qt5base-lts/cmake/QtModuleHelpers.cmake

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# Copyright (C) 2022 The Qt Company Ltd.
# SPDX-License-Identifier: BSD-3-Clause
macro(qt_internal_get_internal_add_module_keywords option_args single_args multi_args)
set(${option_args}
STATIC
EXCEPTIONS
INTERNAL_MODULE
HEADER_MODULE
DISABLE_TOOLS_EXPORT
SKIP_DEPENDS_INCLUDE
NO_MODULE_HEADERS
NO_SYNC_QT
NO_PRIVATE_MODULE
NO_CONFIG_HEADER_FILE
NO_ADDITIONAL_TARGET_INFO
NO_GENERATE_METATYPES
NO_HEADERSCLEAN_CHECK
GENERATE_CPP_EXPORTS
GENERATE_PRIVATE_CPP_EXPORTS
NO_UNITY_BUILD
)
set(${single_args}
MODULE_INCLUDE_NAME
Merge main and private targets of the internal modules In cmake, targets are used as an entity for modules. This causes a number of problems when we want to manipulate a module as a separate entity with properties associated with it. The _qt_internal_module_interface_name target property is introduced to represent the module entity. All modules write a name to this property, which will subsequently expand into the module name matched with the module name in qmake. The 'qt_internal_module_info' function is responsible for providing the correct values ​​for the module properties used when working with a module target. Unlike qmake, for internal modules in cmake it is expected that the Private suffix will be specified explicitly. In case the user wants to have a different module name, an additional argument MODULE_INTERFACE_NAME of the qt_internal_add_module function is introduced. This also changes the way how target dependencies are collected and resolved. Since the 'Private' suffix no longer means an unique identifier of the module 'Private' part, we look for the both Private and non-Private package names when resolving dependencies. TODO: This change doesn't affect the existing internal modules, so to keep compatibility with the existing code the existing internal modules create 'Private' aliases. The code that provides backward compatibility must be removed once all internal modules will get the proper names. Taks-number: QTBUG-87775 Change-Id: Ib4f28341506fb2e73eee960a709e24c42bbcd5ec Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2021-04-06 16:57:11 +00:00
MODULE_INTERFACE_NAME
CONFIG_MODULE_NAME
PRECOMPILED_HEADER
CONFIGURE_FILE_PATH
CPP_EXPORT_HEADER_BASE_NAME
EXTERNAL_HEADERS_DIR
PRIVATE_HEADER_FILTERS
QPA_HEADER_FILTERS
Replace the syncqt.pl script with syncqt tool syncqt.pl adds an extra dependency on perl when building Qt. Modern C++ provides the convenient cross-platform way to access a filesystem and to use regular expressions, so we may replace the perl script with C++ application. The syncqt executable is built at configure time and installed as QtCore tool. It's running at configure time to deliver the required header files for IDE to build a consistent code model and at the build time to keep tracking changes in header files and generate the missing aliases without reconfiguring. 'syncqt' only parses header files from a CMake build tree, so the resulting Qt installation only contains interfacing headers that belong to the platform that Qt is built for. 'sync.profile' files are not used as the 'source of truth' for sync qt procedure anymore, all the necessary information is taken from either CMake files at configure time or from the module header files while parsing them. syncqt.pl is still in place since it's required as fallback solution for a smooth transition to the new syncqt implementation for all qt repositories. This patchset only enables the C++ based syncqt for 'qtbase' repository. From the performance perspective C++ version works faster then perl script, also the configure time is reduced significally on subsequent reconfigurations - up x2 times faster when re-configuring repository, but it also takes time to compile the tool itself the first time. Numbers for qtbase: syncqt.pl syncqt.cpp initial: 0m16,035s 0m20,413s reconfig: 0m6,819s 0m3,725s The syncing procedure can be run separately for each module using <ModuleName>_sync_headers targets. The 'sync_headers' target can be used to sync all the modules at once. Task-number: QTBUG-87480 Task-number: QTBUG-103196 Change-Id: I8c938bcaf88a8713b39bbfd66d9e7ef12b2c3523 Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2022-08-15 16:29:41 +00:00
HEADER_SYNC_SOURCE_DIRECTORY
${__default_target_info_args}
)
set(${multi_args}
QMAKE_MODULE_CONFIG
EXTRA_CMAKE_FILES
EXTRA_CMAKE_INCLUDES
NO_PCH_SOURCES
EXTERNAL_HEADERS
POLICIES
${__default_private_args}
${__default_public_args}
${__default_private_module_args}
)
endmacro()
# The function helps to wrap module include paths with the header existence check.
function(qt_internal_append_include_directories_with_headers_check target list_to_append type)
string(TOLOWER "${type}" type)
string(JOIN "" has_headers_check
"$<BOOL:"
"$<TARGET_PROPERTY:"
"$<TARGET_NAME:${target}>,"
"_qt_module_has_${type}_headers"
">"
">"
)
foreach(directory IN LISTS ARGN)
list(APPEND ${list_to_append}
"$<${has_headers_check}:${directory}>")
endforeach()
set(${list_to_append} "${${list_to_append}}" PARENT_SCOPE)
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".
#
# Options:
# NO_ADDITIONAL_TARGET_INFO
# Don't generate a Qt6*AdditionalTargetInfo.cmake file.
# The caller is responsible for creating one.
#
Merge main and private targets of the internal modules In cmake, targets are used as an entity for modules. This causes a number of problems when we want to manipulate a module as a separate entity with properties associated with it. The _qt_internal_module_interface_name target property is introduced to represent the module entity. All modules write a name to this property, which will subsequently expand into the module name matched with the module name in qmake. The 'qt_internal_module_info' function is responsible for providing the correct values ​​for the module properties used when working with a module target. Unlike qmake, for internal modules in cmake it is expected that the Private suffix will be specified explicitly. In case the user wants to have a different module name, an additional argument MODULE_INTERFACE_NAME of the qt_internal_add_module function is introduced. This also changes the way how target dependencies are collected and resolved. Since the 'Private' suffix no longer means an unique identifier of the module 'Private' part, we look for the both Private and non-Private package names when resolving dependencies. TODO: This change doesn't affect the existing internal modules, so to keep compatibility with the existing code the existing internal modules create 'Private' aliases. The code that provides backward compatibility must be removed once all internal modules will get the proper names. Taks-number: QTBUG-87775 Change-Id: Ib4f28341506fb2e73eee960a709e24c42bbcd5ec Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2021-04-06 16:57:11 +00:00
# MODULE_INTERFACE_NAME
# The custom name of the module interface. This name is used as a part of the include paths
# associated with the module and other interface names. The default value is the target name.
# If the INTERNAL_MODULE option is specified, MODULE_INTERFACE_NAME is not specified and the
# target name ends with the suffix 'Private', the MODULE_INTERFACE_NAME value defaults to the
# non-suffixed target name, e.g.:
# For the SomeInternalModulePrivate target, the MODULE_INTERFACE_NAME will be
# SomeInternalModule
#
# HEADER_MODULE
# Creates an interface library instead of following the Qt configuration default. Mutually
# exclusive with STATIC.
#
# STATIC
# Creates a static library instead of following the Qt configuration default. Mutually
# exclusive with HEADER_MODULE.
#
# EXTERNAL_HEADERS
# A explicit list of non qt headers (like 3rdparty) to be installed.
# Note this option overrides install headers used as PUBLIC_HEADER by cmake install(TARGET)
# otherwise set by syncqt.
#
# EXTERNAL_HEADERS_DIR
# A module directory with non qt headers (like 3rdparty) to be installed.
# Note this option overrides install headers used as PUBLIC_HEADER by cmake install(TARGET)
# otherwise set by syncqt.
#
# PRIVATE_HEADER_FILTERS
# The regular expressions that filter private header files out of target sources.
# The value must use the following format 'regex1|regex2|regex3'.
#
# QPA_HEADER_FILTERS
# The regular expressions that filter QPA header files out of target sources.
# The value must use the following format 'regex1|regex2|regex3'.
Replace the syncqt.pl script with syncqt tool syncqt.pl adds an extra dependency on perl when building Qt. Modern C++ provides the convenient cross-platform way to access a filesystem and to use regular expressions, so we may replace the perl script with C++ application. The syncqt executable is built at configure time and installed as QtCore tool. It's running at configure time to deliver the required header files for IDE to build a consistent code model and at the build time to keep tracking changes in header files and generate the missing aliases without reconfiguring. 'syncqt' only parses header files from a CMake build tree, so the resulting Qt installation only contains interfacing headers that belong to the platform that Qt is built for. 'sync.profile' files are not used as the 'source of truth' for sync qt procedure anymore, all the necessary information is taken from either CMake files at configure time or from the module header files while parsing them. syncqt.pl is still in place since it's required as fallback solution for a smooth transition to the new syncqt implementation for all qt repositories. This patchset only enables the C++ based syncqt for 'qtbase' repository. From the performance perspective C++ version works faster then perl script, also the configure time is reduced significally on subsequent reconfigurations - up x2 times faster when re-configuring repository, but it also takes time to compile the tool itself the first time. Numbers for qtbase: syncqt.pl syncqt.cpp initial: 0m16,035s 0m20,413s reconfig: 0m6,819s 0m3,725s The syncing procedure can be run separately for each module using <ModuleName>_sync_headers targets. The 'sync_headers' target can be used to sync all the modules at once. Task-number: QTBUG-87480 Task-number: QTBUG-103196 Change-Id: I8c938bcaf88a8713b39bbfd66d9e7ef12b2c3523 Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2022-08-15 16:29:41 +00:00
#
# HEADER_SYNC_SOURCE_DIRECTORY
# The source directory for header sync procedure. Header files outside this directory will be
# ignored by syncqt. The specifying this directory allows to skip the parsing of the whole
# CMAKE_CURRENT_SOURCE_DIR for the header files that needs to be synced and only parse the
# single subdirectory, that meanwhile can be outside the CMAKE_CURRENT_SOURCE_DIR tree.
function(qt_internal_add_module target)
qt_internal_get_internal_add_module_keywords(
module_option_args
module_single_args
module_multi_args
)
cmake_parse_arguments(PARSE_ARGV 1 arg
"${module_option_args}"
"${module_single_args}"
"${module_multi_args}"
)
_qt_internal_validate_all_args_are_parsed(arg)
set(is_internal_module FALSE)
Merge main and private targets of the internal modules In cmake, targets are used as an entity for modules. This causes a number of problems when we want to manipulate a module as a separate entity with properties associated with it. The _qt_internal_module_interface_name target property is introduced to represent the module entity. All modules write a name to this property, which will subsequently expand into the module name matched with the module name in qmake. The 'qt_internal_module_info' function is responsible for providing the correct values ​​for the module properties used when working with a module target. Unlike qmake, for internal modules in cmake it is expected that the Private suffix will be specified explicitly. In case the user wants to have a different module name, an additional argument MODULE_INTERFACE_NAME of the qt_internal_add_module function is introduced. This also changes the way how target dependencies are collected and resolved. Since the 'Private' suffix no longer means an unique identifier of the module 'Private' part, we look for the both Private and non-Private package names when resolving dependencies. TODO: This change doesn't affect the existing internal modules, so to keep compatibility with the existing code the existing internal modules create 'Private' aliases. The code that provides backward compatibility must be removed once all internal modules will get the proper names. Taks-number: QTBUG-87775 Change-Id: Ib4f28341506fb2e73eee960a709e24c42bbcd5ec Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2021-04-06 16:57:11 +00:00
if(arg_INTERNAL_MODULE)
set(is_internal_module TRUE)
Merge main and private targets of the internal modules In cmake, targets are used as an entity for modules. This causes a number of problems when we want to manipulate a module as a separate entity with properties associated with it. The _qt_internal_module_interface_name target property is introduced to represent the module entity. All modules write a name to this property, which will subsequently expand into the module name matched with the module name in qmake. The 'qt_internal_module_info' function is responsible for providing the correct values ​​for the module properties used when working with a module target. Unlike qmake, for internal modules in cmake it is expected that the Private suffix will be specified explicitly. In case the user wants to have a different module name, an additional argument MODULE_INTERFACE_NAME of the qt_internal_add_module function is introduced. This also changes the way how target dependencies are collected and resolved. Since the 'Private' suffix no longer means an unique identifier of the module 'Private' part, we look for the both Private and non-Private package names when resolving dependencies. TODO: This change doesn't affect the existing internal modules, so to keep compatibility with the existing code the existing internal modules create 'Private' aliases. The code that provides backward compatibility must be removed once all internal modules will get the proper names. Taks-number: QTBUG-87775 Change-Id: Ib4f28341506fb2e73eee960a709e24c42bbcd5ec Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2021-04-06 16:57:11 +00:00
set(arg_INTERNAL_MODULE "INTERNAL_MODULE")
set(arg_NO_PRIVATE_MODULE TRUE)
# Assume the interface name of the internal module should be the module name without the
# 'Private' suffix.
if(NOT arg_MODULE_INTERFACE_NAME)
if(target MATCHES "(.*)Private$")
set(arg_MODULE_INTERFACE_NAME "${CMAKE_MATCH_1}")
else()
message(WARNING "The internal module target should end with the 'Private' suffix.")
endif()
endif()
else()
unset(arg_INTERNAL_MODULE)
endif()
Merge main and private targets of the internal modules In cmake, targets are used as an entity for modules. This causes a number of problems when we want to manipulate a module as a separate entity with properties associated with it. The _qt_internal_module_interface_name target property is introduced to represent the module entity. All modules write a name to this property, which will subsequently expand into the module name matched with the module name in qmake. The 'qt_internal_module_info' function is responsible for providing the correct values ​​for the module properties used when working with a module target. Unlike qmake, for internal modules in cmake it is expected that the Private suffix will be specified explicitly. In case the user wants to have a different module name, an additional argument MODULE_INTERFACE_NAME of the qt_internal_add_module function is introduced. This also changes the way how target dependencies are collected and resolved. Since the 'Private' suffix no longer means an unique identifier of the module 'Private' part, we look for the both Private and non-Private package names when resolving dependencies. TODO: This change doesn't affect the existing internal modules, so to keep compatibility with the existing code the existing internal modules create 'Private' aliases. The code that provides backward compatibility must be removed once all internal modules will get the proper names. Taks-number: QTBUG-87775 Change-Id: Ib4f28341506fb2e73eee960a709e24c42bbcd5ec Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2021-04-06 16:57:11 +00:00
if(NOT arg_MODULE_INTERFACE_NAME)
set(arg_MODULE_INTERFACE_NAME "${target}")
endif()
### Define Targets:
if(arg_HEADER_MODULE)
set(type_to_create INTERFACE)
elseif(arg_STATIC)
set(type_to_create STATIC)
else()
# Use default depending on Qt configuration.
set(type_to_create "")
endif()
_qt_internal_add_library("${target}" ${type_to_create})
qt_internal_mark_as_internal_library("${target}")
get_target_property(target_type ${target} TYPE)
set(is_interface_lib 0)
set(is_shared_lib 0)
set(is_static_lib 0)
if(target_type STREQUAL "INTERFACE_LIBRARY")
set(is_interface_lib 1)
elseif(target_type STREQUAL "STATIC_LIBRARY")
set(is_static_lib 1)
elseif(target_type STREQUAL "SHARED_LIBRARY")
set(is_shared_lib 1)
else()
message(FATAL_ERROR "Invalid target type '${target_type}' for Qt module '${target}'")
endif()
if(NOT arg_NO_SYNC_QT AND NOT arg_NO_MODULE_HEADERS AND arg_MODULE_INCLUDE_NAME)
# qt_internal_module_info uses this property if it's set, so it must be
# specified before the qt_internal_module_info call.
set_target_properties(${target} PROPERTIES
_qt_module_include_name ${arg_MODULE_INCLUDE_NAME}
)
endif()
Merge main and private targets of the internal modules In cmake, targets are used as an entity for modules. This causes a number of problems when we want to manipulate a module as a separate entity with properties associated with it. The _qt_internal_module_interface_name target property is introduced to represent the module entity. All modules write a name to this property, which will subsequently expand into the module name matched with the module name in qmake. The 'qt_internal_module_info' function is responsible for providing the correct values ​​for the module properties used when working with a module target. Unlike qmake, for internal modules in cmake it is expected that the Private suffix will be specified explicitly. In case the user wants to have a different module name, an additional argument MODULE_INTERFACE_NAME of the qt_internal_add_module function is introduced. This also changes the way how target dependencies are collected and resolved. Since the 'Private' suffix no longer means an unique identifier of the module 'Private' part, we look for the both Private and non-Private package names when resolving dependencies. TODO: This change doesn't affect the existing internal modules, so to keep compatibility with the existing code the existing internal modules create 'Private' aliases. The code that provides backward compatibility must be removed once all internal modules will get the proper names. Taks-number: QTBUG-87775 Change-Id: Ib4f28341506fb2e73eee960a709e24c42bbcd5ec Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2021-04-06 16:57:11 +00:00
set_target_properties(${target} PROPERTIES
_qt_module_interface_name "${arg_MODULE_INTERFACE_NAME}"
CMake: Record used package version for each target dependency When recording which package version to look for in QtFooModuleDependencies.cmake and other files like it, instead of using PROJECT_VERSION, use the version of the package that contains the dependency. For example if we're hypothetically building the qtdeclarative repo from the 6.4 branch, against an installed 6.2 qtbase, then the Qt6QmlModuleDependencies.cmake file will have a find_package(Qt6Core 6.2) call because qtdeclarative's find_package(Qt6Core) call found a 6.2 Core when it was configured. This allows switching the versioning scheme of specific Qt modules that might not want to follow the general Qt versioning scheme. The first candidate would be QtWebEngine which might want to follow the Chromium versioning scheme, something like Qt 6.94.0 where 94 is the Chromium major version. Implementation notes. We now record the package version of a target in a property called _qt_package_version. We do it for qt modules, plugins, 3rd party libraries, tools and the Platform target. When we try to look up which version to write into the QtFooModuleDependencies.cmake file (or the equivalent Plugins and Tools file), we try to find the version from a few sources: the property mentioned above, then the Qt6{target}_VERSION variable, and finally PROJECT_VERSION. In the latter case, we issue a warning because technically that should never have to happen, and it's a bug or an unforeseen case if it does. A few more places also need adjustments: - package versions to look for when configuring standalone tests and generating standalone tests Config files - handling of tools packages - The main Qt6 package lookup in each Dependencies.cmake files Note that there are some requirements and consequences in case a module wants to use a different versioning scheme like 6.94.0. Requirements. - The root CMakeLists.txt file needs to call find_package with a version different from the usual PROJECT_VERSION. Ideally it should look for a few different Qt versions which are known to be compatible, for example the last stable and LTS versions, or just the lowest supported Qt version, e.g. 6.2.6 or whenever this change would land in the 6.2 branch. - If the repository has multiple modules, some of which need to follow the Qt versioning scheme and some not, project(VERSION x.y.z) calls need to be carefully placed in subdirectory scopes with appropriate version numbers, so that qt_internal_add_module / _tool / _plugin pick up the correct version. Consequences. - The .so / .dylib names will contain the new version, e.g. .so.6.94 - Linux ELF symbols will contain the new versions - syncqt private headers will now exist under a include/QtFoo/6.94.0/QtFoo/private folder - pri and prl files will also contain the new version numbers - pkg-config .pc files contain the new version numbers - It won't be possible to write find_package(Qt6 6.94 COMPONENTS WebEngineWidgets) in user code. One would have to write find_package(Qt6WebEngineWidgets 6.94) otherwise CMake will try to look for Qt6Config 6.94 which won't exist. - Similarly, a find_package(Qt6 6.4 COMPONENTS Widgets WebEngineWidgets) call would always find any kind of WebEngine package that is higher than 6.4, which might be 6.94, 6.95, etc. - In the future, if we fix Qt6Config to pass EXACT to its subcomponent find_package calls, a find_package(Qt6 6.5.0 EXACT COMPONENTS Widgets WebEngineWidgets) would fail to find WebEngineWidgets, because its 6.94.0 version will not be equal to 6.5.0. Currently we don't pass through EXACT, so it's not an issue. Augments 5ffc744b791a114a3180a425dd26e298f7399955 Task-number: QTBUG-103500 Change-Id: I8bdb56bfcbc7f7f6484d1e56651ffc993fd30bab Reviewed-by: Michal Klocek <michal.klocek@qt.io> Reviewed-by: Alexey Edelev <alexey.edelev@qt.io> Reviewed-by: Jörg Bornemann <joerg.bornemann@qt.io>
2022-05-17 06:44:43 +00:00
_qt_package_version "${PROJECT_VERSION}"
_qt_package_name "${INSTALL_CMAKE_NAMESPACE}${target}"
Merge main and private targets of the internal modules In cmake, targets are used as an entity for modules. This causes a number of problems when we want to manipulate a module as a separate entity with properties associated with it. The _qt_internal_module_interface_name target property is introduced to represent the module entity. All modules write a name to this property, which will subsequently expand into the module name matched with the module name in qmake. The 'qt_internal_module_info' function is responsible for providing the correct values ​​for the module properties used when working with a module target. Unlike qmake, for internal modules in cmake it is expected that the Private suffix will be specified explicitly. In case the user wants to have a different module name, an additional argument MODULE_INTERFACE_NAME of the qt_internal_add_module function is introduced. This also changes the way how target dependencies are collected and resolved. Since the 'Private' suffix no longer means an unique identifier of the module 'Private' part, we look for the both Private and non-Private package names when resolving dependencies. TODO: This change doesn't affect the existing internal modules, so to keep compatibility with the existing code the existing internal modules create 'Private' aliases. The code that provides backward compatibility must be removed once all internal modules will get the proper names. Taks-number: QTBUG-87775 Change-Id: Ib4f28341506fb2e73eee960a709e24c42bbcd5ec Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2021-04-06 16:57:11 +00:00
)
set(export_properties
"_qt_module_interface_name"
"_qt_package_version"
"_qt_package_name"
)
if(NOT is_internal_module)
set_target_properties(${target} PROPERTIES
_qt_is_public_module TRUE
)
list(APPEND export_properties
"_qt_is_public_module"
)
if(NOT ${arg_NO_PRIVATE_MODULE})
set_target_properties(${target} PROPERTIES
_qt_private_module_target_name "${target}Private"
)
list(APPEND export_properties
"_qt_private_module_target_name"
)
endif()
endif()
set_property(TARGET ${target} APPEND PROPERTY EXPORT_PROPERTIES "${export_properties}")
Merge main and private targets of the internal modules In cmake, targets are used as an entity for modules. This causes a number of problems when we want to manipulate a module as a separate entity with properties associated with it. The _qt_internal_module_interface_name target property is introduced to represent the module entity. All modules write a name to this property, which will subsequently expand into the module name matched with the module name in qmake. The 'qt_internal_module_info' function is responsible for providing the correct values ​​for the module properties used when working with a module target. Unlike qmake, for internal modules in cmake it is expected that the Private suffix will be specified explicitly. In case the user wants to have a different module name, an additional argument MODULE_INTERFACE_NAME of the qt_internal_add_module function is introduced. This also changes the way how target dependencies are collected and resolved. Since the 'Private' suffix no longer means an unique identifier of the module 'Private' part, we look for the both Private and non-Private package names when resolving dependencies. TODO: This change doesn't affect the existing internal modules, so to keep compatibility with the existing code the existing internal modules create 'Private' aliases. The code that provides backward compatibility must be removed once all internal modules will get the proper names. Taks-number: QTBUG-87775 Change-Id: Ib4f28341506fb2e73eee960a709e24c42bbcd5ec Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2021-04-06 16:57:11 +00:00
qt_internal_module_info(module "${target}")
qt_internal_add_qt_repo_known_module("${target}")
if(arg_INTERNAL_MODULE)
set_target_properties(${target} PROPERTIES _qt_is_internal_module TRUE)
set_property(TARGET ${target} APPEND PROPERTY EXPORT_PROPERTIES _qt_is_internal_module)
endif()
Merge main and private targets of the internal modules In cmake, targets are used as an entity for modules. This causes a number of problems when we want to manipulate a module as a separate entity with properties associated with it. The _qt_internal_module_interface_name target property is introduced to represent the module entity. All modules write a name to this property, which will subsequently expand into the module name matched with the module name in qmake. The 'qt_internal_module_info' function is responsible for providing the correct values ​​for the module properties used when working with a module target. Unlike qmake, for internal modules in cmake it is expected that the Private suffix will be specified explicitly. In case the user wants to have a different module name, an additional argument MODULE_INTERFACE_NAME of the qt_internal_add_module function is introduced. This also changes the way how target dependencies are collected and resolved. Since the 'Private' suffix no longer means an unique identifier of the module 'Private' part, we look for the both Private and non-Private package names when resolving dependencies. TODO: This change doesn't affect the existing internal modules, so to keep compatibility with the existing code the existing internal modules create 'Private' aliases. The code that provides backward compatibility must be removed once all internal modules will get the proper names. Taks-number: QTBUG-87775 Change-Id: Ib4f28341506fb2e73eee960a709e24c42bbcd5ec Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2021-04-06 16:57:11 +00:00
if(NOT arg_CONFIG_MODULE_NAME)
set(arg_CONFIG_MODULE_NAME "${module_lower}")
endif()
set(module_config_header "qt${arg_CONFIG_MODULE_NAME}-config.h")
set(module_config_private_header "qt${arg_CONFIG_MODULE_NAME}-config_p.h")
# qt<module>-config.h/-config_p.h header files are not marked as GENERATED automatically
# for old CMake versions. Set the property explicitly here.
set_source_files_properties("${module_config_header}" "${module_config_private_header}"
PROPERTIES
GENERATED TRUE
SKIP_AUTOGEN TRUE
)
Merge main and private targets of the internal modules In cmake, targets are used as an entity for modules. This causes a number of problems when we want to manipulate a module as a separate entity with properties associated with it. The _qt_internal_module_interface_name target property is introduced to represent the module entity. All modules write a name to this property, which will subsequently expand into the module name matched with the module name in qmake. The 'qt_internal_module_info' function is responsible for providing the correct values ​​for the module properties used when working with a module target. Unlike qmake, for internal modules in cmake it is expected that the Private suffix will be specified explicitly. In case the user wants to have a different module name, an additional argument MODULE_INTERFACE_NAME of the qt_internal_add_module function is introduced. This also changes the way how target dependencies are collected and resolved. Since the 'Private' suffix no longer means an unique identifier of the module 'Private' part, we look for the both Private and non-Private package names when resolving dependencies. TODO: This change doesn't affect the existing internal modules, so to keep compatibility with the existing code the existing internal modules create 'Private' aliases. The code that provides backward compatibility must be removed once all internal modules will get the proper names. Taks-number: QTBUG-87775 Change-Id: Ib4f28341506fb2e73eee960a709e24c42bbcd5ec Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2021-04-06 16:57:11 +00:00
# Module define needs to take into account the config module name.
string(TOUPPER "${arg_CONFIG_MODULE_NAME}" module_define_infix)
string(REPLACE "-" "_" module_define_infix "${module_define_infix}")
string(REPLACE "." "_" module_define_infix "${module_define_infix}")
set(property_prefix "INTERFACE_")
if(NOT arg_HEADER_MODULE)
set(property_prefix "")
endif()
if(arg_INTERNAL_MODULE)
string(APPEND arg_CONFIG_MODULE_NAME "_private")
endif()
set_target_properties(${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 "A" # Not based on Qt major version
MACOSX_FRAMEWORK_IDENTIFIER org.qt-project.${module}
MACOSX_FRAMEWORK_BUNDLE_VERSION ${PROJECT_VERSION}
MACOSX_FRAMEWORK_SHORT_VERSION_STRING ${PROJECT_VERSION_MAJOR}.${PROJECT_VERSION_MINOR}
)
qt_internal_get_framework_info(fw ${target})
endif()
if(NOT QT_FEATURE_no_direct_extern_access AND QT_FEATURE_reduce_relocations AND
Enable -mno-direct-extern-access and ELF protected visibility The -mno-direct-extern-access tells the compiler and linker that references to symbols outside this ELF module mustn't be direct and must instead always go through the GOT or PLT (the PLT can additionally be disabled with -fno-plt). The ELF protected visibility tells the compiler and linker that this symbol is present in the dynamic symbol table as an export, but it cannot be interposed by another ELF module. This option is required for user code to link properly to Qt, otherwise they will get linker errors (assuming GNU binutils >= 2.39) or runtime failures (glibc >= 2.35). Both versions of glibc and binutils are older than GCC 12, so it's a safe assumption they are in use and downgrading the toolchain or libc is not supported. Adding this option to the compilation is assured for CMake and qmake-based projects. For example, all accessess to QCoreApplication::self in QtCore, after this change and with GCC 12 are relocation-free and direct: 000000000013ebf0 <QCoreApplicationPrivate::checkInstance(char const*)>: 13ebf0: cmpq $0x0,0x4f73d0(%rip) # 635fc8 <QCoreApplication::self> 13ebf8: setne %al 13ebfb: je a90fe <QCoreApplicationPrivate::checkInstance(char const*) [clone .cold]> 13ec01: ret Meanwhile, accesses to the same variable in other modules are indirect via the GOT: 66650: mov 0x876e1(%rip),%rax # edd38 <QCoreApplication::self@Qt_6> 66657: cmpq $0x0,(%rax) This replaces the -Bsymbolic and -Bsymbolic-functions (broken) functionality that Qt has been using or attempting to use since ~2006. See https://gitlab.com/x86-psABIs/x86-64-ABI/-/issues/8#note_606975128 Change-Id: Iad4b0a3e5c06570b9f5f571b26ed564aa0811e47 Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io> Reviewed-by: Lars Knoll <lars.knoll@qt.io>
2012-01-23 13:46:58 +00:00
UNIX AND NOT is_interface_lib)
# On x86 and x86-64 systems with ELF binaries (especially Linux), due to
# a new optimization in GCC 5.x in combination with a recent version of
# GNU binutils, compiling Qt applications with -fPIE is no longer
# enough.
# Applications now need to be compiled with the -fPIC option if the Qt option
# \"reduce relocations\" is active.
target_compile_options(${target} INTERFACE -fPIC)
if(GCC AND is_shared_lib)
target_link_options(${target} PRIVATE LINKER:-Bsymbolic-functions)
endif()
endif()
if((FEATURE_ltcg OR CMAKE_INTERPROCEDURAL_OPTIMIZATION) AND GCC AND is_static_lib)
# CMake <= 3.19 appends -fno-fat-lto-objects for all library types if
# CMAKE_INTERPROCEDURAL_OPTIMIZATION is enabled. Static libraries need
# the opposite compiler option.
# (https://gitlab.kitware.com/cmake/cmake/-/issues/21696)
target_compile_options(${target} PRIVATE -ffat-lto-objects)
endif()
qt_internal_add_target_aliases("${target}")
qt_skip_warnings_are_errors_when_repo_unclean("${target}")
_qt_internal_apply_strict_cpp("${target}")
Merge main and private targets of the internal modules In cmake, targets are used as an entity for modules. This causes a number of problems when we want to manipulate a module as a separate entity with properties associated with it. The _qt_internal_module_interface_name target property is introduced to represent the module entity. All modules write a name to this property, which will subsequently expand into the module name matched with the module name in qmake. The 'qt_internal_module_info' function is responsible for providing the correct values ​​for the module properties used when working with a module target. Unlike qmake, for internal modules in cmake it is expected that the Private suffix will be specified explicitly. In case the user wants to have a different module name, an additional argument MODULE_INTERFACE_NAME of the qt_internal_add_module function is introduced. This also changes the way how target dependencies are collected and resolved. Since the 'Private' suffix no longer means an unique identifier of the module 'Private' part, we look for the both Private and non-Private package names when resolving dependencies. TODO: This change doesn't affect the existing internal modules, so to keep compatibility with the existing code the existing internal modules create 'Private' aliases. The code that provides backward compatibility must be removed once all internal modules will get the proper names. Taks-number: QTBUG-87775 Change-Id: Ib4f28341506fb2e73eee960a709e24c42bbcd5ec Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2021-04-06 16:57:11 +00:00
# No need to compile Q_IMPORT_PLUGIN-containing files for non-executables.
if(is_static_lib)
_qt_internal_disable_static_default_plugins("${target}")
endif()
# Add _private target to link against the private headers:
Merge main and private targets of the internal modules In cmake, targets are used as an entity for modules. This causes a number of problems when we want to manipulate a module as a separate entity with properties associated with it. The _qt_internal_module_interface_name target property is introduced to represent the module entity. All modules write a name to this property, which will subsequently expand into the module name matched with the module name in qmake. The 'qt_internal_module_info' function is responsible for providing the correct values ​​for the module properties used when working with a module target. Unlike qmake, for internal modules in cmake it is expected that the Private suffix will be specified explicitly. In case the user wants to have a different module name, an additional argument MODULE_INTERFACE_NAME of the qt_internal_add_module function is introduced. This also changes the way how target dependencies are collected and resolved. Since the 'Private' suffix no longer means an unique identifier of the module 'Private' part, we look for the both Private and non-Private package names when resolving dependencies. TODO: This change doesn't affect the existing internal modules, so to keep compatibility with the existing code the existing internal modules create 'Private' aliases. The code that provides backward compatibility must be removed once all internal modules will get the proper names. Taks-number: QTBUG-87775 Change-Id: Ib4f28341506fb2e73eee960a709e24c42bbcd5ec Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2021-04-06 16:57:11 +00:00
set(target_private "${target}Private")
if(NOT ${arg_NO_PRIVATE_MODULE})
add_library("${target_private}" INTERFACE)
qt_internal_add_target_aliases("${target_private}")
set_target_properties(${target_private} PROPERTIES
CMake: Record used package version for each target dependency When recording which package version to look for in QtFooModuleDependencies.cmake and other files like it, instead of using PROJECT_VERSION, use the version of the package that contains the dependency. For example if we're hypothetically building the qtdeclarative repo from the 6.4 branch, against an installed 6.2 qtbase, then the Qt6QmlModuleDependencies.cmake file will have a find_package(Qt6Core 6.2) call because qtdeclarative's find_package(Qt6Core) call found a 6.2 Core when it was configured. This allows switching the versioning scheme of specific Qt modules that might not want to follow the general Qt versioning scheme. The first candidate would be QtWebEngine which might want to follow the Chromium versioning scheme, something like Qt 6.94.0 where 94 is the Chromium major version. Implementation notes. We now record the package version of a target in a property called _qt_package_version. We do it for qt modules, plugins, 3rd party libraries, tools and the Platform target. When we try to look up which version to write into the QtFooModuleDependencies.cmake file (or the equivalent Plugins and Tools file), we try to find the version from a few sources: the property mentioned above, then the Qt6{target}_VERSION variable, and finally PROJECT_VERSION. In the latter case, we issue a warning because technically that should never have to happen, and it's a bug or an unforeseen case if it does. A few more places also need adjustments: - package versions to look for when configuring standalone tests and generating standalone tests Config files - handling of tools packages - The main Qt6 package lookup in each Dependencies.cmake files Note that there are some requirements and consequences in case a module wants to use a different versioning scheme like 6.94.0. Requirements. - The root CMakeLists.txt file needs to call find_package with a version different from the usual PROJECT_VERSION. Ideally it should look for a few different Qt versions which are known to be compatible, for example the last stable and LTS versions, or just the lowest supported Qt version, e.g. 6.2.6 or whenever this change would land in the 6.2 branch. - If the repository has multiple modules, some of which need to follow the Qt versioning scheme and some not, project(VERSION x.y.z) calls need to be carefully placed in subdirectory scopes with appropriate version numbers, so that qt_internal_add_module / _tool / _plugin pick up the correct version. Consequences. - The .so / .dylib names will contain the new version, e.g. .so.6.94 - Linux ELF symbols will contain the new versions - syncqt private headers will now exist under a include/QtFoo/6.94.0/QtFoo/private folder - pri and prl files will also contain the new version numbers - pkg-config .pc files contain the new version numbers - It won't be possible to write find_package(Qt6 6.94 COMPONENTS WebEngineWidgets) in user code. One would have to write find_package(Qt6WebEngineWidgets 6.94) otherwise CMake will try to look for Qt6Config 6.94 which won't exist. - Similarly, a find_package(Qt6 6.4 COMPONENTS Widgets WebEngineWidgets) call would always find any kind of WebEngine package that is higher than 6.4, which might be 6.94, 6.95, etc. - In the future, if we fix Qt6Config to pass EXACT to its subcomponent find_package calls, a find_package(Qt6 6.5.0 EXACT COMPONENTS Widgets WebEngineWidgets) would fail to find WebEngineWidgets, because its 6.94.0 version will not be equal to 6.5.0. Currently we don't pass through EXACT, so it's not an issue. Augments 5ffc744b791a114a3180a425dd26e298f7399955 Task-number: QTBUG-103500 Change-Id: I8bdb56bfcbc7f7f6484d1e56651ffc993fd30bab Reviewed-by: Michal Klocek <michal.klocek@qt.io> Reviewed-by: Alexey Edelev <alexey.edelev@qt.io> Reviewed-by: Jörg Bornemann <joerg.bornemann@qt.io>
2022-05-17 06:44:43 +00:00
_qt_config_module_name ${arg_CONFIG_MODULE_NAME}_private
_qt_package_version "${PROJECT_VERSION}"
_qt_package_name "${INSTALL_CMAKE_NAMESPACE}${target}"
_qt_is_private_module TRUE
_qt_public_module_target_name "${target}"
CMake: Record used package version for each target dependency When recording which package version to look for in QtFooModuleDependencies.cmake and other files like it, instead of using PROJECT_VERSION, use the version of the package that contains the dependency. For example if we're hypothetically building the qtdeclarative repo from the 6.4 branch, against an installed 6.2 qtbase, then the Qt6QmlModuleDependencies.cmake file will have a find_package(Qt6Core 6.2) call because qtdeclarative's find_package(Qt6Core) call found a 6.2 Core when it was configured. This allows switching the versioning scheme of specific Qt modules that might not want to follow the general Qt versioning scheme. The first candidate would be QtWebEngine which might want to follow the Chromium versioning scheme, something like Qt 6.94.0 where 94 is the Chromium major version. Implementation notes. We now record the package version of a target in a property called _qt_package_version. We do it for qt modules, plugins, 3rd party libraries, tools and the Platform target. When we try to look up which version to write into the QtFooModuleDependencies.cmake file (or the equivalent Plugins and Tools file), we try to find the version from a few sources: the property mentioned above, then the Qt6{target}_VERSION variable, and finally PROJECT_VERSION. In the latter case, we issue a warning because technically that should never have to happen, and it's a bug or an unforeseen case if it does. A few more places also need adjustments: - package versions to look for when configuring standalone tests and generating standalone tests Config files - handling of tools packages - The main Qt6 package lookup in each Dependencies.cmake files Note that there are some requirements and consequences in case a module wants to use a different versioning scheme like 6.94.0. Requirements. - The root CMakeLists.txt file needs to call find_package with a version different from the usual PROJECT_VERSION. Ideally it should look for a few different Qt versions which are known to be compatible, for example the last stable and LTS versions, or just the lowest supported Qt version, e.g. 6.2.6 or whenever this change would land in the 6.2 branch. - If the repository has multiple modules, some of which need to follow the Qt versioning scheme and some not, project(VERSION x.y.z) calls need to be carefully placed in subdirectory scopes with appropriate version numbers, so that qt_internal_add_module / _tool / _plugin pick up the correct version. Consequences. - The .so / .dylib names will contain the new version, e.g. .so.6.94 - Linux ELF symbols will contain the new versions - syncqt private headers will now exist under a include/QtFoo/6.94.0/QtFoo/private folder - pri and prl files will also contain the new version numbers - pkg-config .pc files contain the new version numbers - It won't be possible to write find_package(Qt6 6.94 COMPONENTS WebEngineWidgets) in user code. One would have to write find_package(Qt6WebEngineWidgets 6.94) otherwise CMake will try to look for Qt6Config 6.94 which won't exist. - Similarly, a find_package(Qt6 6.4 COMPONENTS Widgets WebEngineWidgets) call would always find any kind of WebEngine package that is higher than 6.4, which might be 6.94, 6.95, etc. - In the future, if we fix Qt6Config to pass EXACT to its subcomponent find_package calls, a find_package(Qt6 6.5.0 EXACT COMPONENTS Widgets WebEngineWidgets) would fail to find WebEngineWidgets, because its 6.94.0 version will not be equal to 6.5.0. Currently we don't pass through EXACT, so it's not an issue. Augments 5ffc744b791a114a3180a425dd26e298f7399955 Task-number: QTBUG-103500 Change-Id: I8bdb56bfcbc7f7f6484d1e56651ffc993fd30bab Reviewed-by: Michal Klocek <michal.klocek@qt.io> Reviewed-by: Alexey Edelev <alexey.edelev@qt.io> Reviewed-by: Jörg Bornemann <joerg.bornemann@qt.io>
2022-05-17 06:44:43 +00:00
)
set(export_properties
"_qt_config_module_name"
"_qt_package_version"
"_qt_package_name"
"_qt_is_private_module"
"_qt_public_module_target_name"
CMake: Record used package version for each target dependency When recording which package version to look for in QtFooModuleDependencies.cmake and other files like it, instead of using PROJECT_VERSION, use the version of the package that contains the dependency. For example if we're hypothetically building the qtdeclarative repo from the 6.4 branch, against an installed 6.2 qtbase, then the Qt6QmlModuleDependencies.cmake file will have a find_package(Qt6Core 6.2) call because qtdeclarative's find_package(Qt6Core) call found a 6.2 Core when it was configured. This allows switching the versioning scheme of specific Qt modules that might not want to follow the general Qt versioning scheme. The first candidate would be QtWebEngine which might want to follow the Chromium versioning scheme, something like Qt 6.94.0 where 94 is the Chromium major version. Implementation notes. We now record the package version of a target in a property called _qt_package_version. We do it for qt modules, plugins, 3rd party libraries, tools and the Platform target. When we try to look up which version to write into the QtFooModuleDependencies.cmake file (or the equivalent Plugins and Tools file), we try to find the version from a few sources: the property mentioned above, then the Qt6{target}_VERSION variable, and finally PROJECT_VERSION. In the latter case, we issue a warning because technically that should never have to happen, and it's a bug or an unforeseen case if it does. A few more places also need adjustments: - package versions to look for when configuring standalone tests and generating standalone tests Config files - handling of tools packages - The main Qt6 package lookup in each Dependencies.cmake files Note that there are some requirements and consequences in case a module wants to use a different versioning scheme like 6.94.0. Requirements. - The root CMakeLists.txt file needs to call find_package with a version different from the usual PROJECT_VERSION. Ideally it should look for a few different Qt versions which are known to be compatible, for example the last stable and LTS versions, or just the lowest supported Qt version, e.g. 6.2.6 or whenever this change would land in the 6.2 branch. - If the repository has multiple modules, some of which need to follow the Qt versioning scheme and some not, project(VERSION x.y.z) calls need to be carefully placed in subdirectory scopes with appropriate version numbers, so that qt_internal_add_module / _tool / _plugin pick up the correct version. Consequences. - The .so / .dylib names will contain the new version, e.g. .so.6.94 - Linux ELF symbols will contain the new versions - syncqt private headers will now exist under a include/QtFoo/6.94.0/QtFoo/private folder - pri and prl files will also contain the new version numbers - pkg-config .pc files contain the new version numbers - It won't be possible to write find_package(Qt6 6.94 COMPONENTS WebEngineWidgets) in user code. One would have to write find_package(Qt6WebEngineWidgets 6.94) otherwise CMake will try to look for Qt6Config 6.94 which won't exist. - Similarly, a find_package(Qt6 6.4 COMPONENTS Widgets WebEngineWidgets) call would always find any kind of WebEngine package that is higher than 6.4, which might be 6.94, 6.95, etc. - In the future, if we fix Qt6Config to pass EXACT to its subcomponent find_package calls, a find_package(Qt6 6.5.0 EXACT COMPONENTS Widgets WebEngineWidgets) would fail to find WebEngineWidgets, because its 6.94.0 version will not be equal to 6.5.0. Currently we don't pass through EXACT, so it's not an issue. Augments 5ffc744b791a114a3180a425dd26e298f7399955 Task-number: QTBUG-103500 Change-Id: I8bdb56bfcbc7f7f6484d1e56651ffc993fd30bab Reviewed-by: Michal Klocek <michal.klocek@qt.io> Reviewed-by: Alexey Edelev <alexey.edelev@qt.io> Reviewed-by: Jörg Bornemann <joerg.bornemann@qt.io>
2022-05-17 06:44:43 +00:00
)
set_property(TARGET "${target_private}" APPEND PROPERTY
EXPORT_PROPERTIES "${export_properties}")
endif()
# FIXME: This workaround is needed because the deployment logic
# for iOS and WASM just copies/embeds the directly linked library,
# which will just be a versioned symlink to the actual library.
if((UIKIT OR WASM) AND BUILD_SHARED_LIBS)
set(version_args "")
else()
set(version_args
VERSION ${PROJECT_VERSION}
SOVERSION ${PROJECT_VERSION_MAJOR})
endif()
if(NOT arg_HEADER_MODULE)
set_target_properties(${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}"
${version_args}
)
qt_set_target_info_properties(${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)
set_property(TARGET "${target}" APPEND PROPERTY
EXPORT_PROPERTIES _qt_module_skip_depends_include)
endif()
if(is_framework)
set_target_properties(${target} PROPERTIES
OUTPUT_NAME ${fw_name}
)
else()
set_target_properties(${target} PROPERTIES
OUTPUT_NAME "${INSTALL_CMAKE_NAMESPACE}${module_interface_name}${QT_LIBINFIX}"
)
endif()
qt_set_common_target_properties(${target})
if (WIN32 AND BUILD_SHARED_LIBS)
_qt_internal_generate_win32_rc_file(${target})
endif()
endif()
# Module headers:
set_property(TARGET "${target}" APPEND PROPERTY EXPORT_PROPERTIES _qt_module_has_headers)
if(${arg_NO_MODULE_HEADERS} OR ${arg_NO_SYNC_QT})
set_target_properties("${target}" PROPERTIES
_qt_module_has_headers OFF)
else()
set_property(TARGET ${target} APPEND PROPERTY EXPORT_PROPERTIES _qt_module_include_name)
set_target_properties("${target}" PROPERTIES
Replace the syncqt.pl script with syncqt tool syncqt.pl adds an extra dependency on perl when building Qt. Modern C++ provides the convenient cross-platform way to access a filesystem and to use regular expressions, so we may replace the perl script with C++ application. The syncqt executable is built at configure time and installed as QtCore tool. It's running at configure time to deliver the required header files for IDE to build a consistent code model and at the build time to keep tracking changes in header files and generate the missing aliases without reconfiguring. 'syncqt' only parses header files from a CMake build tree, so the resulting Qt installation only contains interfacing headers that belong to the platform that Qt is built for. 'sync.profile' files are not used as the 'source of truth' for sync qt procedure anymore, all the necessary information is taken from either CMake files at configure time or from the module header files while parsing them. syncqt.pl is still in place since it's required as fallback solution for a smooth transition to the new syncqt implementation for all qt repositories. This patchset only enables the C++ based syncqt for 'qtbase' repository. From the performance perspective C++ version works faster then perl script, also the configure time is reduced significally on subsequent reconfigurations - up x2 times faster when re-configuring repository, but it also takes time to compile the tool itself the first time. Numbers for qtbase: syncqt.pl syncqt.cpp initial: 0m16,035s 0m20,413s reconfig: 0m6,819s 0m3,725s The syncing procedure can be run separately for each module using <ModuleName>_sync_headers targets. The 'sync_headers' target can be used to sync all the modules at once. Task-number: QTBUG-87480 Task-number: QTBUG-103196 Change-Id: I8c938bcaf88a8713b39bbfd66d9e7ef12b2c3523 Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2022-08-15 16:29:41 +00:00
_qt_module_include_name "${module_include_name}"
_qt_module_has_headers ON
)
set(sync_source_directory "${CMAKE_CURRENT_SOURCE_DIR}")
if(arg_HEADER_SYNC_SOURCE_DIRECTORY)
set(sync_source_directory "${arg_HEADER_SYNC_SOURCE_DIRECTORY}")
Replace the syncqt.pl script with syncqt tool syncqt.pl adds an extra dependency on perl when building Qt. Modern C++ provides the convenient cross-platform way to access a filesystem and to use regular expressions, so we may replace the perl script with C++ application. The syncqt executable is built at configure time and installed as QtCore tool. It's running at configure time to deliver the required header files for IDE to build a consistent code model and at the build time to keep tracking changes in header files and generate the missing aliases without reconfiguring. 'syncqt' only parses header files from a CMake build tree, so the resulting Qt installation only contains interfacing headers that belong to the platform that Qt is built for. 'sync.profile' files are not used as the 'source of truth' for sync qt procedure anymore, all the necessary information is taken from either CMake files at configure time or from the module header files while parsing them. syncqt.pl is still in place since it's required as fallback solution for a smooth transition to the new syncqt implementation for all qt repositories. This patchset only enables the C++ based syncqt for 'qtbase' repository. From the performance perspective C++ version works faster then perl script, also the configure time is reduced significally on subsequent reconfigurations - up x2 times faster when re-configuring repository, but it also takes time to compile the tool itself the first time. Numbers for qtbase: syncqt.pl syncqt.cpp initial: 0m16,035s 0m20,413s reconfig: 0m6,819s 0m3,725s The syncing procedure can be run separately for each module using <ModuleName>_sync_headers targets. The 'sync_headers' target can be used to sync all the modules at once. Task-number: QTBUG-87480 Task-number: QTBUG-103196 Change-Id: I8c938bcaf88a8713b39bbfd66d9e7ef12b2c3523 Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2022-08-15 16:29:41 +00:00
endif()
set_target_properties(${target} PROPERTIES
_qt_sync_source_directory "${sync_source_directory}")
# We should not generate export headers if module is defined as pure STATIC.
# Static libraries don't need to export their symbols, and corner cases when sources are
# also used in shared libraries, should be handled manually.
if(arg_GENERATE_CPP_EXPORTS AND NOT arg_STATIC)
if(arg_CPP_EXPORT_HEADER_BASE_NAME)
set(cpp_export_header_base_name
"CPP_EXPORT_HEADER_BASE_NAME;${arg_CPP_EXPORT_HEADER_BASE_NAME}"
)
endif()
if(arg_GENERATE_PRIVATE_CPP_EXPORTS)
set(generate_private_cpp_export "GENERATE_PRIVATE_CPP_EXPORTS")
endif()
qt_internal_generate_cpp_global_exports(${target} ${module_define_infix}
"${cpp_export_header_base_name}"
"${generate_private_cpp_export}"
)
endif()
set(module_depends_header
"${module_build_interface_include_dir}/${module_include_name}Depends")
Replace the syncqt.pl script with syncqt tool syncqt.pl adds an extra dependency on perl when building Qt. Modern C++ provides the convenient cross-platform way to access a filesystem and to use regular expressions, so we may replace the perl script with C++ application. The syncqt executable is built at configure time and installed as QtCore tool. It's running at configure time to deliver the required header files for IDE to build a consistent code model and at the build time to keep tracking changes in header files and generate the missing aliases without reconfiguring. 'syncqt' only parses header files from a CMake build tree, so the resulting Qt installation only contains interfacing headers that belong to the platform that Qt is built for. 'sync.profile' files are not used as the 'source of truth' for sync qt procedure anymore, all the necessary information is taken from either CMake files at configure time or from the module header files while parsing them. syncqt.pl is still in place since it's required as fallback solution for a smooth transition to the new syncqt implementation for all qt repositories. This patchset only enables the C++ based syncqt for 'qtbase' repository. From the performance perspective C++ version works faster then perl script, also the configure time is reduced significally on subsequent reconfigurations - up x2 times faster when re-configuring repository, but it also takes time to compile the tool itself the first time. Numbers for qtbase: syncqt.pl syncqt.cpp initial: 0m16,035s 0m20,413s reconfig: 0m6,819s 0m3,725s The syncing procedure can be run separately for each module using <ModuleName>_sync_headers targets. The 'sync_headers' target can be used to sync all the modules at once. Task-number: QTBUG-87480 Task-number: QTBUG-103196 Change-Id: I8c938bcaf88a8713b39bbfd66d9e7ef12b2c3523 Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2022-08-15 16:29:41 +00:00
set_source_files_properties("${module_depends_header}" PROPERTIES GENERATED TRUE)
set_target_properties(${target} PROPERTIES _qt_module_depends_header
"${module_depends_header}")
if(NOT ${arg_HEADER_MODULE})
set(module_header "${module_build_interface_include_dir}/${module_include_name}")
set_property(TARGET "${target}" PROPERTY MODULE_HEADER
"${module_header}")
endif()
set(qpa_filter_regex "")
if(arg_QPA_HEADER_FILTERS)
set(qpa_filter_regex "${arg_QPA_HEADER_FILTERS}")
endif()
set_target_properties(${target}
PROPERTIES _qt_module_qpa_headers_filter_regex "${qpa_filter_regex}")
set(private_filter_regex ".+_p(ch)?\\.h")
if(arg_PRIVATE_HEADER_FILTERS)
set(private_filter_regex "${private_filter_regex}|${arg_PRIVATE_HEADER_FILTERS}")
endif()
set_target_properties(${target}
PROPERTIES _qt_module_private_headers_filter_regex "${private_filter_regex}")
# If EXTERNAL_HEADERS_DIR is set we install the specified directory and keep the structure
# without taking into the account the CMake source tree and syncqt outputs.
if(arg_EXTERNAL_HEADERS_DIR)
qt_install(DIRECTORY "${arg_EXTERNAL_HEADERS_DIR}/"
DESTINATION "${module_install_interface_include_dir}"
)
endif()
endif()
if(arg_NO_HEADERSCLEAN_CHECK OR arg_NO_MODULE_HEADERS OR arg_NO_SYNC_QT
OR NOT QT_FEATURE_headersclean)
set_target_properties("${target}" PROPERTIES _qt_no_headersclean_check ON)
endif()
if(NOT arg_HEADER_MODULE)
# Plugin types associated to a module
if(NOT "x${arg_PLUGIN_TYPES}" STREQUAL "x")
qt_internal_add_plugin_types("${target}" "${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}>"
${arg_INCLUDE_DIRECTORIES}
)
set(public_includes "")
set(public_headers_list "public_includes")
if(is_framework)
set(public_headers_list "private_includes")
endif()
# Make sure the BUILD_INTERFACE include paths come before the framework headers, so that the
# the compiler prefers the build dir includes.
#
# Make sure to add non-framework "build_dir/include" as an include path for moc to find the
# currently built module headers. qmake does this too.
# Framework-style include paths are found by moc when cmQtAutoMocUic.cxx detects frameworks by
# looking at an include path and detecting a "QtFoo.framework/Headers" path.
# Make sure to create such paths for both the the BUILD_INTERFACE and the INSTALL_INTERFACE.
#
# Only add syncqt headers if they exist.
# This handles cases like QmlDevToolsPrivate which do not have their own headers, but borrow
# them from another module.
if(NOT arg_NO_SYNC_QT AND NOT arg_NO_MODULE_HEADERS)
# Don't include private headers unless they exist, aka syncqt created them.
qt_internal_append_include_directories_with_headers_check(${target}
private_includes PRIVATE
"$<BUILD_INTERFACE:${module_build_interface_versioned_include_dir}>"
"$<BUILD_INTERFACE:${module_build_interface_versioned_inner_include_dir}>"
)
list(APPEND public_includes
# For the syncqt headers
"$<BUILD_INTERFACE:${repo_build_interface_include_dir}>"
"$<BUILD_INTERFACE:${module_build_interface_include_dir}>")
endif()
if(is_framework)
set(fw_install_dir "${INSTALL_LIBDIR}/${fw_dir}")
set(fw_install_header_dir "${INSTALL_LIBDIR}/${fw_header_dir}")
set(fw_output_header_dir "${QT_BUILD_DIR}/${fw_install_header_dir}")
list(APPEND public_includes
# 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.
"$<BUILD_INTERFACE:${fw_output_header_dir}>"
"$<INSTALL_INTERFACE:${fw_install_header_dir}>"
CMake: Mitigate moc not finding correct headers in framework builds When CMake generates compilation rules, it extracts the values from INTERFACE_INCLUDE_DIRECTORIES and checks if any of the values are framework paths. If they are, instead of adding an -I ./lib/My.framework to the compilation rules, it adds -iframework ./lib or -F ./lib. The same transformation does not happen when AUTOMOC passes include paths to moc, nor during a headersclean check. The values there are passed verbatim, with an -I prepended. This causes issues when the include file name is the same as the framework name. E.g. #include <QtQml> + -I ./lib/QtQml.framework because moc then ends up silently including the shared library ./lib/QtQml.framework/QtQml instead of the header ./lib/QtQml.framework/Headers/QtQml This can lead to a variety of silent issues during moc generation, because all the definitions of QtQml will be missing. Unfortunately, there does not seem to be a clean way to fix this in the build system due to CMake semantics. See https://gitlab.kitware.com/cmake/cmake/-/issues/23337 for details. We can mitigate the issue by ensuring that -I ./lib/QtQml.framework/Headers comes before -I ./lib/QtQml.framework by manipulating the order of values in INTERFACE_INCLUDE_DIRECTORIES. We might want to consider implementing an additional mitigation in AUTOMOC, so that it filters out include paths like -I ./lib/QtQml.framework, thus ensuring that a newer CMake version will not exhibit the same issue when used with an older Qt. We could consider doing the same in moc. The advantage of doing it in moc is that that moc will consider fewer invalid include paths when searching for headers. Amends 4b2de41b13eb71c0ce841ef357768a3913b49810 Amends d7efb2a419a88c8f512b98194c8f7bc81dbe942b Pick-to: 6.2 6.3 Fixes: QTBUG-89545 Fixes: QTBUG-101718 Fixes: QTBUG-101775 Change-Id: Ib2c25b5744bd2b5c9c83813bb04ad88c0179f6ec Reviewed-by: Fabian Kosmale <fabian.kosmale@qt.io> Reviewed-by: Alexey Edelev <alexey.edelev@qt.io> Reviewed-by: Qt CI Bot <qt_ci_bot@qt-project.org>
2022-03-17 12:23:48 +00:00
# Add the lib/Foo.framework dir as an include path to let CMake generate
# the -F compiler flag for framework-style includes to work.
# Make sure it is added AFTER the lib/Foo.framework/Headers include path,
# to mitigate issues like QTBUG-101718 and QTBUG-101775 where an include like
# #include <QtCore> might cause moc to include the QtCore framework shared library
# instead of the actual header.
"$<INSTALL_INTERFACE:${fw_install_dir}>"
)
endif()
if(NOT arg_NO_MODULE_HEADERS AND NOT arg_NO_SYNC_QT)
# For the syncqt headers
list(APPEND ${public_headers_list}
"$<INSTALL_INTERFACE:${module_install_interface_include_dir}>")
# To support finding Qt module includes that are not installed into the main Qt prefix.
# Use case: A Qt module built by Conan installed into a prefix other than the main prefix.
# This does duplicate the include path set on Qt6::Platform target, but CMake is smart
# enough to deduplicate the include paths on the command line.
# Frameworks are automatically handled by CMake in cmLocalGenerator::GetIncludeFlags()
# by additionally passing the 'QtFoo.framework/..' dir with an -iframework argument.
list(APPEND ${public_headers_list} "$<INSTALL_INTERFACE:${INSTALL_INCLUDEDIR}>")
endif()
list(APPEND ${public_headers_list} ${arg_PUBLIC_INCLUDE_DIRECTORIES})
set(defines_for_extend_target "")
if(NOT arg_HEADER_MODULE)
list(APPEND defines_for_extend_target
QT_NO_CAST_TO_ASCII QT_ASCII_CAST_WARNINGS
QT_MOC_COMPAT #we don't need warnings from calling moc code in our generated code
QT_USE_QSTRINGBUILDER
QT_DEPRECATED_WARNINGS
QT_BUILDING_QT
QT_BUILD_${module_define_infix}_LIB ### FIXME: use QT_BUILD_ADDON for Add-ons or remove if we don't have add-ons anymore
${deprecation_define}
)
list(APPEND arg_LIBRARIES Qt::PlatformModuleInternal)
endif()
qt_internal_add_repo_local_defines("${target}")
if(arg_NO_UNITY_BUILD)
set(arg_NO_UNITY_BUILD "NO_UNITY_BUILD")
else()
set(arg_NO_UNITY_BUILD "")
endif()
if(NOT arg_EXTERNAL_HEADERS)
set(arg_EXTERNAL_HEADERS "")
endif()
qt_internal_extend_target("${target}"
${arg_NO_UNITY_BUILD}
SOURCES
${arg_SOURCES}
${arg_EXTERNAL_HEADERS}
NO_UNITY_BUILD_SOURCES
${arg_NO_UNITY_BUILD_SOURCES}
INCLUDE_DIRECTORIES
${private_includes}
SYSTEM_INCLUDE_DIRECTORIES
${arg_SYSTEM_INCLUDE_DIRECTORIES}
PUBLIC_INCLUDE_DIRECTORIES
${public_includes}
PUBLIC_DEFINES
${arg_PUBLIC_DEFINES}
DEFINES
${arg_DEFINES}
${defines_for_extend_target}
PUBLIC_LIBRARIES ${arg_PUBLIC_LIBRARIES}
LIBRARIES ${arg_LIBRARIES}
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 ${arg_NO_PCH_SOURCES}
)
# The public module define is not meant to be used when building the module itself,
# it's only meant to be used for consumers of the module,
# thus we can't use qt_internal_extend_target()'s PUBLIC_DEFINES option.
target_compile_definitions(${target} INTERFACE QT_${module_define_infix}_LIB)
if(NOT arg_EXCEPTIONS AND NOT ${arg_HEADER_MODULE})
qt_internal_set_exceptions_flags("${target}" FALSE)
elseif(arg_EXCEPTIONS)
qt_internal_set_exceptions_flags("${target}" TRUE)
endif()
set(configureFile "${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 "${target}"
PUBLIC_FILE "${module_config_header}"
PRIVATE_FILE "${module_config_private_header}"
PUBLIC_DEPENDENCIES ${arg_FEATURE_DEPENDENCIES}
PRIVATE_DEPENDENCIES ${arg_FEATURE_DEPENDENCIES}
)
include(${configureFile})
qt_feature_module_end("${target}")
qt_internal_extend_target("${target}"
SOURCES
"${CMAKE_CURRENT_BINARY_DIR}/${module_config_header}"
"${CMAKE_CURRENT_BINARY_DIR}/${module_config_private_header}"
)
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")
if(target STREQUAL Core)
set(extra_cmake_code "")
# Add some variables for compatibility with Qt5 config files.
if(QT_FEATURE_reduce_exports)
string(APPEND qtcore_extra_cmake_code "
set(QT_VISIBILITY_AVAILABLE TRUE)")
endif()
if(QT_LIBINFIX)
string(APPEND qtcore_extra_cmake_code "
set(QT_LIBINFIX \"${QT_LIBINFIX}\")")
endif()
# Store whether find_package(Qt6Foo) should succeed if Qt6FooTools is missing.
if(QT_ALLOW_MISSING_TOOLS_PACKAGES)
string(APPEND qtcore_extra_cmake_code "
set(QT_ALLOW_MISSING_TOOLS_PACKAGES TRUE)")
endif()
endif()
configure_file("${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 ${arg_EXTRA_CMAKE_INCLUDES})
set(extra_cmake_code "")
if(arg_POLICIES)
set(policies "")
foreach(policy IN LISTS arg_POLICIES)
list(APPEND policies "set(QT_KNOWN_POLICY_${policy} TRUE)")
# When building Qt, tests and examples might expect a policy to be known, but they
# won't be known depending on which scope or when a find_package(Module) with the
# respective policy is called. Check the global list of known policies to accommodate
# that.
set_property(GLOBAL APPEND PROPERTY _qt_global_known_policies "${policy}")
endforeach()
list(JOIN policies "\n" policies_str)
string(APPEND extra_cmake_code "${policies_str}\n")
endif()
# Generate metatypes
if (NOT ${arg_NO_GENERATE_METATYPES} AND NOT target_type STREQUAL "INTERFACE_LIBRARY")
set(args "")
if(QT_WILL_INSTALL)
set(metatypes_install_dir "${INSTALL_ARCHDATADIR}/metatypes")
list(APPEND args
__QT_INTERNAL_INSTALL __QT_INTERNAL_INSTALL_DIR "${metatypes_install_dir}")
endif()
qt6_extract_metatypes(${target} ${args})
endif()
CMake: Enable NEW policies by CMake version with a global default When a CMake release introduces a new policy that affects most Qt modules, it may be appropriate to make each module aware of that newer CMake version and use the NEW policy without raising the minimum CMake version requirement. To reduce the churn associated with making that change across all Qt modules individually, this change allows it to be updated in a central place (qtbase), but in a way that allows a Qt module to override it in its own .cmake.conf file if required (e.g. to address the issues identified by policy warnings at a later time). The policies are modified at the start of the call to qt_build_repo_begin(). For commands defined by the qtbase module, qtbase needs to be in control of the policy settings at the point where those commands are defined. The above mechanism should not affect the policy settings for these commands, so the various *Config.cmake.in files must not specify policy ranges in a way that a Qt module's .cmake.conf file could influence. Starting with CMake 3.12, policies can be specified as a version range with the cmake_minimum_required() and cmake_policy() commands. All policies introduced in CMake versions up to the upper limit of that range will be set to NEW. The actual version of CMake being used only has to be at least the lower limit of the specified version range. This change uses cmake_minimum_required() rather than cmake_policy() due to the latter not halting further processing upon failure. See the following: https://gitlab.kitware.com/cmake/cmake/-/issues/21557 Task-number: QTBUG-88700 Pick-to: 6.0 Change-Id: I0a1f2611dd629f847a18186394f500d7f52753bc Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2020-11-30 07:46:49 +00:00
qt_internal_get_min_new_policy_cmake_version(min_new_policy_version)
qt_internal_get_max_new_policy_cmake_version(max_new_policy_version)
configure_package_config_file(
"${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(
CMake: Allow disabling package version check When building Qt repos, all find_package(Qt6) calls request a PROJECT_VERSION version which is set in .cmake.conf via QT_REPO_MODULE_VERSION. This means trying to configure qtsvg from a 6.3 branch using a 6.2 qtbase won't work, because qtsvg will call find_package(Qt6 6.3) and no such Qt6 package version exists. There are certain scenarios where it might be useful to try to do that though. One of them is doing Qt development while locally mixing branches. Another is building a 6.4 QtWebEngine against a 6.2 Qt. Allow to opt out of the version check by configuring each Qt repo with -DQT_NO_PACKAGE_VERSION_CHECK=TRUE. This setting is not recorded and will have to be set again when configuring another repo. The version check will also be disabled by default when configuring with the -developer-build feature. This will be recorded and embedded into each ConfigVersion file. If the version check is disabled, a warning will be shown mentioning the incompatible version of a package that was found but that package will still be accepted. The warning will show both when building Qt or using Qt in a user project. The warnings can be disabled by passing -DQT_NO_PACKAGE_VERSION_INCOMPATIBLE_WARNING=TRUE Furthermore when building a Qt repo, another warning will show when an incompatible package version is detected, to suggest to the Qt builder whether they want to use the incompatible version by disabling the version check. Note that there are no compatibility promises when using mixed non-matching versions. Things might not work. These options are only provided for convenience and their users know what they are doing. Pick-to: 6.2 Fixes: QTBUG-96458 Change-Id: I1a42e0b2a00b73513d776d89a76102ffd9136422 Reviewed-by: Craig Scott <craig.scott@qt.io>
2021-10-22 11:38:00 +00:00
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}ConfigVersionImpl.cmake"
VERSION ${PROJECT_VERSION}
COMPATIBILITY AnyNewerVersion
)
CMake: Allow disabling package version check When building Qt repos, all find_package(Qt6) calls request a PROJECT_VERSION version which is set in .cmake.conf via QT_REPO_MODULE_VERSION. This means trying to configure qtsvg from a 6.3 branch using a 6.2 qtbase won't work, because qtsvg will call find_package(Qt6 6.3) and no such Qt6 package version exists. There are certain scenarios where it might be useful to try to do that though. One of them is doing Qt development while locally mixing branches. Another is building a 6.4 QtWebEngine against a 6.2 Qt. Allow to opt out of the version check by configuring each Qt repo with -DQT_NO_PACKAGE_VERSION_CHECK=TRUE. This setting is not recorded and will have to be set again when configuring another repo. The version check will also be disabled by default when configuring with the -developer-build feature. This will be recorded and embedded into each ConfigVersion file. If the version check is disabled, a warning will be shown mentioning the incompatible version of a package that was found but that package will still be accepted. The warning will show both when building Qt or using Qt in a user project. The warnings can be disabled by passing -DQT_NO_PACKAGE_VERSION_INCOMPATIBLE_WARNING=TRUE Furthermore when building a Qt repo, another warning will show when an incompatible package version is detected, to suggest to the Qt builder whether they want to use the incompatible version by disabling the version check. Note that there are no compatibility promises when using mixed non-matching versions. Things might not work. These options are only provided for convenience and their users know what they are doing. Pick-to: 6.2 Fixes: QTBUG-96458 Change-Id: I1a42e0b2a00b73513d776d89a76102ffd9136422 Reviewed-by: Craig Scott <craig.scott@qt.io>
2021-10-22 11:38:00 +00:00
qt_internal_write_qt_package_version_file(
"${INSTALL_CMAKE_NAMESPACE}${target}"
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}ConfigVersion.cmake"
)
qt_install(FILES
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}Config.cmake"
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}ConfigVersion.cmake"
CMake: Allow disabling package version check When building Qt repos, all find_package(Qt6) calls request a PROJECT_VERSION version which is set in .cmake.conf via QT_REPO_MODULE_VERSION. This means trying to configure qtsvg from a 6.3 branch using a 6.2 qtbase won't work, because qtsvg will call find_package(Qt6 6.3) and no such Qt6 package version exists. There are certain scenarios where it might be useful to try to do that though. One of them is doing Qt development while locally mixing branches. Another is building a 6.4 QtWebEngine against a 6.2 Qt. Allow to opt out of the version check by configuring each Qt repo with -DQT_NO_PACKAGE_VERSION_CHECK=TRUE. This setting is not recorded and will have to be set again when configuring another repo. The version check will also be disabled by default when configuring with the -developer-build feature. This will be recorded and embedded into each ConfigVersion file. If the version check is disabled, a warning will be shown mentioning the incompatible version of a package that was found but that package will still be accepted. The warning will show both when building Qt or using Qt in a user project. The warnings can be disabled by passing -DQT_NO_PACKAGE_VERSION_INCOMPATIBLE_WARNING=TRUE Furthermore when building a Qt repo, another warning will show when an incompatible package version is detected, to suggest to the Qt builder whether they want to use the incompatible version by disabling the version check. Note that there are no compatibility promises when using mixed non-matching versions. Things might not work. These options are only provided for convenience and their users know what they are doing. Pick-to: 6.2 Fixes: QTBUG-96458 Change-Id: I1a42e0b2a00b73513d776d89a76102ffd9136422 Reviewed-by: Craig Scott <craig.scott@qt.io>
2021-10-22 11:38:00 +00:00
"${config_build_dir}/${INSTALL_CMAKE_NAMESPACE}${target}ConfigVersionImpl.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 ${INSTALL_LIBDIR}
)
if(BUILD_SHARED_LIBS)
qt_apply_rpaths(TARGET "${target}" INSTALL_PATH "${INSTALL_LIBDIR}" RELATIVE_RPATH)
CMake: Work around build rpath issue when CMAKE_STAGING_PREFIX is set CMake has logic to rewrite build rpaths that contain CMAKE_STAGING_PREFIX to instead point to CMAKE_INSTALL_PREFIX. This breaks running executables from the build directory, because their build rpath will point to a location where the libraries might not exist yet (we didn't install Qt yet). Work around this by setting CMAKE_STAGING_PREFIX to a fake path, so that CMake does not do the rewriting anymore. CMAKE_STAGING_PREFIX needs to be set at subdirectory scope, not function scope, which is why qt_internal_apply_staging_prefix_build_rpath_workaround() is a macro that is called from within each Qt internal function that creates a target. The workaround can be disabled by configuring with -DQT_NO_STAGING_PREFIX_BUILD_RPATH_WORKAROUND=ON The downside of this workaround is that it breaks per-subdirectory install rules like 'ninja src/gui/install'. Regular global installation like 'ninja install' works fine. This is similar to what we do for tests in qt_set_up_fake_standalone_tests_install_prefix() introduced by 20292250d44e08437306096e9096fc655cc9fb8b The reason it's not as good for other target types is because in contrast to tests, we do want to install them. In case if someone does call `ninja src/gui/install' they will most likely get a permission error, telling them it's not possible to install into /qt_fake_staging_prefix/ check_qt_internal_apply_staging_prefix_build_rpath_workaround Fixes: QTBUG-102592 Change-Id: I6ce78dde1924a8d830ef5c62808ff674c9639d65 Reviewed-by: Jörg Bornemann <joerg.bornemann@qt.io>
2022-04-14 16:04:41 +00:00
qt_internal_apply_staging_prefix_build_rpath_workaround()
endif()
if (ANDROID AND NOT arg_HEADER_MODULE)
# Record install library location so it can be accessed by
# qt_internal_android_dependencies without having to specify it again.
set_target_properties(${target} PROPERTIES
QT_ANDROID_MODULE_INSTALL_DIR ${INSTALL_LIBDIR})
endif()
qt_install(EXPORT ${export_name}
NAMESPACE ${QT_CMAKE_EXPORT_NAMESPACE}::
DESTINATION ${config_install_dir})
if(NOT arg_NO_ADDITIONAL_TARGET_INFO)
qt_internal_export_additional_targets_file(
TARGETS ${exported_targets}
EXPORT_NAME_PREFIX ${INSTALL_CMAKE_NAMESPACE}${target}
CONFIG_INSTALL_DIR "${config_install_dir}")
endif()
qt_internal_export_modern_cmake_config_targets_file(
TARGETS ${exported_targets}
EXPORT_NAME_PREFIX ${INSTALL_CMAKE_NAMESPACE}${target}
CONFIG_INSTALL_DIR "${config_install_dir}")
qt_internal_export_genex_properties(TARGETS ${target}
EXPORT_NAME_PREFIX ${INSTALL_CMAKE_NAMESPACE}${target}
CONFIG_INSTALL_DIR "${config_install_dir}"
)
### fixme: cmake is missing a built-in variable for this. We want to apply it only to modules and plugins
# that belong to Qt.
if(NOT arg_HEADER_MODULE)
qt_internal_add_link_flags_no_undefined("${target}")
endif()
set(interface_includes "")
# Handle cases like QmlDevToolsPrivate which do not have their own headers, but rather borrow them
# from another module.
if(NOT arg_NO_SYNC_QT AND NOT arg_NO_MODULE_HEADERS)
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.
qt_internal_append_include_directories_with_headers_check(${target}
interface_includes PRIVATE
"$<BUILD_INTERFACE:${module_build_interface_versioned_include_dir}>"
"$<BUILD_INTERFACE:${module_build_interface_versioned_inner_include_dir}>"
)
if(is_framework)
set(fw_install_private_header_dir "${INSTALL_LIBDIR}/${fw_private_header_dir}")
set(fw_install_private_module_header_dir
"${INSTALL_LIBDIR}/${fw_private_module_header_dir}")
qt_internal_append_include_directories_with_headers_check(${target}
interface_includes PRIVATE
"$<INSTALL_INTERFACE:${fw_install_private_header_dir}>"
"$<INSTALL_INTERFACE:${fw_install_private_module_header_dir}>"
)
else()
qt_internal_append_include_directories_with_headers_check(${target}
interface_includes PRIVATE
"$<INSTALL_INTERFACE:${module_install_interface_versioned_include_dir}>"
"$<INSTALL_INTERFACE:${module_install_interface_versioned_inner_include_dir}>"
)
endif()
endif()
Merge main and private targets of the internal modules In cmake, targets are used as an entity for modules. This causes a number of problems when we want to manipulate a module as a separate entity with properties associated with it. The _qt_internal_module_interface_name target property is introduced to represent the module entity. All modules write a name to this property, which will subsequently expand into the module name matched with the module name in qmake. The 'qt_internal_module_info' function is responsible for providing the correct values ​​for the module properties used when working with a module target. Unlike qmake, for internal modules in cmake it is expected that the Private suffix will be specified explicitly. In case the user wants to have a different module name, an additional argument MODULE_INTERFACE_NAME of the qt_internal_add_module function is introduced. This also changes the way how target dependencies are collected and resolved. Since the 'Private' suffix no longer means an unique identifier of the module 'Private' part, we look for the both Private and non-Private package names when resolving dependencies. TODO: This change doesn't affect the existing internal modules, so to keep compatibility with the existing code the existing internal modules create 'Private' aliases. The code that provides backward compatibility must be removed once all internal modules will get the proper names. Taks-number: QTBUG-87775 Change-Id: Ib4f28341506fb2e73eee960a709e24c42bbcd5ec Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2021-04-06 16:57:11 +00:00
if(arg_INTERNAL_MODULE)
target_include_directories("${target}" INTERFACE ${interface_includes})
elseif(NOT ${arg_NO_PRIVATE_MODULE})
target_include_directories("${target_private}" INTERFACE ${interface_includes})
target_link_libraries("${target_private}" INTERFACE "${target}")
endif()
set(debug_install_dir "${INSTALL_LIBDIR}")
if (MINGW)
set(debug_install_dir "${INSTALL_BINDIR}")
endif()
qt_enable_separate_debug_info(${target} "${debug_install_dir}")
set(pdb_install_dir "${INSTALL_BINDIR}")
if(NOT is_shared_lib)
set(pdb_install_dir "${INSTALL_LIBDIR}")
endif()
qt_internal_install_pdb_files(${target} "${pdb_install_dir}")
if (arg_NO_PRIVATE_MODULE)
set(arg_NO_PRIVATE_MODULE "NO_PRIVATE_MODULE")
else()
unset(arg_NO_PRIVATE_MODULE)
endif()
qt_describe_module(${target})
qt_add_list_file_finalizer(qt_finalize_module ${target} ${arg_INTERNAL_MODULE} ${arg_NO_PRIVATE_MODULE})
endfunction()
function(qt_finalize_module target)
qt_internal_collect_module_headers(module_headers ${target})
# qt_internal_install_module_headers needs to be called before
# qt_finalize_framework_headers_copy, because the last uses the QT_COPIED_FRAMEWORK_HEADERS
Replace the syncqt.pl script with syncqt tool syncqt.pl adds an extra dependency on perl when building Qt. Modern C++ provides the convenient cross-platform way to access a filesystem and to use regular expressions, so we may replace the perl script with C++ application. The syncqt executable is built at configure time and installed as QtCore tool. It's running at configure time to deliver the required header files for IDE to build a consistent code model and at the build time to keep tracking changes in header files and generate the missing aliases without reconfiguring. 'syncqt' only parses header files from a CMake build tree, so the resulting Qt installation only contains interfacing headers that belong to the platform that Qt is built for. 'sync.profile' files are not used as the 'source of truth' for sync qt procedure anymore, all the necessary information is taken from either CMake files at configure time or from the module header files while parsing them. syncqt.pl is still in place since it's required as fallback solution for a smooth transition to the new syncqt implementation for all qt repositories. This patchset only enables the C++ based syncqt for 'qtbase' repository. From the performance perspective C++ version works faster then perl script, also the configure time is reduced significally on subsequent reconfigurations - up x2 times faster when re-configuring repository, but it also takes time to compile the tool itself the first time. Numbers for qtbase: syncqt.pl syncqt.cpp initial: 0m16,035s 0m20,413s reconfig: 0m6,819s 0m3,725s The syncing procedure can be run separately for each module using <ModuleName>_sync_headers targets. The 'sync_headers' target can be used to sync all the modules at once. Task-number: QTBUG-87480 Task-number: QTBUG-103196 Change-Id: I8c938bcaf88a8713b39bbfd66d9e7ef12b2c3523 Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2022-08-15 16:29:41 +00:00
# property which supposed to be updated inside every qt_internal_install_module_headers
# call.
qt_internal_add_headersclean_target(${target} "${module_headers_public}")
qt_internal_target_sync_headers(${target} "${module_headers_all}"
"${module_headers_generated}")
get_target_property(module_depends_header ${target} _qt_module_depends_header)
qt_internal_install_module_headers(${target}
PUBLIC ${module_headers_public} "${module_depends_header}"
PRIVATE ${module_headers_private}
QPA ${module_headers_qpa}
)
qt_finalize_framework_headers_copy(${target})
qt_generate_prl_file(${target} "${INSTALL_LIBDIR}")
qt_generate_module_pri_file("${target}" ${ARGN})
qt_internal_generate_pkg_config_file(${target})
endfunction()
Merge main and private targets of the internal modules In cmake, targets are used as an entity for modules. This causes a number of problems when we want to manipulate a module as a separate entity with properties associated with it. The _qt_internal_module_interface_name target property is introduced to represent the module entity. All modules write a name to this property, which will subsequently expand into the module name matched with the module name in qmake. The 'qt_internal_module_info' function is responsible for providing the correct values ​​for the module properties used when working with a module target. Unlike qmake, for internal modules in cmake it is expected that the Private suffix will be specified explicitly. In case the user wants to have a different module name, an additional argument MODULE_INTERFACE_NAME of the qt_internal_add_module function is introduced. This also changes the way how target dependencies are collected and resolved. Since the 'Private' suffix no longer means an unique identifier of the module 'Private' part, we look for the both Private and non-Private package names when resolving dependencies. TODO: This change doesn't affect the existing internal modules, so to keep compatibility with the existing code the existing internal modules create 'Private' aliases. The code that provides backward compatibility must be removed once all internal modules will get the proper names. Taks-number: QTBUG-87775 Change-Id: Ib4f28341506fb2e73eee960a709e24c42bbcd5ec Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2021-04-06 16:57:11 +00:00
# Get a set of Qt module related values based on the target.
#
# The function uses the _qt_module_interface_name and _qt_module_include_name target properties to
# preform values for the output variables. _qt_module_interface_name it's the basic name of module
# without "Qtfication" and the "Private" suffix if we speak about INTERNAL_MODULEs. Typical value of
# the _qt_module_interface_name is the provided to qt_internal_add_module ${target} name, e.g. Core.
# _qt_module_interface_name is used to preform all the include paths unless the
# _qt_module_include_name property is specified. _qt_module_include_name is legacy property that
# replaces the module name in include paths and has a higher priority than the
# _qt_module_interface_name property.
#
# 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_include_name with the value"QtCore"
# Usually the module name from ${foo} is used, but the name might be different if the
# MODULE_INCLUDE_NAME argument is set when creating the module.
# * foo_versioned_include_dir with the value "QtCore/6.2.0"
# * foo_versioned_inner_include_dir with the value "QtCore/6.2.0/QtCore"
# * foo_private_include_dir with the value "QtCore/6.2.0/QtCore/private"
# * foo_qpa_include_dir with the value "QtCore/6.2.0/QtCore/qpa"
# * foo_interface_name the interface name of the module stored in _qt_module_interface_name
# property, e.g. Core.
#
# The function also sets a bunch of module include paths for the build and install interface.
# Variables that contains these paths start with foo_build_interface_ and foo_install_interface_
# accordingly.
# The following variables are set in the caller's scope:
# * foo_<build|install>_interface_include_dir with
# qtbase_build_dir/include/QtCore for build interface and
# include/QtCore for install interface.
# * foo_<build|install>_interface_versioned_include_dir with
# qtbase_build_dir/include/QtCore/6.2.0 for build interface and
# include/QtCore/6.2.0 for install interface.
# * foo_<build|install>_versioned_inner_include_dir with
# qtbase_build_dir/include/QtCore/6.2.0/QtCore for build interface and
# include/QtCore/6.2.0/QtCore for install interface.
# * foo_<build|install>_private_include_dir with
# qtbase_build_dir/include/QtCore/6.2.0/QtCore/private for build interface and
# include/QtCore/6.2.0/QtCore/private for install interface.
# * foo_<build|install>_qpa_include_dir with
# qtbase_build_dir/include/QtCore/6.2.0/QtCore/qpa for build interface and
# include/QtCore/6.2.0/QtCore/qpa for install interface.
# The following values are set by the function and might be useful in caller's scope:
# * repo_install_interface_include_dir contains path to the top-level repository include directory,
# e.g. qtbase_build_dir/include
# * repo_install_interface_include_dir contains path to the non-prefixed top-level include
# directory is used for the installation, e.g. include
# Note: that for non-prefixed Qt configurations the build interface paths will start with
# <build_directory>/qtbase/include, e.g foo_build_interface_include_dir of the Qml module looks
# like qt_toplevel_build_dir/qtbase/include/QtQml
function(qt_internal_module_info result target)
if(result STREQUAL "repo")
message(FATAL_ERROR "'repo' keyword is reserved for internal use, please specify \
the different base name for the module info variables.")
endif()
Merge main and private targets of the internal modules In cmake, targets are used as an entity for modules. This causes a number of problems when we want to manipulate a module as a separate entity with properties associated with it. The _qt_internal_module_interface_name target property is introduced to represent the module entity. All modules write a name to this property, which will subsequently expand into the module name matched with the module name in qmake. The 'qt_internal_module_info' function is responsible for providing the correct values ​​for the module properties used when working with a module target. Unlike qmake, for internal modules in cmake it is expected that the Private suffix will be specified explicitly. In case the user wants to have a different module name, an additional argument MODULE_INTERFACE_NAME of the qt_internal_add_module function is introduced. This also changes the way how target dependencies are collected and resolved. Since the 'Private' suffix no longer means an unique identifier of the module 'Private' part, we look for the both Private and non-Private package names when resolving dependencies. TODO: This change doesn't affect the existing internal modules, so to keep compatibility with the existing code the existing internal modules create 'Private' aliases. The code that provides backward compatibility must be removed once all internal modules will get the proper names. Taks-number: QTBUG-87775 Change-Id: Ib4f28341506fb2e73eee960a709e24c42bbcd5ec Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2021-04-06 16:57:11 +00:00
get_target_property(module_interface_name ${target} _qt_module_interface_name)
if(NOT module_interface_name)
message(FATAL_ERROR "${target} is not a module.")
endif()
qt_internal_qtfy_target(module ${module_interface_name})
get_target_property("${result}_include_name" ${target} _qt_module_include_name)
if(NOT ${result}_include_name)
set("${result}_include_name" "${module}")
endif()
set("${result}_versioned_include_dir"
"${${result}_include_name}/${PROJECT_VERSION}")
set("${result}_versioned_inner_include_dir"
"${${result}_versioned_include_dir}/${${result}_include_name}")
set("${result}_private_include_dir"
"${${result}_versioned_inner_include_dir}/private")
set("${result}_qpa_include_dir"
"${${result}_versioned_inner_include_dir}/qpa")
# Module build interface directories
set(repo_build_interface_include_dir "${QT_BUILD_DIR}/include")
set("${result}_build_interface_include_dir"
"${repo_build_interface_include_dir}/${${result}_include_name}")
set("${result}_build_interface_versioned_include_dir"
"${repo_build_interface_include_dir}/${${result}_versioned_include_dir}")
set("${result}_build_interface_versioned_inner_include_dir"
"${repo_build_interface_include_dir}/${${result}_versioned_inner_include_dir}")
set("${result}_build_interface_private_include_dir"
"${repo_build_interface_include_dir}/${${result}_private_include_dir}")
set("${result}_build_interface_qpa_include_dir"
"${repo_build_interface_include_dir}/${${result}_qpa_include_dir}")
# Module install interface directories
set(repo_install_interface_include_dir "${INSTALL_INCLUDEDIR}")
set("${result}_install_interface_include_dir"
"${repo_install_interface_include_dir}/${${result}_include_name}")
set("${result}_install_interface_versioned_include_dir"
"${repo_install_interface_include_dir}/${${result}_versioned_include_dir}")
set("${result}_install_interface_versioned_inner_include_dir"
"${repo_install_interface_include_dir}/${${result}_versioned_inner_include_dir}")
set("${result}_install_interface_private_include_dir"
"${repo_install_interface_include_dir}/${${result}_private_include_dir}")
set("${result}_install_interface_qpa_include_dir"
"${repo_install_interface_include_dir}/${${result}_qpa_include_dir}")
set("${result}" "${module}" PARENT_SCOPE)
Merge main and private targets of the internal modules In cmake, targets are used as an entity for modules. This causes a number of problems when we want to manipulate a module as a separate entity with properties associated with it. The _qt_internal_module_interface_name target property is introduced to represent the module entity. All modules write a name to this property, which will subsequently expand into the module name matched with the module name in qmake. The 'qt_internal_module_info' function is responsible for providing the correct values ​​for the module properties used when working with a module target. Unlike qmake, for internal modules in cmake it is expected that the Private suffix will be specified explicitly. In case the user wants to have a different module name, an additional argument MODULE_INTERFACE_NAME of the qt_internal_add_module function is introduced. This also changes the way how target dependencies are collected and resolved. Since the 'Private' suffix no longer means an unique identifier of the module 'Private' part, we look for the both Private and non-Private package names when resolving dependencies. TODO: This change doesn't affect the existing internal modules, so to keep compatibility with the existing code the existing internal modules create 'Private' aliases. The code that provides backward compatibility must be removed once all internal modules will get the proper names. Taks-number: QTBUG-87775 Change-Id: Ib4f28341506fb2e73eee960a709e24c42bbcd5ec Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2021-04-06 16:57:11 +00:00
set("${result}_versioned" "${module_versioned}" PARENT_SCOPE)
string(TOUPPER "${module_interface_name}" upper)
string(TOLOWER "${module_interface_name}" lower)
set("${result}_upper" "${upper}" PARENT_SCOPE)
set("${result}_lower" "${lower}" PARENT_SCOPE)
set("${result}_include_name" "${${result}_include_name}" PARENT_SCOPE)
set("${result}_versioned_include_dir" "${${result}_versioned_include_dir}" PARENT_SCOPE)
set("${result}_versioned_inner_include_dir"
"${${result}_versioned_inner_include_dir}" PARENT_SCOPE)
set("${result}_private_include_dir" "${${result}_private_include_dir}" PARENT_SCOPE)
set("${result}_qpa_include_dir" "${${result}_qpa_include_dir}" PARENT_SCOPE)
set("${result}_interface_name" "${module_interface_name}" PARENT_SCOPE)
# Setting module build interface directories in parent scope
set(repo_build_interface_include_dir "${repo_build_interface_include_dir}" PARENT_SCOPE)
set("${result}_build_interface_include_dir"
"${${result}_build_interface_include_dir}" PARENT_SCOPE)
set("${result}_build_interface_versioned_include_dir"
"${${result}_build_interface_versioned_include_dir}" PARENT_SCOPE)
set("${result}_build_interface_versioned_inner_include_dir"
"${${result}_build_interface_versioned_inner_include_dir}" PARENT_SCOPE)
set("${result}_build_interface_private_include_dir"
"${${result}_build_interface_private_include_dir}" PARENT_SCOPE)
set("${result}_build_interface_qpa_include_dir"
"${${result}_build_interface_qpa_include_dir}" PARENT_SCOPE)
# Setting module install interface directories in parent scope
set(repo_install_interface_include_dir "${repo_install_interface_include_dir}" PARENT_SCOPE)
set("${result}_install_interface_include_dir"
"${${result}_install_interface_include_dir}" PARENT_SCOPE)
set("${result}_install_interface_versioned_include_dir"
"${${result}_install_interface_versioned_include_dir}" PARENT_SCOPE)
set("${result}_install_interface_versioned_inner_include_dir"
"${${result}_install_interface_versioned_inner_include_dir}" PARENT_SCOPE)
set("${result}_install_interface_private_include_dir"
"${${result}_install_interface_private_include_dir}" PARENT_SCOPE)
set("${result}_install_interface_qpa_include_dir"
"${${result}_install_interface_qpa_include_dir}" PARENT_SCOPE)
endfunction()
function(qt_internal_list_to_json_array out_var list_var)
set(result "")
foreach(item IN LISTS ${list_var})
if(NOT "${result}" STREQUAL "")
string(APPEND result ", ")
endif()
string(APPEND result "\"${item}\"")
endforeach()
set("${out_var}" "[${result}]" PARENT_SCOPE)
endfunction()
# Generate a module description file based on the template in ModuleDescription.json.in
function(qt_describe_module target)
set(path_suffix "${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")
string(TOLOWER "${PROJECT_NAME}" lower_case_project_name)
set(cross_compilation "false")
if(CMAKE_CROSSCOMPILING)
set(cross_compilation "true")
endif()
set(extra_module_information "")
get_target_property(target_type ${target} TYPE)
if(NOT target_type STREQUAL "INTERFACE_LIBRARY")
get_target_property(plugin_types ${target} MODULE_PLUGIN_TYPES)
if(plugin_types)
qt_internal_list_to_json_array(plugin_types plugin_types)
string(APPEND extra_module_information "\n \"plugin_types\": ${plugin_types},")
endif()
endif()
get_target_property(is_internal ${target} _qt_is_internal_module)
if(is_internal)
string(APPEND extra_module_information "\n \"internal\": true,")
endif()
set(extra_build_information "")
if(NOT QT_NAMESPACE STREQUAL "")
string(APPEND extra_build_information "
\"namespace\": \"${QT_NAMESPACE}\",")
endif()
if(ANDROID)
string(APPEND extra_build_information "
\"android\": {
\"api_version\": \"${QT_ANDROID_API_VERSION}\",
\"ndk\": {
\"version\": \"${ANDROID_NDK_REVISION}\"
}
},")
endif()
configure_file("${descfile_in}" "${descfile_out}")
qt_install(FILES "${descfile_out}" DESTINATION "${install_dir}")
endfunction()
function(qt_internal_generate_cpp_global_exports target module_define_infix)
cmake_parse_arguments(arg
"GENERATE_PRIVATE_CPP_EXPORTS"
"CPP_EXPORT_HEADER_BASE_NAME"
"" ${ARGN}
)
qt_internal_module_info(module "${target}")
set(header_base_name "qt${module_lower}exports")
if(arg_CPP_EXPORT_HEADER_BASE_NAME)
set(header_base_name "${arg_CPP_EXPORT_HEADER_BASE_NAME}")
endif()
# Is used as a part of the header guard define.
string(TOUPPER "${header_base_name}" header_base_name_upper)
set(generated_header_path
"${module_build_interface_include_dir}/${header_base_name}.h"
)
configure_file("${QT_CMAKE_DIR}/modulecppexports.h.in"
"${generated_header_path}" @ONLY
)
set(${out_public_header} "${generated_header_path}" PARENT_SCOPE)
target_sources(${target} PRIVATE "${generated_header_path}")
Replace the syncqt.pl script with syncqt tool syncqt.pl adds an extra dependency on perl when building Qt. Modern C++ provides the convenient cross-platform way to access a filesystem and to use regular expressions, so we may replace the perl script with C++ application. The syncqt executable is built at configure time and installed as QtCore tool. It's running at configure time to deliver the required header files for IDE to build a consistent code model and at the build time to keep tracking changes in header files and generate the missing aliases without reconfiguring. 'syncqt' only parses header files from a CMake build tree, so the resulting Qt installation only contains interfacing headers that belong to the platform that Qt is built for. 'sync.profile' files are not used as the 'source of truth' for sync qt procedure anymore, all the necessary information is taken from either CMake files at configure time or from the module header files while parsing them. syncqt.pl is still in place since it's required as fallback solution for a smooth transition to the new syncqt implementation for all qt repositories. This patchset only enables the C++ based syncqt for 'qtbase' repository. From the performance perspective C++ version works faster then perl script, also the configure time is reduced significally on subsequent reconfigurations - up x2 times faster when re-configuring repository, but it also takes time to compile the tool itself the first time. Numbers for qtbase: syncqt.pl syncqt.cpp initial: 0m16,035s 0m20,413s reconfig: 0m6,819s 0m3,725s The syncing procedure can be run separately for each module using <ModuleName>_sync_headers targets. The 'sync_headers' target can be used to sync all the modules at once. Task-number: QTBUG-87480 Task-number: QTBUG-103196 Change-Id: I8c938bcaf88a8713b39bbfd66d9e7ef12b2c3523 Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2022-08-15 16:29:41 +00:00
set_source_files_properties("${generated_header_path}" PROPERTIES GENERATED TRUE)
if(arg_GENERATE_PRIVATE_CPP_EXPORTS)
set(generated_private_header_path
"${module_build_interface_private_include_dir}/${header_base_name}_p.h"
)
configure_file("${QT_CMAKE_DIR}/modulecppexports_p.h.in"
"${generated_private_header_path}" @ONLY
)
set(${out_private_header} "${generated_private_header_path}" PARENT_SCOPE)
target_sources(${target} PRIVATE "${generated_private_header_path}")
Replace the syncqt.pl script with syncqt tool syncqt.pl adds an extra dependency on perl when building Qt. Modern C++ provides the convenient cross-platform way to access a filesystem and to use regular expressions, so we may replace the perl script with C++ application. The syncqt executable is built at configure time and installed as QtCore tool. It's running at configure time to deliver the required header files for IDE to build a consistent code model and at the build time to keep tracking changes in header files and generate the missing aliases without reconfiguring. 'syncqt' only parses header files from a CMake build tree, so the resulting Qt installation only contains interfacing headers that belong to the platform that Qt is built for. 'sync.profile' files are not used as the 'source of truth' for sync qt procedure anymore, all the necessary information is taken from either CMake files at configure time or from the module header files while parsing them. syncqt.pl is still in place since it's required as fallback solution for a smooth transition to the new syncqt implementation for all qt repositories. This patchset only enables the C++ based syncqt for 'qtbase' repository. From the performance perspective C++ version works faster then perl script, also the configure time is reduced significally on subsequent reconfigurations - up x2 times faster when re-configuring repository, but it also takes time to compile the tool itself the first time. Numbers for qtbase: syncqt.pl syncqt.cpp initial: 0m16,035s 0m20,413s reconfig: 0m6,819s 0m3,725s The syncing procedure can be run separately for each module using <ModuleName>_sync_headers targets. The 'sync_headers' target can be used to sync all the modules at once. Task-number: QTBUG-87480 Task-number: QTBUG-103196 Change-Id: I8c938bcaf88a8713b39bbfd66d9e7ef12b2c3523 Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2022-08-15 16:29:41 +00:00
set_source_files_properties("${generated_private_header_path}" PROPERTIES GENERATED TRUE)
endif()
endfunction()
function(qt_internal_install_module_headers target)
set(options)
set(one_value_args)
set(multi_value_args PUBLIC PRIVATE QPA)
cmake_parse_arguments(arg "${options}" "${one_value_args}" "${multi_value_args}" ${ARGN})
qt_internal_module_info(module ${target})
get_target_property(target_type ${target} TYPE)
set(is_interface_lib FALSE)
if(target_type STREQUAL "INTERFACE_LIBRARY")
set(is_interface_lib TRUE)
else()
get_target_property(is_framework ${target} FRAMEWORK)
endif()
foreach(header_type IN LISTS multi_value_args)
if(NOT arg_${header_type})
set(arg_${header_type} "")
endif()
endforeach()
if(is_framework)
qt_copy_framework_headers(${target}
PUBLIC ${arg_PUBLIC}
PRIVATE ${arg_PRIVATE}
QPA ${arg_QPA}
)
else()
if(arg_PUBLIC)
qt_install(FILES ${arg_PUBLIC}
DESTINATION "${module_install_interface_include_dir}")
endif()
if(arg_PRIVATE)
qt_install(FILES ${arg_PRIVATE}
DESTINATION "${module_install_interface_private_include_dir}")
endif()
Replace the syncqt.pl script with syncqt tool syncqt.pl adds an extra dependency on perl when building Qt. Modern C++ provides the convenient cross-platform way to access a filesystem and to use regular expressions, so we may replace the perl script with C++ application. The syncqt executable is built at configure time and installed as QtCore tool. It's running at configure time to deliver the required header files for IDE to build a consistent code model and at the build time to keep tracking changes in header files and generate the missing aliases without reconfiguring. 'syncqt' only parses header files from a CMake build tree, so the resulting Qt installation only contains interfacing headers that belong to the platform that Qt is built for. 'sync.profile' files are not used as the 'source of truth' for sync qt procedure anymore, all the necessary information is taken from either CMake files at configure time or from the module header files while parsing them. syncqt.pl is still in place since it's required as fallback solution for a smooth transition to the new syncqt implementation for all qt repositories. This patchset only enables the C++ based syncqt for 'qtbase' repository. From the performance perspective C++ version works faster then perl script, also the configure time is reduced significally on subsequent reconfigurations - up x2 times faster when re-configuring repository, but it also takes time to compile the tool itself the first time. Numbers for qtbase: syncqt.pl syncqt.cpp initial: 0m16,035s 0m20,413s reconfig: 0m6,819s 0m3,725s The syncing procedure can be run separately for each module using <ModuleName>_sync_headers targets. The 'sync_headers' target can be used to sync all the modules at once. Task-number: QTBUG-87480 Task-number: QTBUG-103196 Change-Id: I8c938bcaf88a8713b39bbfd66d9e7ef12b2c3523 Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2022-08-15 16:29:41 +00:00
if(arg_QPA)
qt_install(FILES ${arg_QPA} DESTINATION "${module_install_interface_qpa_include_dir}")
endif()
endif()
endfunction()
function(qt_internal_collect_module_headers out_var target)
set(${out_var}_public "")
set(${out_var}_private "")
set(${out_var}_qpa "")
Replace the syncqt.pl script with syncqt tool syncqt.pl adds an extra dependency on perl when building Qt. Modern C++ provides the convenient cross-platform way to access a filesystem and to use regular expressions, so we may replace the perl script with C++ application. The syncqt executable is built at configure time and installed as QtCore tool. It's running at configure time to deliver the required header files for IDE to build a consistent code model and at the build time to keep tracking changes in header files and generate the missing aliases without reconfiguring. 'syncqt' only parses header files from a CMake build tree, so the resulting Qt installation only contains interfacing headers that belong to the platform that Qt is built for. 'sync.profile' files are not used as the 'source of truth' for sync qt procedure anymore, all the necessary information is taken from either CMake files at configure time or from the module header files while parsing them. syncqt.pl is still in place since it's required as fallback solution for a smooth transition to the new syncqt implementation for all qt repositories. This patchset only enables the C++ based syncqt for 'qtbase' repository. From the performance perspective C++ version works faster then perl script, also the configure time is reduced significally on subsequent reconfigurations - up x2 times faster when re-configuring repository, but it also takes time to compile the tool itself the first time. Numbers for qtbase: syncqt.pl syncqt.cpp initial: 0m16,035s 0m20,413s reconfig: 0m6,819s 0m3,725s The syncing procedure can be run separately for each module using <ModuleName>_sync_headers targets. The 'sync_headers' target can be used to sync all the modules at once. Task-number: QTBUG-87480 Task-number: QTBUG-103196 Change-Id: I8c938bcaf88a8713b39bbfd66d9e7ef12b2c3523 Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2022-08-15 16:29:41 +00:00
set(${out_var}_all "")
qt_internal_get_target_sources(sources ${target})
get_target_property(target_type ${target} TYPE)
if(target_type STREQUAL "INTERFACE_LIBRARY")
set(source_dir "${CMAKE_CURRENT_SOURCE_DIR}")
else()
get_target_property(source_dir ${target} SOURCE_DIR)
endif()
get_filename_component(source_dir "${source_dir}" ABSOLUTE)
get_filename_component(source_dir "${source_dir}" REALPATH)
get_target_property(is_3rdparty_library ${target} _qt_module_is_3rdparty_header_library)
get_target_property(public_filter ${target} _qt_module_public_headers_filter_regex)
get_target_property(private_filter ${target} _qt_module_private_headers_filter_regex)
get_target_property(qpa_filter ${target} _qt_module_qpa_headers_filter_regex)
set(condition_independent_headers_warning "")
foreach(file_path IN LISTS sources)
get_filename_component(file_name "${file_path}" NAME)
if(NOT file_name MATCHES ".+\\.h$")
continue()
endif()
get_source_file_property(non_module_header ${file_path} _qt_non_module_header)
if(non_module_header)
continue()
endif()
get_filename_component(file_path "${file_path}" ABSOLUTE)
get_filename_component(file_path "${file_path}" REALPATH)
string(FIND "${file_path}" "${source_dir}" source_dir_pos)
if(source_dir_pos EQUAL 0)
set(is_outside_module_source_dir FALSE)
else()
set(is_outside_module_source_dir TRUE)
endif()
get_source_file_property(is_generated "${file_path}" GENERATED)
# Skip all header files outside the module source directory, except the generated files.
if(is_outside_module_source_dir AND NOT is_generated)
continue()
endif()
get_source_file_property(condition ${file_path} _qt_extend_target_condition)
if(NOT condition STREQUAL "" AND NOT condition STREQUAL "NOTFOUND")
list(JOIN condition " " condition_string)
string(APPEND condition_independent_headers_warning
"\nFile:\n ${file_path}"
"\nCondition:\n ${condition_string}")
endif()
if(file_path MATCHES "3rdparty/.+" AND NOT is_3rdparty_library)
set(is_3rdparty_header TRUE)
else()
set(is_3rdparty_header FALSE)
endif()
list(APPEND ${out_var}_all "${file_path}")
if(qpa_filter AND file_name MATCHES "${qpa_filter}")
list(APPEND ${out_var}_qpa "${file_path}")
elseif(private_filter AND file_name MATCHES "${private_filter}")
list(APPEND ${out_var}_private "${file_path}")
elseif((NOT public_filter OR file_name MATCHES "${public_filter}")
AND NOT is_3rdparty_header)
list(APPEND ${out_var}_public "${file_path}")
endif()
Replace the syncqt.pl script with syncqt tool syncqt.pl adds an extra dependency on perl when building Qt. Modern C++ provides the convenient cross-platform way to access a filesystem and to use regular expressions, so we may replace the perl script with C++ application. The syncqt executable is built at configure time and installed as QtCore tool. It's running at configure time to deliver the required header files for IDE to build a consistent code model and at the build time to keep tracking changes in header files and generate the missing aliases without reconfiguring. 'syncqt' only parses header files from a CMake build tree, so the resulting Qt installation only contains interfacing headers that belong to the platform that Qt is built for. 'sync.profile' files are not used as the 'source of truth' for sync qt procedure anymore, all the necessary information is taken from either CMake files at configure time or from the module header files while parsing them. syncqt.pl is still in place since it's required as fallback solution for a smooth transition to the new syncqt implementation for all qt repositories. This patchset only enables the C++ based syncqt for 'qtbase' repository. From the performance perspective C++ version works faster then perl script, also the configure time is reduced significally on subsequent reconfigurations - up x2 times faster when re-configuring repository, but it also takes time to compile the tool itself the first time. Numbers for qtbase: syncqt.pl syncqt.cpp initial: 0m16,035s 0m20,413s reconfig: 0m6,819s 0m3,725s The syncing procedure can be run separately for each module using <ModuleName>_sync_headers targets. The 'sync_headers' target can be used to sync all the modules at once. Task-number: QTBUG-87480 Task-number: QTBUG-103196 Change-Id: I8c938bcaf88a8713b39bbfd66d9e7ef12b2c3523 Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2022-08-15 16:29:41 +00:00
if(is_generated)
list(APPEND ${out_var}_generated "${file_path}")
endif()
endforeach()
if(NOT condition_independent_headers_warning STREQUAL "" AND QT_FEATURE_developer_build)
message(AUTHOR_WARNING "Condition is ignored when adding the following header file(s) to"
" the ${target} module:"
"${condition_independent_headers_warning}"
"\nThe usage of the file(s) is not properly isolated in this or other modules according"
" to the condition. This warning is for the Qt maintainers. Please make sure that file"
" include(s) are guarded with the appropriate macros in the Qt code. If files should be"
" added to the module unconditionally, please move them to the common SOURCES section"
" in the qt_internal_add_module call.")
endif()
set(header_types public private qpa)
set(has_header_types_properties "")
foreach(header_type IN LISTS header_types)
get_target_property(current_propety_value ${target} _qt_module_has_${header_type}_headers)
if(${out_var}_${header_type})
list(APPEND has_header_types_properties
_qt_module_has_${header_type}_headers TRUE)
endif()
set(${out_var}_${header_type} "${${out_var}_${header_type}}" PARENT_SCOPE)
endforeach()
Replace the syncqt.pl script with syncqt tool syncqt.pl adds an extra dependency on perl when building Qt. Modern C++ provides the convenient cross-platform way to access a filesystem and to use regular expressions, so we may replace the perl script with C++ application. The syncqt executable is built at configure time and installed as QtCore tool. It's running at configure time to deliver the required header files for IDE to build a consistent code model and at the build time to keep tracking changes in header files and generate the missing aliases without reconfiguring. 'syncqt' only parses header files from a CMake build tree, so the resulting Qt installation only contains interfacing headers that belong to the platform that Qt is built for. 'sync.profile' files are not used as the 'source of truth' for sync qt procedure anymore, all the necessary information is taken from either CMake files at configure time or from the module header files while parsing them. syncqt.pl is still in place since it's required as fallback solution for a smooth transition to the new syncqt implementation for all qt repositories. This patchset only enables the C++ based syncqt for 'qtbase' repository. From the performance perspective C++ version works faster then perl script, also the configure time is reduced significally on subsequent reconfigurations - up x2 times faster when re-configuring repository, but it also takes time to compile the tool itself the first time. Numbers for qtbase: syncqt.pl syncqt.cpp initial: 0m16,035s 0m20,413s reconfig: 0m6,819s 0m3,725s The syncing procedure can be run separately for each module using <ModuleName>_sync_headers targets. The 'sync_headers' target can be used to sync all the modules at once. Task-number: QTBUG-87480 Task-number: QTBUG-103196 Change-Id: I8c938bcaf88a8713b39bbfd66d9e7ef12b2c3523 Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
2022-08-15 16:29:41 +00:00
set(${out_var}_all "${${out_var}_all}" PARENT_SCOPE)
set(${out_var}_generated "${${out_var}_generated}" PARENT_SCOPE)
if(has_header_types_properties)
set_target_properties(${target} PROPERTIES ${has_header_types_properties})
endif()
set_property(TARGET ${target} APPEND PROPERTY
EXPORT_PROPERTIES
_qt_module_has_public_headers
_qt_module_has_private_headers
_qt_module_has_qpa_headers
)
endfunction()