_handle_multi_config_output_dirs("${target}")
set_target_properties(${target} PROPERTIES
OUTPUT_NAME "${INSTALL_CMAKE_NAMESPACE}${target}"
)
if(NOT arg_SKIP_AUTOMOC)
qt_autogen_tools_initial_setup(${target})
endif()
if(NOT arg_INTERFACE)
# This property is used for super builds with static libraries. We use
# it in QtPlugins.cmake.in to avoid "polluting" the dependency chain
# for the target in it's project directory.
# E.g: When we process find_package(Qt6 ... Gui) in QtDeclarative, the
# rules in QtPugins.cmake add all the known Gui plugins as interface
# dependencies. This in turn causes circular dependencies on every
# plugin which links against Gui. Plugin A -> GUI -> Plugin A ....
set_target_properties(${target} PROPERTIES QT_BUILD_PROJECT_NAME ${PROJECT_NAME})
endif()
if(NOT arg_EXCEPTIONS AND NOT arg_INTERFACE)
qt_internal_set_no_exceptions_flags("${target}")
endif()
qt_generate_3rdparty_lib_pri_file("${target}" "${arg_QMAKE_LIB_NAME}" pri_file)
if(pri_file)
qt_install(FILES "${pri_file}" DESTINATION "${INSTALL_MKSPECSDIR}/modules")
endif()
qt_extend_target("${target}"
SOURCES ${arg_SOURCES}
INCLUDE_DIRECTORIES
${arg_INCLUDE_DIRECTORIES}
PUBLIC_INCLUDE_DIRECTORIES
${arg_PUBLIC_INCLUDE_DIRECTORIES}
PUBLIC_DEFINES
${arg_PUBLIC_DEFINES}
DEFINES
${arg_DEFINES}
PUBLIC_LIBRARIES ${arg_PUBLIC_LIBRARIES}
LIBRARIES ${arg_LIBRARIES} Qt::PlatformModuleInternal
COMPILE_OPTIONS ${arg_COMPILE_OPTIONS}
PUBLIC_COMPILE_OPTIONS ${arg_PUBLIC_COMPILE_OPTIONS}
LINK_OPTIONS ${arg_LINK_OPTIONS}
PUBLIC_LINK_OPTIONS ${arg_PUBLIC_LINK_OPTIONS}
MOC_OPTIONS ${arg_MOC_OPTIONS}
ENABLE_AUTOGEN_TOOLS ${arg_ENABLE_AUTOGEN_TOOLS}
DISABLE_AUTOGEN_TOOLS ${arg_DISABLE_AUTOGEN_TOOLS}
${install_arguments}
)
if(NOT BUILD_SHARED_LIBS OR arg_INSTALL)
set(path_suffix "${INSTALL_CMAKE_NAMESPACE}${target}")
qt_path_join(config_build_dir ${QT_CONFIG_BUILD_DIR} ${path_suffix})
qt_path_join(config_install_dir ${QT_CONFIG_INSTALL_DIR} ${path_suffix})
set(export_name "${INSTALL_CMAKE_NAMESPACE}${target}Targets")
configure_package_config_file(
"${QT_CMAKE_DIR}/Qt3rdPartyLibraryConfig.cmake.in"
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}Config.cmake"
INSTALL_DESTINATION "${config_install_dir}"
)
write_basic_package_version_file(
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}ConfigVersion.cmake"
VERSION ${PROJECT_VERSION}
COMPATIBILITY AnyNewerVersion
)
qt_install(FILES
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}Config.cmake"
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}ConfigVersion.cmake"
DESTINATION "${config_install_dir}"
COMPONENT Devel
)
qt_install(TARGETS ${target}
EXPORT "${export_name}"
RUNTIME DESTINATION ${INSTALL_BINDIR}
LIBRARY DESTINATION ${INSTALL_LIBDIR}
ARCHIVE DESTINATION ${INSTALL_LIBDIR}
)
qt_install(EXPORT ${export_name}
NAMESPACE "${QT_CMAKE_EXPORT_NAMESPACE}::"
DESTINATION "${config_install_dir}"
)
qt_internal_export_modern_cmake_config_targets_file(
TARGETS ${target}
EXPORT_NAME_PREFIX ${INSTALL_CMAKE_NAMESPACE}${target}
CONFIG_INSTALL_DIR "${config_install_dir}"
)
endif()
endfunction()
function(qt_install_3rdparty_library_wrap_config_extra_file target)
if(TARGET "${target}")
set(use_bundled "ON")
else()
set(use_bundled "OFF")
endif()
set(QT_USE_BUNDLED_${target} "${use_bundled}" CACHE BOOL "" FORCE)
set(extra_cmake_code "set(QT_USE_BUNDLED_${target} ${use_bundled} CACHE BOOL \"\" FORCE)")
configure_file(
"${QT_CMAKE_DIR}/QtFindWrapConfigExtra.cmake.in"
"${QT_CONFIG_BUILD_DIR}/${INSTALL_CMAKE_NAMESPACE}/FindWrap${target}ConfigExtra.cmake"
@ONLY
)
qt_install(FILES
"${QT_CONFIG_BUILD_DIR}/${INSTALL_CMAKE_NAMESPACE}/FindWrap${target}ConfigExtra.cmake"
DESTINATION "${QT_CONFIG_INSTALL_DIR}/${INSTALL_CMAKE_NAMESPACE}"
COMPONENT Devel
)
endfunction()
function(qt_get_tool_cmake_configuration out_var)
qt_get_main_cmake_configuration("${out_var}")
string(TOUPPER "${${out_var}}" upper_config)
set("${out_var}" "${upper_config}" PARENT_SCOPE)
endfunction()
function(qt_get_main_cmake_configuration out_var)
if(CMAKE_BUILD_TYPE)
set(config "${CMAKE_BUILD_TYPE}")
elseif(QT_MULTI_CONFIG_FIRST_CONFIG)
set(config "${QT_MULTI_CONFIG_FIRST_CONFIG}")
endif()
set("${out_var}" "${config}" PARENT_SCOPE)
endfunction()
# Returns the target name for the tool with the given name.
#
# In most cases, the target name is the same as the tool name.
# If the user specifies to build tools when cross-compiling, then the
# suffix "_native" is appended.
function(qt_get_tool_target_name out_var name)
if (CMAKE_CROSSCOMPILING AND QT_BUILD_TOOLS_WHEN_CROSSCOMPILING)
set(${out_var} ${name}_native PARENT_SCOPE)
else()
set(${out_var} ${name} PARENT_SCOPE)
endif()
endfunction()
# Returns the tool name for a given tool target.
# This is the inverse of qt_get_tool_target_name.
function(qt_tool_target_to_name out_var target)
set(name ${target})
if (CMAKE_CROSSCOMPILING AND QT_BUILD_TOOLS_WHEN_CROSSCOMPILING)
string(REGEX REPLACE "_native$" "" name ${target})
endif()
set(${out_var} ${name} PARENT_SCOPE)
endfunction()
# This function is used to define a "Qt tool", such as moc, uic or rcc.
# The BOOTSTRAP option allows building it as standalone program, otherwise
# it will be linked against QtCore.
#
# We must pass this function a target name obtained from
# qt_get_tool_target_name like this:
# qt_get_tool_target_name(target_name my_tool)
# qt_add_tool(${target_name})
#
function(qt_add_tool target_name)
qt_tool_target_to_name(name ${target_name})
qt_parse_all_arguments(arg "qt_add_tool" "BOOTSTRAP;NO_QT;NO_INSTALL"
"TOOLS_TARGET;${__default_target_info_args}"
"${__default_private_args}" ${ARGN})
# Handle case when a tool does not belong to a module and it can't be built either (like
# during a cross-compile).
if(NOT arg_TOOLS_TARGET AND NOT QT_WILL_BUILD_TOOLS)
message(FATAL_ERROR "The tool \"${name}\" has not been assigned to a module via"
" TOOLS_TARGET (so it can't be found) and it can't be built"
" (QT_WILL_BUILD_TOOLS is ${QT_WILL_BUILD_TOOLS}).")
endif()
if(CMAKE_CROSSCOMPILING AND QT_BUILD_TOOLS_WHEN_CROSSCOMPILING AND (name STREQUAL target_name))
message(FATAL_ERROR
"qt_add_tool must be passed a target obtained from qt_get_tool_target_name.")
endif()
set(full_name "${QT_CMAKE_EXPORT_NAMESPACE}::${name}")
set(imported_tool_target_found FALSE)
if(TARGET ${full_name})
get_property(path TARGET ${full_name} PROPERTY LOCATION)
message(STATUS "Tool '${full_name}' was found at ${path}.")
set(imported_tool_target_found TRUE)
if(CMAKE_CROSSCOMPILING AND NOT QT_BUILD_TOOLS_WHEN_CROSSCOMPILING)
return()
endif()
endif()
if(arg_TOOLS_TARGET AND (NOT QT_WILL_BUILD_TOOLS OR QT_BUILD_TOOLS_WHEN_CROSSCOMPILING)
AND NOT imported_tool_target_found)
set(tools_package_name "Qt6${arg_TOOLS_TARGET}Tools")
message(STATUS "Searching for tool '${full_name}' in package ${tools_package_name}.")
# Only search in path provided by QT_HOST_PATH. We need to do it with CMAKE_PREFIX_PATH
# instead of PATHS option, because any find_dependency call inside a Tools package would
# not get the proper prefix when using PATHS.
set(BACKUP_CMAKE_PREFIX_PATH ${CMAKE_PREFIX_PATH})
set(CMAKE_PREFIX_PATH "${QT_HOST_PATH}")
# Search both with sysroots prepended as well as in the host system. When cross compiling
# the mode_package might be set to ONLY only, and the Qt6 tools packages are actually
# in the host system.
set(BACKUP_CMAKE_FIND_ROOT_PATH_MODE_PACKAGE ${CMAKE_FIND_ROOT_PATH_MODE_PACKAGE})
set(CMAKE_FIND_ROOT_PATH_MODE_PACKAGE "BOTH")
set(BACKUP_CMAKE_SIZEOF_VOID_P "${CMAKE_SIZEOF_VOID_P}")
set(CMAKE_SIZEOF_VOID_P "")
find_package(
${tools_package_name}
${PROJECT_VERSION}
NO_PACKAGE_ROOT_PATH
NO_CMAKE_ENVIRONMENT_PATH
NO_SYSTEM_ENVIRONMENT_PATH
NO_CMAKE_PACKAGE_REGISTRY
NO_CMAKE_SYSTEM_PATH
NO_CMAKE_SYSTEM_PACKAGE_REGISTRY)
set(CMAKE_SIZEOF_VOID_P "${BACKUP_CMAKE_SIZEOF_VOID_P}")
set(CMAKE_FIND_ROOT_PATH_MODE_PACKAGE "${BACKUP_CMAKE_FIND_ROOT_PATH_MODE_PACKAGE}")
set(CMAKE_PREFIX_PATH "${BACKUP_CMAKE_PREFIX_PATH}")
if(${${tools_package_name}_FOUND} AND TARGET ${full_name})
# Even if the tool is already visible, make sure that our modules remain associated
# with the tools.
qt_internal_append_known_modules_with_tools("${arg_TOOLS_TARGET}")
get_property(path TARGET ${full_name} PROPERTY LOCATION)
message(STATUS "${full_name} was found at ${path} using package ${tools_package_name}.")
if (NOT QT_BUILD_TOOLS_WHEN_CROSSCOMPILING)
return()
endif()
endif()
endif()
if(NOT QT_WILL_BUILD_TOOLS)
message(FATAL_ERROR "The tool \"${full_name}\" was not found in the "
"${tools_package_name} package. "
"Package found: ${${tools_package_name}_FOUND}")
else()
if(QT_BUILD_TOOLS_WHEN_CROSSCOMPILING)
message(STATUS "Tool '${target_name}' will be cross-built from source.")
else()
message(STATUS "Tool '${full_name}' will be built from source.")
endif()
endif()
set(disable_autogen_tools "${arg_DISABLE_AUTOGEN_TOOLS}")
if (arg_NO_QT)
# FIXME: Remove NO_QT again once qmake can use a "normal" Qt!
if (arg_BOOTSTRAP)
message(FATAL_ERROR "Tool can not be NO_QT and BOOTSTRAP at the same time!")
endif()
set(corelib "")
else()
if (arg_BOOTSTRAP)
set(corelib ${QT_CMAKE_EXPORT_NAMESPACE}::Bootstrap)
list(APPEND disable_autogen_tools "uic" "moc" "rcc")
else()
set(corelib ${QT_CMAKE_EXPORT_NAMESPACE}::Core)
endif()
endif()
set(bootstrap "")
if(arg_BOOTSTRAP)
set(bootstrap BOOTSTRAP)
endif()
set(no_qt "")
if(arg_NO_QT)
set(no_qt NO_QT)
endif()
qt_add_executable("${target_name}" OUTPUT_DIRECTORY "${QT_BUILD_DIR}/${INSTALL_BINDIR}"
${bootstrap}
${no_qt}
NO_INSTALL
SOURCES ${arg_SOURCES}
INCLUDE_DIRECTORIES
${arg_INCLUDE_DIRECTORIES}
DEFINES
QT_USE_QSTRINGBUILDER
${arg_DEFINES}
PUBLIC_LIBRARIES ${corelib}
LIBRARIES ${arg_LIBRARIES} Qt::PlatformToolInternal
COMPILE_OPTIONS ${arg_COMPILE_OPTIONS}
LINK_OPTIONS ${arg_LINK_OPTIONS}
MOC_OPTIONS ${arg_MOC_OPTIONS}
DISABLE_AUTOGEN_TOOLS ${disable_autogen_tools}
TARGET_VERSION "${arg_TARGET_VERSION}"
TARGET_PRODUCT "${arg_TARGET_PRODUCT}"
TARGET_DESCRIPTION "${arg_TARGET_DESCRIPTION}"
TARGET_COMPANY "${arg_TARGET_COMPANY}"
TARGET_COPYRIGHT "${arg_TARGET_COPYRIGHT}"
)
qt_internal_add_target_aliases("${target_name}")
if (NOT target_name STREQUAL name)
set_target_properties(${target_name} PROPERTIES
OUTPUT_NAME ${name}
EXPORT_NAME ${name}
)
endif()
if(TARGET host_tools)
add_dependencies(host_tools "${target_name}")
if(bootstrap OR no_qt)
add_dependencies(bootstrap_tools "${target_name}")
endif()
endif()
# If building with a multi-config configuration, the main configuration tool will be placed in
# ./bin, while the rest will be in <CONFIG> specific subdirectories.
qt_get_tool_cmake_configuration(tool_cmake_configuration)
set_target_properties("${target_name}" PROPERTIES
RUNTIME_OUTPUT_DIRECTORY_${tool_cmake_configuration} "${QT_BUILD_DIR}/${INSTALL_BINDIR}"
)
if(NOT arg_NO_INSTALL AND arg_TOOLS_TARGET)
# Assign a tool to an export set, and mark the module to which the tool belongs.
qt_internal_append_known_modules_with_tools("${arg_TOOLS_TARGET}")
# Also append the tool to the module list.
qt_internal_append_known_module_tool("${arg_TOOLS_TARGET}" "${target_name}")
qt_get_cmake_configurations(cmake_configs)
set(install_initial_call_args
EXPORT "${INSTALL_CMAKE_NAMESPACE}${arg_TOOLS_TARGET}ToolsTargets")
foreach(cmake_config ${cmake_configs})
qt_get_install_target_default_args(
OUT_VAR install_targets_default_args
CMAKE_CONFIG "${cmake_config}"
ALL_CMAKE_CONFIGS "${cmake_configs}")
qt_install(TARGETS "${target_name}"
${install_initial_call_args}
CONFIGURATIONS ${cmake_config}
${install_targets_default_args})
unset(install_initial_call_args)
endforeach()
qt_apply_rpaths(TARGET "${target_name}" INSTALL_PATH "${INSTALL_BINDIR}" RELATIVE_RPATH)
endif()
if(QT_FEATURE_separate_debug_info AND (UNIX OR MINGW))
qt_enable_separate_debug_info(${target_name} ${INSTALL_BINDIR})
endif()
endfunction()
function(qt_create_tracepoints name tracePointsFile)
#### TODO
string(TOLOWER "${name}" name)
file(GENERATE OUTPUT "${CMAKE_CURRENT_BINARY_DIR}/qt${name}_tracepoints_p.h" CONTENT
"#include <private/qtrace_p.h>")
endfunction()
# Handle files that need special SIMD-related flags.
# This creates an object library and makes target link
# to it (privately).
function(qt_add_simd_part target)
qt_parse_all_arguments(arg "qt_add_simd_part" "" ""
"NAME;SIMD;${__default_private_args};COMPILE_FLAGS" ${ARGN})
if ("x${arg_SIMD}" STREQUAL x)
message(FATAL_ERROR "qt_add_simd_part needs a SIMD type to be set.")
endif()
set(condition "QT_FEATURE_${arg_SIMD}")
string(TOUPPER "QT_CFLAGS_${arg_SIMD}" simd_flags_var_name)
set(simd_flags_expanded "")
# As per mkspecs/features/simd.prf, the arch_haswell SIMD compiler is enabled when
# qmake's CONFIG contains "avx2", which maps to CMake's QT_FEATURE_avx2.
# The list of dependencies 'avx2 bmi bmi2 f16c fma lzcnt popcnt' only influences whether
# the 'arch_haswell' SIMD flags need to be added explicitly to the compiler invocation.
# If the compiler adds them implicitly, they must be present in qmake's QT_CPU_FEATURES as
# detected by the architecture test, and thus they are present in TEST_subarch_result.
if("${arg_SIMD}" STREQUAL arch_haswell)
set(condition "QT_FEATURE_avx2")
# Use avx2 flags as per simd.prf, if there are no specific arch_haswell flags specified in
# QtCompilerOptimization.cmake.
if("${simd_flags_var_name}" STREQUAL "")
set(simd_flags_var_name "QT_CFLAGS_AVX2")
endif()
# The avx512 profiles dependencies DO influence if the SIMD compiler will be executed,
# so each of the profile dependencies have to be in qmake's CONFIG for the compiler to be
# enabled, which means the CMake features have to evaluate to true.
# Also the profile flags to be used are a combination of arch_haswell, avx512f and each of the
# dependencies.
elseif("${arg_SIMD}" STREQUAL avx512common)
set(condition "QT_FEATURE_avx512cd")
list(APPEND simd_flags_expanded "${QT_CFLAGS_ARCH_HASWELL}")
list(APPEND simd_flags_expanded "${QT_CFLAGS_AVX512F}")
list(APPEND simd_flags_expanded "${QT_CFLAGS_AVX512CD}")
list(REMOVE_DUPLICATES simd_flags_expanded)
elseif("${arg_SIMD}" STREQUAL avx512core)
set(condition "QT_FEATURE_avx512cd AND QT_FEATURE_avx512bw AND QT_FEATURE_avx512dq AND QT_FEATURE_avx512vl")
list(APPEND simd_flags_expanded "${QT_CFLAGS_ARCH_HASWELL}")
list(APPEND simd_flags_expanded "${QT_CFLAGS_AVX512F}")
list(APPEND simd_flags_expanded "${QT_CFLAGS_AVX512CD}")
list(APPEND simd_flags_expanded "${QT_CFLAGS_AVX512BW}")
list(APPEND simd_flags_expanded "${QT_CFLAGS_AVX512DQ}")
list(APPEND simd_flags_expanded "${QT_CFLAGS_AVX512VL}")
list(REMOVE_DUPLICATES simd_flags_expanded)
endif()
set(name "${arg_NAME}")
if("x${name}" STREQUAL x)
set(name "${target}_simd_${arg_SIMD}")
endif()
qt_evaluate_config_expression(result ${condition})
if(${result})
if(QT_CMAKE_DEBUG_EXTEND_TARGET)
message("qt_add_simd_part(${target} SIMD ${arg_SIMD} ...): Evaluated")
endif()
if(NOT simd_flags_expanded)
set(simd_flags_expanded "${${simd_flags_var_name}}")
endif()
foreach(source IN LISTS arg_SOURCES)
set_property(SOURCE "${source}" APPEND
PROPERTY COMPILE_OPTIONS
${simd_flags_expanded}
${arg_COMPILE_FLAGS}
)
endforeach()
set_source_files_properties(${arg_SOURCES} PROPERTIES SKIP_PRECOMPILE_HEADERS TRUE)
target_sources(${target} PRIVATE ${arg_SOURCES})
else()
if(QT_CMAKE_DEBUG_EXTEND_TARGET)
message("qt_add_simd_part(${target} SIMD ${arg_SIMD} ...): Skipped")
endif()
endif()
endfunction()
# From Qt6CoreMacros
# Function used to create the names of output files preserving relative dirs
function(qt_make_output_file infile prefix suffix source_dir binary_dir result)
get_filename_component(outfilename "${infile}" NAME_WE)
set(base_dir "${source_dir}")
string(FIND "${infile}" "${binary_dir}/" in_binary)
if (in_binary EQUAL 0)
set(base_dir "${binary_dir}")
endif()
get_filename_component(abs_infile "${infile}" ABSOLUTE BASE_DIR "${base_dir}")
file(RELATIVE_PATH rel_infile "${base_dir}" "${abs_infile}")
string(REPLACE "../" "__/" mapped_infile "${rel_infile}")
get_filename_component(abs_mapped_infile "${mapped_infile}" ABSOLUTE BASE_DIR "${binary_dir}")
get_filename_component(outpath "${abs_mapped_infile}" PATH)
file(MAKE_DIRECTORY "${outpath}")
set("${result}" "${outpath}/${prefix}${outfilename}${suffix}" PARENT_SCOPE)
endfunction()
# Complete manual moc invocation with full control.
# Use AUTOMOC whenever possible.
function(qt_manual_moc result)
cmake_parse_arguments(arg "" "OUTPUT_MOC_JSON_FILES" "FLAGS" ${ARGN})
set(moc_files)
set(metatypes_json_list)
foreach(infile ${arg_UNPARSED_ARGUMENTS})
qt_make_output_file("${infile}" "moc_" ".cpp"
"${CMAKE_CURRENT_SOURCE_DIR}" "${CMAKE_CURRENT_BINARY_DIR}" outfile)
list(APPEND moc_files "${outfile}")
set(moc_parameters_file "${outfile}_parameters$<$<BOOL:$<CONFIGURATION>>:_$<CONFIGURATION>>")
set(moc_parameters ${arg_FLAGS} -o "${outfile}" "${infile}")
set(metatypes_byproducts)
if (arg_OUTPUT_MOC_JSON_FILES)
set(moc_json_file "${outfile}.json")
list(APPEND moc_parameters --output-json)
list(APPEND metatypes_json_list "${outfile}.json")
set(metatypes_byproducts "${outfile}.json")
endif()
string (REPLACE ";" "\n" moc_parameters "${moc_parameters}")
file(GENERATE OUTPUT "${moc_parameters_file}" CONTENT "${moc_parameters}\n")
add_custom_command(OUTPUT "${outfile}" ${metatypes_byproducts}
COMMAND ${QT_CMAKE_EXPORT_NAMESPACE}::moc "@${moc_parameters_file}"
DEPENDS "${infile}" ${moc_depends} ${QT_CMAKE_EXPORT_NAMESPACE}::moc
WORKING_DIRECTORY "${CMAKE_CURRENT_SOURCE_DIR}" VERBATIM)
endforeach()
set("${result}" ${moc_files} PARENT_SCOPE)
# Register generated json files
if (arg_OUTPUT_MOC_JSON_FILES)
set(${arg_OUTPUT_MOC_JSON_FILES} "${metatypes_json_list}" PARENT_SCOPE)
endif()
endfunction()
# helper to set up a qdbusxml2cpp rule
function(qt_create_qdbusxml2cpp_command target infile)
qt_parse_all_arguments(arg "qt_create_qdbusxml2cpp_command" "ADAPTOR;INTERFACE" "BASENAME" "FLAGS" ${ARGN})
if((arg_ADAPTOR AND arg_INTERFACE) OR (NOT arg_ADAPTOR AND NOT arg_INTERFACE))
message(FATAL_ERROR "qt_create_dbusxml2cpp_command needs either ADAPTOR or INTERFACE.")
endif()
set(option "-a")
set(type "adaptor")
if (arg_INTERFACE)
set(option "-p")
set(type "interface")
endif()
if ("${arg_BASENAME}" STREQUAL "")
get_filename_component(file_dir "${infile}" DIRECTORY)
get_filename_component(file_name "${infile}" NAME_WLE)
get_filename_component(file_ext "${infile}" LAST_EXT)
if("${file_ext}" STREQUAL ".xml")
else()
message(FATAL_ERROR "DBUS ${type} input file is not xml.")
endif()
# use last part of io.qt.something.xml!
get_filename_component(file_ext "${file_name}" LAST_EXT)
if("x${file_ext}" STREQUAL "x")
else()
string(SUBSTRING "${file_ext}" 1 -1 file_name) # cut of leading '.'
endif()
string(TOLOWER "${file_name}" file_name)
set(file_name "${file_name}_${type}")
else()
set(file_name ${arg_BASENAME})
endif()
# Use absolute file path for the source file and set the current working directory to the
# current binary directory, because setting an absolute path for the header:source combo option
# does not work. Splitting on ":" breaks inside the dbus tool when running on Windows
# due to ":" being contained in the drive path (e.g C:\foo.h:C:\foo.cpp).
get_filename_component(absolute_in_file_path "${infile}" ABSOLUTE)
set(header_file "${file_name}.h")
set(source_file "${file_name}.cpp")
add_custom_command(OUTPUT "${header_file}" "${source_file}"
COMMAND ${QT_CMAKE_EXPORT_NAMESPACE}::qdbusxml2cpp ${arg_FLAGS} "${option}"
"${header_file}:${source_file}" "${absolute_in_file_path}"
DEPENDS "${absolute_in_file_path}" ${QT_CMAKE_EXPORT_NAMESPACE}::qdbusxml2cpp
WORKING_DIRECTORY "${CMAKE_CURRENT_BINARY_DIR}"
VERBATIM)
target_sources("${target}" PRIVATE "${header_file}" "${source_file}")
endfunction()
function(qt_compute_injection_forwarding_header target)
qt_parse_all_arguments(arg "qt_compute_injection_forwarding_header"
"PRIVATE" "SOURCE;OUT_VAR" "" ${ARGN})
qt_internal_module_info(module "${target}")
get_filename_component(file_name "${arg_SOURCE}" NAME)
set(source_absolute_path "${CMAKE_CURRENT_BINARY_DIR}/${arg_SOURCE}")
file(RELATIVE_PATH relpath "${PROJECT_BINARY_DIR}" "${source_absolute_path}")
if (arg_PRIVATE)
set(fwd "${PROJECT_VERSION}/${module}/private/${file_name}")
else()
set(fwd "${file_name}")
endif()
string(APPEND ${arg_OUT_VAR} " ${relpath}:${fwd}")
set(${arg_OUT_VAR} ${${arg_OUT_VAR}} PARENT_SCOPE)
endfunction()
function(qt_add_docs)
if(${ARGC} EQUAL 1)
# Function called from old generated CMakeLists.txt that was missing the target parameter
return()
endif()
if(NOT ${ARGC} EQUAL 2)
message(FATAL_ERROR "qt_add_docs called with the wrong number of arguments. Should be qt_add_docs(target path_to_project.qdocconf).")
return()
endif()
set(target ${ARGV0})
set(doc_project ${ARGV1})
# If a target is not built (which can happen for tools when crosscompiling, we shouldn't try
# to generate docs.
if(NOT TARGET "${target}")
return()
endif()
if (NOT QT_SUPERBUILD OR QT_WILL_INSTALL)
set(qdoc_bin "${QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX}/${INSTALL_BINDIR}/qdoc")
set(qtattributionsscanner_bin "${QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX}/${INSTALL_BINDIR}/qtattributionsscanner")
set(qhelpgenerator_bin "${QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX}/${INSTALL_BINDIR}/qhelpgenerator")
else()
set(qdoc_bin "${QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX}/qtbase/${INSTALL_BINDIR}/qdoc")
set(qtattributionsscanner_bin "${QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX}/qtbase/${INSTALL_BINDIR}/qtattributionsscanner")
set(qhelpgenerator_bin "${QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX}/qtbase/${INSTALL_BINDIR}/qhelpgenerator")
endif()
get_target_property(target_type ${target} TYPE)
if (NOT target_type STREQUAL "INTERFACE_LIBRARY")
get_target_property(target_bin_dir ${target} BINARY_DIR)
get_target_property(target_source_dir ${target} SOURCE_DIR)
else()
set(target_bin_dir ${CMAKE_CURRENT_BINARY_DIR})
set(target_source_dir ${CMAKE_CURRENT_SOURCE_DIR})
endif()
set(doc_ouput_dir "${target_bin_dir}/.doc")
# Generate include dir list
set(target_include_dirs_file "${doc_ouput_dir}/$<CONFIG>/includes.txt")
set(include_paths_property "$<TARGET_PROPERTY:${target},INCLUDE_DIRECTORIES>")
if (NOT target_type STREQUAL "INTERFACE_LIBRARY")
file(GENERATE
OUTPUT ${target_include_dirs_file}
CONTENT "-I$<JOIN:${include_paths_property},\n-I>"
)
set(include_path_args "@${target_include_dirs_file}")
else()
set(include_path_args "")
endif()
get_filename_component(doc_target "${doc_project}" NAME_WLE)
if (QT_WILL_INSTALL)
set(qdoc_output_dir "${CMAKE_BINARY_DIR}/${INSTALL_DOCDIR}/${doc_target}")
set(index_dir "${CMAKE_BINARY_DIR}/${INSTALL_DOCDIR}")
elseif (QT_SUPERBUILD)
set(qdoc_output_dir "${QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX}/qtbase/${INSTALL_DOCDIR}/${doc_target}")
set(index_dir "${QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX}/qtbase/${INSTALL_DOCDIR}")
else()
set(qdoc_output_dir "${QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX}/${INSTALL_DOCDIR}/${doc_target}")
set(index_dir "${QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX}/${INSTALL_DOCDIR}")
endif()
# qtattributionsscanner
add_custom_target(qattributionsscanner_${target}
DEPENDS ${qattributionsscanner_bin}
COMMAND ${qtattributionsscanner_bin}
${PROJECT_SOURCE_DIR}
--filter "QDocModule=${qdoc_target}"
-o "${target_bin_dir}/codeattributions.qdoc"
)
# prepare docs target
set(prepare_qdoc_args
-outputdir "${qdoc_output_dir}"
-installdir "${QT_INSTALL_DIR}/${INSTALL_DOCDIR}"
"${target_source_dir}/${doc_project}"
-prepare
-indexdir "${index_dir}"
-no-link-errors
"${include_path_args}"
)
if (QT_WILL_INSTALL)
set(qt_install_docs_env "${CMAKE_INSTALL_PREFIX}/${INSTALL_DOCDIR}")
elseif (QT_SUPERBUILD)
set(qt_install_docs_env "${QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX}/qtbase/${INSTALL_DOCDIR}")
else()
set(qt_install_docs_env "${QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX}/${INSTALL_DOCDIR}")
endif()
set(qdoc_env_args
"QT_INSTALL_DOCS=\"${qt_install_docs_env}\""
"QT_VERSION=${PROJECT_VERSION_MAJOR}.${PROJECT_VERSION_MINOR}.${PROJECT_VERSION_PATCH}"
"QT_VER=${PROJECT_VERSION_MAJOR}.${PROJECT_VERSION_MINOR}"
"QT_VERSION_TAG=${PROJECT_VERSION_MAJOR}${PROJECT_VERSION_MINOR}${PROJECT_VERSION_PATCH}"
"BUILDDIR=${target_bin_dir}"
)
add_custom_target(prepare_docs_${target}
DEPENDS ${qdoc_bin}
COMMAND ${CMAKE_COMMAND} -E env ${qdoc_env_args}
${qdoc_bin}
${prepare_qdoc_args}
)
add_dependencies(prepare_docs_${target} qattributionsscanner_${target})
# generate docs target
set(generate_qdocs_args
-outputdir "${qdoc_output_dir}"
-installdir "${INSTALL_DOCDIR}"
"${target_source_dir}/${doc_project}"
-generate
-indexdir "${index_dir}"
"${include_path_args}"
)
add_custom_target(generate_docs_${target}
DEPENDS ${qdoc_bin}
COMMAND ${CMAKE_COMMAND} -E env ${qdoc_env_args}
${qdoc_bin}
${generate_qdocs_args}
)
add_dependencies(generate_docs_${target} prepare_docs_${target})
# generate html
set(html_qdocs_args
-outputdir "${qdoc_output_dir}"
-installdir "${INSTALL_DOCDIR}"
"${target_source_dir}/${doc_project}"
-indexdir "${index_dir}"
"${include_path_args}"
)
add_custom_target(html_docs_${target}
DEPENDS ${qdoc_bin}
COMMAND ${CMAKE_COMMAND} -E env ${qdoc_env_args}
${qdoc_bin}
${html_qdocs_args}
)
add_dependencies(html_docs_${target} generate_docs_${target})
# generate .qch
set(qch_file_name ${doc_target}.qch)
set(qch_file_path ${qdoc_output_dir}/${qch_file_name})
add_custom_target(qch_docs_${target}
DEPENDS ${qhelpgenerator_bin}
COMMAND ${qhelpgenerator_bin}
"${qdoc_output_dir}/${doc_target}.qhp"
-o "${qch_file_path}"
)
add_dependencies(qch_docs_${target} generate_docs_${target})
if (QT_WILL_INSTALL)
add_custom_target(install_html_docs_${target}
COMMAND ${CMAKE_COMMAND} -E copy_directory
"${qdoc_output_dir}"
"${CMAKE_INSTALL_PREFIX}/${INSTALL_DOCDIR}/${doc_target}"
COMMENT "Installing html docs for target ${target}"
)
add_custom_target(install_qch_docs_${target}
COMMAND ${CMAKE_COMMAND} -E copy_if_different
"${qch_file_path}"
"${CMAKE_INSTALL_PREFIX}/${INSTALL_DOCDIR}/${qch_file_name}"
COMMENT "Installing qch docs for target ${target}"
)
else()
# Don't need to do anything when not installing
add_custom_target(install_html_docs_${target})
add_custom_target(install_qch_docs_${target})
endif()
add_dependencies(install_html_docs_${target} html_docs_${target})
add_dependencies(install_qch_docs_${target} qch_docs_${target})
add_custom_target(install_docs_${target})
add_dependencies(install_docs_${target} install_html_docs_${target} install_qch_docs_${target})
add_custom_target(docs_${target})
add_dependencies(docs_${target} html_docs_${target})
add_dependencies(docs_${target} qch_docs_${target})
add_dependencies(${qt_docs_prepare_target_name} prepare_docs_${target})
add_dependencies(${qt_docs_generate_target_name} generate_docs_${target})
add_dependencies(${qt_docs_html_target_name} html_docs_${target})
add_dependencies(${qt_docs_qch_target_name} qch_docs_${target})
add_dependencies(${qt_docs_target_name} docs_${target})
add_dependencies(${qt_docs_install_html_target_name} install_html_docs_${target})
add_dependencies(${qt_docs_install_qch_target_name} install_qch_docs_${target})
add_dependencies(${qt_docs_install_target_name} install_docs_${target})
endfunction()
# This function recursively walks transitive link libraries of the given target
# and promotes those targets to be IMPORTED_GLOBAL if they are not.
#
# This is required for .prl file generation in top-level builds, to make sure that imported 3rd
# party library targets in any repo are made global, so there are no scoping issues.
#
# Only works if called from qt_find_package(), because the promotion needs to happen in the same
# directory scope where the imported target is first created.
#
# Uses qt_internal_walk_libs.
function(qt_find_package_promote_targets_to_global_scope target)
qt_internal_walk_libs("${target}" _discared_out_var
"qt_find_package_targets_dict" "promote_global")
endfunction()
macro(qt_find_package)
# Get the target names we expect to be provided by the package.
set(options CONFIG NO_MODULE MODULE REQUIRED)
set(oneValueArgs MODULE_NAME QMAKE_LIB)
set(multiValueArgs PROVIDED_TARGETS COMPONENTS)
cmake_parse_arguments(arg "${options}" "${oneValueArgs}" "${multiValueArgs}" ${ARGN})
# If some Qt internal project calls qt_find_package(WrapFreeType), but WrapFreeType was already
# found as part of a find_dependency() call from a ModuleDependencies.cmake file (or similar),
# and the provided target is also found, that means this might have been an unnecessary
# qt_find_package() call, because the dependency was already found via some other transitive
# dependency. Return early, so that CMake doesn't fail wiht an error with trying to promote the
# targets to be global. This behavior is not enabled by default, because there are cases
# when a regular find_package() (non qt_) can find a package (Freetype -> PNG), and a subsequent
# qt_find_package(PNG PROVIDED_TARGET PNG::PNG) still needs to succeed and register the provided
# targets. To enable the debugging behavior, set QT_DEBUG_QT_FIND_PACKAGE to 1.
set(_qt_find_package_skip_find_package FALSE)
if(QT_DEBUG_QT_FIND_PACKAGE AND ${ARGV0}_FOUND AND arg_PROVIDED_TARGETS)
set(_qt_find_package_skip_find_package TRUE)
foreach(qt_find_package_target_name ${arg_PROVIDED_TARGETS})
if(NOT TARGET ${qt_find_package_target_name})
set(_qt_find_package_skip_find_package FALSE)
endif()
endforeach()
if(_qt_find_package_skip_find_package)
message(AUTHOR_WARNING "qt_find_package(${ARGV0}) called even though the package "
"was already found. Consider removing the call.")
endif()
endif()
# Get the version if specified.
set(package_version "")
if(${ARGC} GREATER_EQUAL 2)
if(${ARGV1} MATCHES "^[0-9\.]+$")
set(package_version "${ARGV1}")
endif()
endif()
if(arg_COMPONENTS)
# Re-append components to forward them.
list(APPEND arg_UNPARSED_ARGUMENTS "COMPONENTS;${arg_COMPONENTS}")
endif()
# Don't look for packages in PATH if requested to.
if(QT_NO_USE_FIND_PACKAGE_SYSTEM_ENVIRONMENT_PATH)
set(_qt_find_package_use_system_env_backup "${CMAKE_FIND_USE_SYSTEM_ENVIRONMENT_PATH}")
set(CMAKE_FIND_USE_SYSTEM_ENVIRONMENT_PATH "OFF")
endif()
if(NOT (arg_CONFIG OR arg_NO_MODULE OR arg_MODULE) AND NOT _qt_find_package_skip_find_package)
# Try to find a config package first in quiet mode
set(config_package_arg ${arg_UNPARSED_ARGUMENTS})
list(APPEND config_package_arg "CONFIG;QUIET")
find_package(${config_package_arg})
# Double check that in config mode the targets become visible. Sometimes
# only the module mode creates the targets. For example with vcpkg, the sqlite
# package provides sqlite3-config.cmake, which offers multi-config targets but
# in their own way. CMake has FindSQLite3.cmake and with the original
# qt_find_package(SQLite3) call it is our intention to use the cmake package
# in module mode.
if (${ARGV0}_FOUND AND arg_PROVIDED_TARGETS)
unset(any_target_found)
foreach(expected_target ${arg_PROVIDED_TARGETS})
if (TARGET ${expected_target})
set(any_target_found TRUE)
break()
endif()
endforeach()
if(NOT any_target_found)
unset(${ARGV0}_FOUND)
endif()
endif()
endif()
# Ensure the options are back in the original unparsed arguments
foreach(opt IN LISTS options)
if(arg_${opt})
list(APPEND arg_UNPARSED_ARGUMENTS ${opt})
endif()
endforeach()
if (NOT ${ARGV0}_FOUND AND NOT _qt_find_package_skip_find_package)
# Unset the NOTFOUND ${package}_DIR var that might have been set by the previous
# find_package call, to get rid of "not found" messagees in the feature summary
# if the package is found by the next find_package call.
if(DEFINED CACHE{${ARGV0}_DIR} AND NOT ${ARGV0}_DIR)
unset(${ARGV0}_DIR CACHE)
endif()
# Call original function without our custom arguments.
find_package(${arg_UNPARSED_ARGUMENTS})
endif()
if(QT_NO_USE_FIND_PACKAGE_SYSTEM_ENVIRONMENT_PATH)
if("${_qt_find_package_use_system_env_backup}" STREQUAL "")
unset(CMAKE_FIND_USE_SYSTEM_ENVIRONMENT_PATH)
else()
set(CMAKE_FIND_USE_SYSTEM_ENVIRONMENT_PATH "${_qt_find_package_use_system_env_backup}")
endif()
endif()
if(${ARGV0}_FOUND AND arg_PROVIDED_TARGETS AND NOT _qt_find_package_skip_find_package)
# If package was found, associate each target with its package name. This will be used
# later when creating Config files for Qt libraries, to generate correct find_dependency()
# calls. Also make the provided targets global, so that the properties can be read in
# all scopes.
foreach(qt_find_package_target_name ${arg_PROVIDED_TARGETS})
if(TARGET ${qt_find_package_target_name})
# Allow usage of aliased targets by setting properties on the actual target
get_target_property(aliased_target ${qt_find_package_target_name} ALIASED_TARGET)
if(aliased_target)
set(qt_find_package_target_name ${aliased_target})
endif()
set_target_properties(${qt_find_package_target_name}
PROPERTIES INTERFACE_QT_PACKAGE_NAME ${ARGV0})
if(package_version)
set_target_properties(${qt_find_package_target_name}
PROPERTIES INTERFACE_QT_PACKAGE_VERSION ${ARGV1})
endif()
if(arg_COMPONENTS)
string(REPLACE ";" " " components_as_string "${arg_COMPONENTS}")
set_property(TARGET ${qt_find_package_target_name}
PROPERTY INTERFACE_QT_PACKAGE_COMPONENTS ${components_as_string})
endif()
get_property(is_global TARGET ${qt_find_package_target_name} PROPERTY
IMPORTED_GLOBAL)
if(NOT is_global)
set_property(TARGET ${qt_find_package_target_name} PROPERTY
IMPORTED_GLOBAL TRUE)
qt_find_package_promote_targets_to_global_scope(
"${qt_find_package_target_name}")
endif()
endif()
endforeach()
if(arg_MODULE_NAME AND arg_QMAKE_LIB
AND (NOT arg_QMAKE_LIB IN_LIST QT_QMAKE_LIBS_FOR_${arg_MODULE_NAME}))
set(QT_QMAKE_LIBS_FOR_${arg_MODULE_NAME}
${QT_QMAKE_LIBS_FOR_${arg_MODULE_NAME}};${arg_QMAKE_LIB} CACHE INTERNAL "")
set(QT_QMAKE_LIB_TARGETS_${arg_QMAKE_LIB} ${arg_PROVIDED_TARGETS} CACHE INTERNAL "")
endif()
endif()
endmacro()
macro(qt_add_qmake_lib_dependency lib dep)
string(REPLACE "-" "_" dep ${dep})
string(TOUPPER "${dep}" ucdep)
list(APPEND QT_QMAKE_LIB_DEPS_${lib} ${ucdep})
endmacro()
macro(qt_find_apple_system_frameworks)
if(APPLE)
find_library(FWAppKit AppKit)
find_library(FWAssetsLibrary AssetsLibrary)
find_library(FWAudioToolbox AudioToolbox)
find_library(FWApplicationServices ApplicationServices)
find_library(FWCarbon Carbon)
find_library(FWCoreFoundation CoreFoundation)
find_library(FWCoreServices CoreServices)
find_library(FWCoreGraphics CoreGraphics)
find_library(FWCoreText CoreText)
find_library(FWCoreVideo CoreVideo)
find_library(FWcups cups)
find_library(FWDiskArbitration DiskArbitration)
find_library(FWFoundation Foundation)
find_library(FWIOBluetooth IOBluetooth)
find_library(FWIOKit IOKit)
find_library(FWIOSurface IOSurface)
find_library(FWImageIO ImageIO)
find_library(FWMetal Metal)
find_library(FWMobileCoreServices MobileCoreServices)
find_library(FWQuartzCore QuartzCore)
find_library(FWSecurity Security)
find_library(FWSystemConfiguration SystemConfiguration)
find_library(FWUIKit UIKit)
find_library(FWWatchKit WatchKit)
find_library(FWGameController GameController)
endif()
endmacro()
# Match the pattern 'regex' in 'input_line', replace the match with 'replacement'
# and set that result in 'out_var' in the parent scope.
function(qt_regex_match_and_get input_line regex replacement out_var)
string(REGEX MATCH "${regex}" match "${input_line}")
if(match)
string(REGEX REPLACE "${regex}" "${replacement}" match "${input_line}")
string(STRIP ${match} match)
set(${out_var} "${match}" PARENT_SCOPE)
endif()
endfunction()
# Match 'regex' in a list of lines. When found, set the value to 'out_var' and break early.
function(qt_qlalr_find_option_in_list input_list regex out_var)
foreach(line ${input_list})
qt_regex_match_and_get("${line}" "${regex}" "\\1" option)
if(option)
string(TOLOWER ${option} option)
set(${out_var} "${option}" PARENT_SCOPE)
return()
endif()
endforeach()
message(FATAL_ERROR "qt_qlalr_find_option_in_list: Could not extract ${out_var}")
endfunction()
# Generate a few output files using qlalr, and assign those to 'consuming_target'.
# 'input_file_list' is a list of 'foo.g' file paths.
# 'flags' are extra flags to be passed to qlalr.
function(qt_process_qlalr consuming_target input_file_list flags)
# Don't try to extend_target when cross compiling an imported host target (like a tool).
qt_is_imported_target("${consuming_target}" is_imported)
if(is_imported)
return()
endif()
foreach(input_file ${input_file_list})
file(STRINGS ${input_file} input_file_lines)
qt_qlalr_find_option_in_list("${input_file_lines}" "^%parser(.+)" "parser")
qt_qlalr_find_option_in_list("${input_file_lines}" "^%decl(.+)" "decl")
qt_qlalr_find_option_in_list("${input_file_lines}" "^%impl(.+)" "impl")
get_filename_component(base_file_name ${input_file} NAME_WE)
set(cpp_file "${parser}.cpp")
set(private_file "${parser}_p.h")
set(decl_file "${decl}")
set(impl_file "${impl}")
add_custom_command(
OUTPUT ${cpp_file} ${private_file} ${decl_file} ${impl_file}
COMMAND ${QT_CMAKE_EXPORT_NAMESPACE}::qlalr ${flags} ${input_file}
DEPENDS ${QT_CMAKE_EXPORT_NAMESPACE}::qlalr
MAIN_DEPENDENCY ${input_file}
)
target_sources(${consuming_target} PRIVATE ${cpp_file} ${impl_file})
endforeach()
endfunction()
# qt_configure_file(OUTPUT output-file <INPUT input-file | CONTENT content>)
# input-file is relative to ${CMAKE_CURRENT_SOURCE_DIR}
# output-file is relative to ${CMAKE_CURRENT_BINARY_DIR}
#
# This function is similar to file(GENERATE OUTPUT) except it writes the content
# to the file at configure time, rather than at generate time. Once CMake 3.18 is released, it can use file(CONFIGURE) in its implmenetation. Until then, it
# uses configure_file() with a generic input file as source, when used with the CONTENT signature.
function(qt_configure_file)
qt_parse_all_arguments(arg "qt_configure_file" "" "OUTPUT;INPUT;CONTENT" "" ${ARGN})
if(NOT arg_OUTPUT)
message(FATAL_ERROR "No output file provided to qt_configure_file.")
endif()
if(arg_CONTENT)
set(template_name "QtFileConfigure.txt.in")
# When building qtbase, use the source template file.
# Otherwise use the installed file.
# This should work for non-prefix and superbuilds as well.
if(QtBase_SOURCE_DIR)
set(input_file "${QtBase_SOURCE_DIR}/cmake/${template_name}")
else()
set(input_file "${Qt6_DIR}/${template_name}")
endif()
set(__qt_file_configure_content "${arg_CONTENT}")
elseif(arg_INPUT)
set(input_file "${arg_INPUT}")
else()
message(FATAL_ERROR "No input value provided to qt_configure_file.")
endif()
configure_file("${input_file}" "${arg_OUTPUT}" @ONLY)
endfunction()
macro(qt_add_string_to_qconfig_cpp str)
string(LENGTH "${str}" length)
string(APPEND QT_CONFIG_STRS " \"${str}\\0\"\n")
string(APPEND QT_CONFIG_STR_OFFSETS " ${QT_CONFIG_STR_OFFSET},\n")
math(EXPR QT_CONFIG_STR_OFFSET "${QT_CONFIG_STR_OFFSET}+${length}+1")
endmacro()
function(qt_generate_qconfig_cpp)
set(QT_CONFIG_STR_OFFSET "0")
set(QT_CONFIG_STR_OFFSETS "")
set(QT_CONFIG_STRS "")
# Start first part.
qt_add_string_to_qconfig_cpp("${INSTALL_DOCDIR}")
qt_add_string_to_qconfig_cpp("${INSTALL_INCLUDEDIR}")
qt_add_string_to_qconfig_cpp("${INSTALL_LIBDIR}")
qt_add_string_to_qconfig_cpp("${INSTALL_LIBEXECDIR}")
qt_add_string_to_qconfig_cpp("${INSTALL_BINDIR}")
qt_add_string_to_qconfig_cpp("${INSTALL_PLUGINSDIR}")
qt_add_string_to_qconfig_cpp("${INSTALL_QMLDIR}")
qt_add_string_to_qconfig_cpp("${INSTALL_ARCHDATADIR}")
qt_add_string_to_qconfig_cpp("${INSTALL_DATADIR}")
qt_add_string_to_qconfig_cpp("${INSTALL_TRANSLATIONSDIR}")
qt_add_string_to_qconfig_cpp("${INSTALL_EXAMPLESDIR}")
qt_add_string_to_qconfig_cpp("${INSTALL_TESTSDIR}")
# Save first part.
set(QT_CONFIG_STR_OFFSETS_FIRST "${QT_CONFIG_STR_OFFSETS}")
set(QT_CONFIG_STRS_FIRST "${QT_CONFIG_STRS}")
# Start second part.
set(QT_CONFIG_STR_OFFSETS "")
set(QT_CONFIG_STRS "")
qt_add_string_to_qconfig_cpp("") # config.input.sysroot
qt_add_string_to_qconfig_cpp("false") # qmake_sysrootify
qt_add_string_to_qconfig_cpp("${INSTALL_BINDIR}") # TODO: Host-specific
qt_add_string_to_qconfig_cpp("${INSTALL_LIBDIR}") # TODO: Host-specific
qt_add_string_to_qconfig_cpp("${INSTALL_DATADIR}") # TODO: Host-specific
qt_add_string_to_qconfig_cpp("${QT_QMAKE_TARGET_MKSPEC}")
qt_add_string_to_qconfig_cpp("${QT_QMAKE_HOST_MKSPEC}")
# Save second part.
set(QT_CONFIG_STR_OFFSETS_SECOND "${QT_CONFIG_STR_OFFSETS}")
set(QT_CONFIG_STRS_SECOND "${QT_CONFIG_STRS}")
# Settings path / sysconf dir.
if(APPLE)
set(QT_DEFAULT_SYS_CONF_DIR "/Library/Preferences/Qt")
else()
set(QT_DEFAULT_SYS_CONF_DIR "etc/xdg")
endif()
# Compute and set relocation prefixes.
# TODO: Clean this up, there's a bunch of unrealistic assumptions here.
# See qtConfOutput_preparePaths in qtbase/configure.pri.
if(WIN32)
set(lib_location_absolute_path
"${QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX}/${INSTALL_BINDIR}")
else()
set(lib_location_absolute_path
"${QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX}/${INSTALL_LIBDIR}")
endif()
file(RELATIVE_PATH from_lib_location_to_prefix
"${lib_location_absolute_path}" "${QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX}")
set(QT_CONFIGURE_LIBLOCATION_TO_PREFIX_PATH "${from_lib_location_to_prefix}")
# The QT_CONFIGURE_HOSTBINDIR_TO_*PREFIX_PATH defines are exclusively used by qmake to determine
# the prefix from the location of the qmake executable. In our build of qmake host_prefix is
# always the same as ext_prefix, and we can just use CMAKE_INSTALL_PREFIX for the calculation of
# the relative path between <ext_prefix>/bin and <ext_prefix>.
set(bin_dir_absolute_path "${CMAKE_INSTALL_PREFIX}/${INSTALL_BINDIR}")
file(RELATIVE_PATH from_bin_dir_to_prefix "${bin_dir_absolute_path}" "${CMAKE_INSTALL_PREFIX}")
set(QT_CONFIGURE_HOSTBINDIR_TO_HOSTPREFIX_PATH "${from_bin_dir_to_prefix}")
set(QT_CONFIGURE_HOSTBINDIR_TO_EXTPREFIX_PATH "${from_bin_dir_to_prefix}")
configure_file(global/qconfig.cpp.in global/qconfig.cpp @ONLY)
endfunction()
function(qt_set_language_standards)
## Use the latest standard the compiler supports (same as qt_common.prf)
if (QT_FEATURE_cxx2a)
set(CMAKE_CXX_STANDARD 20 PARENT_SCOPE)
else()
set(CMAKE_CXX_STANDARD 17 PARENT_SCOPE)
endif()
if (c_std_11 IN_LIST CMAKE_C_COMPILE_FEATURES)
set(CMAKE_C_STANDARD 11 PARENT_SCOPE)
elseif (c_std_99 IN_LIST CMAKE_C_COMPILE_FEATURES)
set(CMAKE_C_STANDARD 99 PARENT_SCOPE)
endif()
endfunction()
function(qt_set_language_standards_interface_compile_features target)
# Regardless of which C++ standard is used to build Qt itself, require C++17 when building
# Qt applications using CMake (because the Qt header files use C++17 features).
set(cpp_feature "cxx_std_17")
target_compile_features("${target}" INTERFACE ${cpp_feature})
endfunction()
function(qt_enable_msvc_cplusplus_define target visibility)
# For MSVC we need to explicitly pass -Zc:__cplusplus to get correct __cplusplus.
# Check qt_config_compile_test for more info.
if(CMAKE_CXX_COMPILER_ID STREQUAL "MSVC" AND MSVC_VERSION GREATER_EQUAL 1913)
target_compile_options("${target}" ${visibility} "-Zc:__cplusplus")
endif()
endfunction()
function(qt_enable_utf8_sources target)
set(utf8_flags "")
if(MSVC)
list(APPEND utf8_flags "-utf-8")
elseif(WIN32 AND ICC)
list(APPEND utf8_flags "-Qoption,cpp,--unicode_source_kind,UTF-8")
endif()
if(utf8_flags)
# Allow opting out by specifying the QT_NO_UTF8_SOURCE target property.
set(genex_condition "$<NOT:$<BOOL:$<TARGET_PROPERTY:QT_NO_UTF8_SOURCE>>>")
set(utf8_flags "$<${genex_condition}:${utf8_flags}>")
target_compile_options("${target}" INTERFACE "${utf8_flags}")
endif()
endfunction()
# Equivalent of qmake's qtNomakeTools(directory1 directory2).
# If QT_NO_MAKE_TOOLS is true, then targets within the given directories will be excluded from the
# default 'all' target, as well as from install phase.
# The private variable is checked by qt_add_executable.
function(qt_exclude_tool_directories_from_default_target)
if(QT_NO_MAKE_TOOLS)
set(absolute_path_directories "")
foreach(directory ${ARGV})
list(APPEND absolute_path_directories "${CMAKE_CURRENT_SOURCE_DIR}/${directory}")
endforeach()
set(__qt_exclude_tool_directories "${absolute_path_directories}" PARENT_SCOPE)
endif()
endfunction()
function(qt_compute_relative_rpath_base rpath install_location out_var)
set(install_lib_dir_absolute "${CMAKE_INSTALL_PREFIX}/${INSTALL_LIBDIR}")
get_filename_component(rpath_absolute "${rpath}"
ABSOLUTE BASE_DIR "${install_lib_dir_absolute}")
if(NOT IS_ABSOLUTE)
set(install_location_absolute "${CMAKE_INSTALL_PREFIX}/${install_location}")
endif()
# Compute relative rpath from where the target will be installed, to the place where libraries
# will be placed (INSTALL_LIBDIR).
file(RELATIVE_PATH rpath_relative "${install_location_absolute}" "${rpath_absolute}")
if("${rpath_relative}" STREQUAL "")
# file(RELATIVE_PATH) returns an empty string if the given absolute paths are equal
set(rpath_relative ".")
endif()
# Prepend $ORIGIN / @loader_path style tokens (qmake's QMAKE_REL_RPATH_BASE), to make the
# relative rpaths work. qmake does this automatically when generating a project, so it wasn't
# needed in the .prf files, but for CMake we need to prepend them ourselves.
if(APPLE)
set(rpath_rel_base "@loader_path")
elseif(LINUX)
set(rpath_rel_base "$ORIGIN")
else()
message(WARNING "No known RPATH_REL_BASE for target platform.")
set(rpath_rel_base "NO_KNOWN_RPATH_REL_BASE")
endif()
if(rpath_relative STREQUAL ".")
set(rpath_relative "${rpath_rel_base}")
else()
set(rpath_relative "${rpath_rel_base}/${rpath_relative}")
endif()
set("${out_var}" "${rpath_relative}" PARENT_SCOPE)
endfunction()
# Applies necessary rpaths to a target upon target installation.
# No-op when targeting Windows, Android, or non-prefix builds.
#
# If no RELATIVE_RPATH option is given, embeds an absolute path rpath to ${INSTALL_LIBDIR}.
# If RELATIVE_RPATH is given, the INSTALL_PATH value is to compute the relative path from
# ${INSTALL_LIBDIR} to wherever the target will be installed (the value of INSTALL_PATH).
# It's the equivalent of qmake's relative_qt_rpath.
# INSTALL_PATH is used to implement the equivalent of qmake's $$qtRelativeRPathBase().
#
# A cache variable QT_DISABLE_RPATH can be set to disable embedding any rpaths when installing.
function(qt_apply_rpaths)
# No rpath support for win32 and android. Also no need to apply rpaths when doing a non-prefix
# build.
if(NOT QT_WILL_INSTALL OR WIN32 OR ANDROID)
return()
endif()
# Rpaths xplicitly disabled (like for uikit), equivalent to qmake's no_qt_rpath.
if(QT_DISABLE_RPATH)
return()
endif()
qt_parse_all_arguments(arg "qt_apply_rpaths" "RELATIVE_RPATH" "TARGET;INSTALL_PATH" "" ${ARGN})
if(NOT arg_TARGET)
message(FATAL_ERRO "No target given to qt_apply_rpaths.")
else()
set(target "${arg_TARGET}")
endif()
# If a target is not built (which can happen for tools when crosscompiling, we shouldn't try
# to apply properties.
if(NOT TARGET "${target}")
return()
endif()
# Protect against interface libraries.
get_target_property(target_type "${target}" TYPE)
if (target_type STREQUAL "INTERFACE_LIBRARY")
return()
endif()
if(NOT arg_INSTALL_PATH)
message(FATAL_ERROR "No INSTALL_PATH given to qt_apply_rpaths.")
endif()
set(rpaths "")
# Modify the install path to contain the nested structure of a framework.
get_target_property(is_framework "${target}" FRAMEWORK)
if(is_framework)
if(UIKIT)
# Shallow framework
string(APPEND arg_INSTALL_PATH "/Qt${target}.framework")
else()
# Full framework
string(APPEND arg_INSTALL_PATH "/Qt${target}.framework/Versions/Current")
endif()
endif()
# Same but for an app bundle.
get_target_property(is_bundle "${target}" MACOSX_BUNDLE)
if(is_bundle AND NOT is_framework)
if(UIKIT)
# Shallow bundle
string(APPEND arg_INSTALL_PATH "/${target}.app")
else()
# Full bundle
string(APPEND arg_INSTALL_PATH "/${target}.app/Contents/MacOS")
endif()
endif()
# Somewhat similar to mkspecs/features/qt.prf
if(arg_RELATIVE_RPATH)
qt_compute_relative_rpath_base(
"${_default_install_rpath}" "${arg_INSTALL_PATH}" relative_rpath)
list(APPEND rpaths "${relative_rpath}")
else()
list(APPEND rpaths "${_default_install_rpath}")
endif()
# Somewhat similar to mkspecs/features/qt_build_extra.prf.
foreach(rpath ${QT_EXTRA_RPATHS})
if(IS_ABSOLUTE)
list(APPEND rpaths "${rpath}")
else()
qt_compute_relative_rpath_base("${rpath}" "${arg_INSTALL_PATH}" relative_rpath)
list(APPEND rpaths "${relative_rpath}")
endif()
endforeach()
if(rpaths)
list(REMOVE_DUPLICATES rpaths)
set_property(TARGET "${target}" APPEND PROPERTY INSTALL_RPATH ${rpaths})
endif()
endfunction()
function(qt_internal_set_up_sanitizer_features)
set(ECM_ENABLE_SANITIZERS "" CACHE STRING "Enable sanitizers")
set_property(CACHE ECM_ENABLE_SANITIZERS PROPERTY STRINGS "address;memory;thread;undefined")
# If FEATURE_sanitize_foo is set on the command line, make sure to set the appropriate
# ECM_ENABLE_SANITIZERS value. Also the other way around. This basically allows setting either
# the feature or ECM_ENABLE_SANITIZERS directly.
#
# TODO: Decide which one of these should be the source of truth, because reconfiguration with
# different options might not work as expected when ECM_ENABLE_SANITIZERS is provided instead of
# the features.
set(enabled_sanitizer_features "")
foreach(sanitizer_type address memory thread undefined)
if(FEATURE_sanitize_${sanitizer_type})
list(APPEND enabled_sanitizer_features "${sanitizer_type}")
endif()
endforeach()
if(enabled_sanitizer_features)
set(ECM_ENABLE_SANITIZERS
"${enabled_sanitizer_features}" CACHE STRING "Enable sanitizers" FORCE)
endif()
if(ECM_ENABLE_SANITIZERS)
foreach(sanitizer_type ${ECM_ENABLE_SANITIZERS})
message(STATUS "Enabling sanitizer: ${sanitizer_type}")
set(feature_name "FEATURE_sanitize_${sanitizer_type}")
set(${feature_name} "ON" CACHE BOOL "Enable ${sanitizer_type} sanitizer" FORCE)
set(QT_${feature_name} "ON" CACHE BOOL "Enable ${sanitizer_type} sanitizer" FORCE)
endforeach()
endif()
endfunction()
function(qt_internal_apply_win_prefix_and_suffix target)
if(WIN32)
# Table of prefix / suffixes for MSVC libraries as qmake expects them to be created.
# static - Qt6EdidSupport.lib (platform support libraries / or static QtCore, etc)
# shared - Qt6Core.dll
# shared import library - Qt6Core.lib
# module aka Qt plugin - qwindows.dll
# module import library - qwindows.lib
#
# The CMake defaults are fine for us.
# Table of prefix / suffixes for MinGW libraries as qmake expects them to be created.
# static - libQt6EdidSupport.a (platform support libraries / or static QtCore, etc)
# shared - Qt6Core.dll
# shared import library - libQt6Core.a
# module aka Qt plugin - qwindows.dll
# module import library - libqwindows.a
#
# CMake for Windows-GNU platforms defaults the prefix to "lib".
# CMake for Windows-GNU platforms defaults the import suffix to ".dll.a".
# These CMake defaults are not ok for us.
# This should cover both MINGW with GCC and CLANG.
if(NOT MSVC)
set_property(TARGET "${target}" PROPERTY IMPORT_SUFFIX ".a")
get_target_property(target_type ${target} TYPE)
if(target_type STREQUAL "STATIC_LIBRARY")
set_property(TARGET "${target}" PROPERTY PREFIX "lib")
else()
set_property(TARGET "${target}" PROPERTY PREFIX "")
set_property(TARGET "${target}" PROPERTY IMPORT_PREFIX "lib")
endif()
endif()
endif()
endfunction()
# Compatibility macros that should be removed once all their usages are removed.
function(extend_target)
qt_extend_target(${ARGV})
endfunction()
function(add_qt_module)
qt_add_module(${ARGV})
endfunction()
function(add_qt_plugin)
qt_add_plugin(${ARGV})
endfunction()
function(add_qt_tool)
qt_add_tool(${ARGV})
endfunction()
function(add_qt_test)
qt_add_test(${ARGV})
endfunction()
function(add_qt_test_helper)
qt_add_test_helper(${ARGV})
endfunction()
function(add_qt_manual_test)
qt_add_manual_test(${ARGV})
endfunction()
function(add_qt_benchmark)
qt_add_benchmark(${ARGV})
endfunction()
function(add_qt_executable)
qt_add_executable(${ARGV})
endfunction()
function(add_qt_simd_part)
qt_add_simd_part(${ARGV})
endfunction()
function(add_qt_docs)
qt_add_docs(${ARGV})
endfunction()
function(add_qt_resource)
qt_add_resource(${ARGV})
endfunction()
function(add_cmake_library)
qt_add_cmake_library(${ARGV})
endfunction()