qt5base-lts/cmake/QtSetup.cmake

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## Set a default build type if none was specified
# Set the QT_IS_BUILDING_QT variable so we can verify whether we are building
# Qt from source
set(QT_BUILDING_QT TRUE CACHE
TYPE STRING "When this is present and set to true, it signals that we are building Qt from source.")
set(_default_build_type "Release")
if(EXISTS "${CMAKE_SOURCE_DIR}/.git")
set(_default_build_type "Debug")
endif()
Add initial support for CMake "Ninja Multi-Config" generator This allows doing debug_and_release builds with Ninja on all platforms. The "Ninja Multi-Config generator" is available starting with CMake 3.17. Desired configurations can be set via CMAKE_CONFIGURATION_TYPES. Possible values: "Release, Debug, RelWithDebInfo, MinRelSize". For example -DCMAKE_CONFIGURATION_TYPES="Release;Debug". The first configuration is the 'default' configuration which is built when calling ninja with no arguments. To build all targets of a certain configuration use "ninja all:Release" or "ninja all:Debug". To build all targets in all configurations use "ninja all:all". Note that the first configuration influences which configuration of tools will be used when building the libraries for all configurations. In simple terms, when configured with -DCMAKE_CONFIGURATION_TYPES="Release;Debug" the release version of moc is used by AUTOMOC. When configured with -DCMAKE_CONFIGURATION_TYPES="Debug;Release" the debug version of moc is used by AUTOMOC. Framework builds and Ninja Multi-Config don't currently work together due to multiple bugs in CMake, which ends up generating an invalid ninja file with duplicate rules. There are also issues with placement of the debug artifacts. This will be handled in a follow up patch after CMake is fixed. Task-number: QTBUG-76899 Change-Id: If224adc0b71b7d1d6606738101536146aa866cd7 Reviewed-by: Qt CMake Build Bot Reviewed-by: Leander Beernaert <leander.beernaert@qt.io> Reviewed-by: Cristian Adam <cristian.adam@qt.io>
2019-12-06 14:12:17 +00:00
# Reset content of extra build internal vars for each inclusion of QtSetup.
unset(QT_EXTRA_BUILD_INTERNALS_VARS)
# Save the global property in a variable to make it available to feature conditions.
get_property(QT_GENERATOR_IS_MULTI_CONFIG GLOBAL PROPERTY GENERATOR_IS_MULTI_CONFIG)
if(NOT CMAKE_BUILD_TYPE AND NOT CMAKE_CONFIGURATION_TYPES)
message(STATUS "Setting build type to '${_default_build_type}' as none was specified.")
set(CMAKE_BUILD_TYPE "${_default_build_type}" CACHE STRING "Choose the type of build." FORCE)
Add initial support for CMake "Ninja Multi-Config" generator This allows doing debug_and_release builds with Ninja on all platforms. The "Ninja Multi-Config generator" is available starting with CMake 3.17. Desired configurations can be set via CMAKE_CONFIGURATION_TYPES. Possible values: "Release, Debug, RelWithDebInfo, MinRelSize". For example -DCMAKE_CONFIGURATION_TYPES="Release;Debug". The first configuration is the 'default' configuration which is built when calling ninja with no arguments. To build all targets of a certain configuration use "ninja all:Release" or "ninja all:Debug". To build all targets in all configurations use "ninja all:all". Note that the first configuration influences which configuration of tools will be used when building the libraries for all configurations. In simple terms, when configured with -DCMAKE_CONFIGURATION_TYPES="Release;Debug" the release version of moc is used by AUTOMOC. When configured with -DCMAKE_CONFIGURATION_TYPES="Debug;Release" the debug version of moc is used by AUTOMOC. Framework builds and Ninja Multi-Config don't currently work together due to multiple bugs in CMake, which ends up generating an invalid ninja file with duplicate rules. There are also issues with placement of the debug artifacts. This will be handled in a follow up patch after CMake is fixed. Task-number: QTBUG-76899 Change-Id: If224adc0b71b7d1d6606738101536146aa866cd7 Reviewed-by: Qt CMake Build Bot Reviewed-by: Leander Beernaert <leander.beernaert@qt.io> Reviewed-by: Cristian Adam <cristian.adam@qt.io>
2019-12-06 14:12:17 +00:00
set_property(CACHE CMAKE_BUILD_TYPE
PROPERTY STRINGS
"Debug" "Release" "MinSizeRel" "RelWithDebInfo") # Set the possible values for cmake-gui.
elseif(CMAKE_CONFIGURATION_TYPES)
message(STATUS "Building for multiple configurations: ${CMAKE_CONFIGURATION_TYPES}.")
message(STATUS "Main configuration is: ${QT_MULTI_CONFIG_FIRST_CONFIG}.")
if(CMAKE_NINJA_MULTI_DEFAULT_BUILD_TYPE)
message(STATUS
"Default build configuration set to '${CMAKE_NINJA_MULTI_DEFAULT_BUILD_TYPE}'.")
endif()
endif()
# Appends a 'debug postfix' to library targets (not executables)
# e.g. lib/libQt6DBus_debug.5.12.0.dylib
if(WIN32)
if(MINGW)
# On MinGW we don't have "d" suffix for debug libraries like on Linux,
# unless we're building debug and release libraries in one go.
if(FEATURE_debug_and_release)
set(CMAKE_DEBUG_POSTFIX "d")
endif()
else()
set(CMAKE_DEBUG_POSTFIX "d")
endif()
elseif(APPLE)
set(CMAKE_DEBUG_POSTFIX "_debug")
set(CMAKE_FRAMEWORK_MULTI_CONFIG_POSTFIX_DEBUG "_debug")
endif()
## Position independent code:
set(CMAKE_POSITION_INDEPENDENT_CODE ON)
# Do not relink dependent libraries when no header has changed:
set(CMAKE_LINK_DEPENDS_NO_SHARED ON)
# Default to hidden visibility for symbols:
set(CMAKE_C_VISIBILITY_PRESET hidden)
set(CMAKE_CXX_VISIBILITY_PRESET hidden)
set(CMAKE_VISIBILITY_INLINES_HIDDEN 1)
CMake: Make build system of installed Qt more relocatable Aka handle CMAKE_INSTALL_PREFIX in a more relocatable way. The following story inspired this change. If a user wants to build a Qt repo into a different install prefix than the usual Qt one, this will fail configuration because we look for various things like syncqt, qdoc, etc relative to CMAKE_INSTALL_PREFIX, which will now point to a different location where none of the above tools are located. The intent for such a use case is to support building Qt packages with Conan, which sets a random install prefix when configuring a repo. The idea is to derive the qt prefix dynamically from the QtBuildInternals package location. Essentially it's a reverse relative path from the QtBuildInternalsConfig.cmake file to the install prefix that was specified when initially configuring qtbase. Once the dynamic prefix is computed (so we know where the possibly relocated Qt is), we can find tools like syncqt and qdoc. This is an initial attempt to support a use case like that. More design work will probably needed in case if tools / libs need to be found in a location different than the Qt install prefix (so support for multiple install prefixes / search paths). An example of such a case would be when building qtdeclarative and qtquickcontrols2 as Conan packages in one go. Most likely the qmltyperegistrar tool will be located in the random install prefix set by Conan, so building qtquickcontrols2 might fail due to not finding the tool in the original Qt install prefix. As to the implementation details, the change does the following: - Dynamically computes and sets the QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX variable when find_package()'ing QtBuildInternals. It's an absolute path pointing to where the relocated Qt is. - When building qtbase this variable is not yet available (due to QtBuildInternalsExtra not existing), in that case we set the variable to the absolute path of CMAKE_INSTALL_PREFIX (but only for the initial qtbase configuration). - Remove QT_BUILD_INTERNALS_ORIGINAL_INSTALL_PREFIX which was used for standalone tests purposes. It's not needed now that we compute the location of the Qt prefix dynamically. - The Unixy qt-cmake and qt-cmake-private shell scripts now use a relative path to find the toolchain file we created. - The toolchain file also dynamically computes the location of the Qt packages, and adds them to CMAKE_PREFIX_PATH. - A lot of existing CMAKE_INSTALL_PREFIX uses are replaced with QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX. This includes finding tool locations, mkspecs dir, path environment setup for tools, etc. - Some places still use CMAKE_PREFIX_PATH in the following cases - When determining paths while configuring qtbase (valid cases) - When I wasn't sure what the behavior should be, so I left them as-is (an example is documentation generation, do we want to install it into the random Conan prefix, or into the main prefix? Currently it installs in the random prefix). Note that relocating a Qt installation does not work for non-prefix / non-installed builds, due to hardcoded paths to include directories and libraries in generated FooTargets.cmake files. Task-number: QTBUG-83999 Change-Id: I87d6558729db93121b1715771034b03ce3295923 Reviewed-by: Joerg Bornemann <joerg.bornemann@qt.io>
2020-05-05 08:30:35 +00:00
# Detect non-prefix builds: either when the qtbase install prefix is set to the binary dir
# or when a developer build is explicitly enabled and no install prefix is specified.
# This detection only happens when building qtbase, and later is propagated via the generated
# QtBuildInternalsExtra.cmake file.
Make standalone tests build via top level repo project Previously repo/tests/CMakeLists.txt was a standalone project on which CMake could be called. This was useful for Coin to be able to build and package only tests, but was a bit troublesome because that means having to specify the usual boilerplate like minimum CMake version, which packages to find in every tests.pro project. Instead of having a separate standalone project, modify the top level project and associated CMake code to allow passing a special QT_BUILD_STANDALONE_TESTS variable, which causes the top level project to build only tests, and find Qt in the previously installed qt location. This also means that when building a repo, we generate a ${repo_name}TestsConfig.cmake file which does find_package on all the modules that have been built as part of that repo. So that when standalone tests bare built for that repo, the modules are automatically found. qt_set_up_standalone_tests_build() is modified to be a no-op because it is not needed anymore. Its usage should be removed from all the other repos, and then removed from qtbase. Non-adjusted tests/CMakeLists.txt projects in other repositories should still be buildable with the current code, until they are updated to the new format. Adjust the Coin build instructions to build the standalone tests in a separate directory. Adjust pro2cmake to generate new structure for the tests/tests.pro projects. Adjust the qtbase tests project. Fixes: QTBUG-79239 Change-Id: Ib4b66bc772d8876cdcbae1e90ce5a5a5234fa675 Reviewed-by: Qt CMake Build Bot Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
2019-11-01 10:48:23 +00:00
if (PROJECT_NAME STREQUAL "QtBase" AND NOT QT_BUILD_STANDALONE_TESTS)
if((CMAKE_INSTALL_PREFIX STREQUAL QtBase_BINARY_DIR) OR
(CMAKE_INSTALL_PREFIX_INITIALIZED_TO_DEFAULT AND FEATURE_developer_build))
set(__qt_will_install_value OFF)
# Handle non-prefix builds by setting the CMake install prefix to point to qtbase's build
# dir.
CMake: Make build system of installed Qt more relocatable Aka handle CMAKE_INSTALL_PREFIX in a more relocatable way. The following story inspired this change. If a user wants to build a Qt repo into a different install prefix than the usual Qt one, this will fail configuration because we look for various things like syncqt, qdoc, etc relative to CMAKE_INSTALL_PREFIX, which will now point to a different location where none of the above tools are located. The intent for such a use case is to support building Qt packages with Conan, which sets a random install prefix when configuring a repo. The idea is to derive the qt prefix dynamically from the QtBuildInternals package location. Essentially it's a reverse relative path from the QtBuildInternalsConfig.cmake file to the install prefix that was specified when initially configuring qtbase. Once the dynamic prefix is computed (so we know where the possibly relocated Qt is), we can find tools like syncqt and qdoc. This is an initial attempt to support a use case like that. More design work will probably needed in case if tools / libs need to be found in a location different than the Qt install prefix (so support for multiple install prefixes / search paths). An example of such a case would be when building qtdeclarative and qtquickcontrols2 as Conan packages in one go. Most likely the qmltyperegistrar tool will be located in the random install prefix set by Conan, so building qtquickcontrols2 might fail due to not finding the tool in the original Qt install prefix. As to the implementation details, the change does the following: - Dynamically computes and sets the QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX variable when find_package()'ing QtBuildInternals. It's an absolute path pointing to where the relocated Qt is. - When building qtbase this variable is not yet available (due to QtBuildInternalsExtra not existing), in that case we set the variable to the absolute path of CMAKE_INSTALL_PREFIX (but only for the initial qtbase configuration). - Remove QT_BUILD_INTERNALS_ORIGINAL_INSTALL_PREFIX which was used for standalone tests purposes. It's not needed now that we compute the location of the Qt prefix dynamically. - The Unixy qt-cmake and qt-cmake-private shell scripts now use a relative path to find the toolchain file we created. - The toolchain file also dynamically computes the location of the Qt packages, and adds them to CMAKE_PREFIX_PATH. - A lot of existing CMAKE_INSTALL_PREFIX uses are replaced with QT_BUILD_INTERNALS_RELOCATABLE_INSTALL_PREFIX. This includes finding tool locations, mkspecs dir, path environment setup for tools, etc. - Some places still use CMAKE_PREFIX_PATH in the following cases - When determining paths while configuring qtbase (valid cases) - When I wasn't sure what the behavior should be, so I left them as-is (an example is documentation generation, do we want to install it into the random Conan prefix, or into the main prefix? Currently it installs in the random prefix). Note that relocating a Qt installation does not work for non-prefix / non-installed builds, due to hardcoded paths to include directories and libraries in generated FooTargets.cmake files. Task-number: QTBUG-83999 Change-Id: I87d6558729db93121b1715771034b03ce3295923 Reviewed-by: Joerg Bornemann <joerg.bornemann@qt.io>
2020-05-05 08:30:35 +00:00
# While building another repo (like qtsvg) the CMAKE_PREFIX_PATH
# should be set on the command line to point to the qtbase build dir.
set(CMAKE_INSTALL_PREFIX ${QtBase_BINARY_DIR} CACHE PATH
Implement developer / non-prefix builds A non-prefix build is a build where you don't have to run make install. To do a non-prefix build, pass -DFEATURE_developer_build=ON when invoking CMake on qtbase. Note that this of course also enables developer build features (private tests, etc). When doing a non-prefix build, the CMAKE_INSTALL_PREFIX cache variable will point to the qtbase build directory. Tests can be run without installing Qt (QPA plugins are picked up from the build dir). This patch stops installation of any files by forcing the make "install" target be a no-op. When invoking cmake on the qtsvg module (or any other module), the CMAKE_INSTALL_PREFIX variable should be set to the qtbase build directory. The developer-build feature is propagated via the QtCore Config file, so that when building other modules, you don't have to specify it on the command line again. As a result of the change, all libraries, plugins, tools, include dirs, CMake Config files, CMake Targets files, Macro files, etc, will be placed in the qtbase build directory, mimicking the file layout of an installed Qt file layout. Only examples and tests are kept in the separate module build directories, which is equivalent to how qmake does it. The following global variables contain paths for the appropriate prefix or non prefix builds: QT_BUILD_DIR, QT_INSTALL_DIR, QT_CONFIG_BUILD_DIR, QT_CONFIG_INSTALL_DIR. These should be used by developers when deciding where files should be placed. All usages of install() are replaced by qt_install(), which has some additional logic on how to handle associationg of CMake targets to export names. When installing files, some consideration should be taken if qt_copy_or_install() needs to be used instead of qt_install(), which takes care of copying files from the source dir to the build dir when doing non-prefix builds. Tested with qtbase and qtsvg, developer builds, non-developer builds and static developer builds on Windows, Linux and macOS. Task-number: QTBUG-75581 Change-Id: I0ed27fb6467662dd24fb23aee6b95dd2c9c4061f Reviewed-by: Kevin Funk <kevin.funk@kdab.com> Reviewed-by: Tobias Hunger <tobias.hunger@qt.io>
2019-05-08 12:45:41 +00:00
"Install path prefix, prepended onto install directories." FORCE)
else()
set(__qt_will_install_value ON)
Implement developer / non-prefix builds A non-prefix build is a build where you don't have to run make install. To do a non-prefix build, pass -DFEATURE_developer_build=ON when invoking CMake on qtbase. Note that this of course also enables developer build features (private tests, etc). When doing a non-prefix build, the CMAKE_INSTALL_PREFIX cache variable will point to the qtbase build directory. Tests can be run without installing Qt (QPA plugins are picked up from the build dir). This patch stops installation of any files by forcing the make "install" target be a no-op. When invoking cmake on the qtsvg module (or any other module), the CMAKE_INSTALL_PREFIX variable should be set to the qtbase build directory. The developer-build feature is propagated via the QtCore Config file, so that when building other modules, you don't have to specify it on the command line again. As a result of the change, all libraries, plugins, tools, include dirs, CMake Config files, CMake Targets files, Macro files, etc, will be placed in the qtbase build directory, mimicking the file layout of an installed Qt file layout. Only examples and tests are kept in the separate module build directories, which is equivalent to how qmake does it. The following global variables contain paths for the appropriate prefix or non prefix builds: QT_BUILD_DIR, QT_INSTALL_DIR, QT_CONFIG_BUILD_DIR, QT_CONFIG_INSTALL_DIR. These should be used by developers when deciding where files should be placed. All usages of install() are replaced by qt_install(), which has some additional logic on how to handle associationg of CMake targets to export names. When installing files, some consideration should be taken if qt_copy_or_install() needs to be used instead of qt_install(), which takes care of copying files from the source dir to the build dir when doing non-prefix builds. Tested with qtbase and qtsvg, developer builds, non-developer builds and static developer builds on Windows, Linux and macOS. Task-number: QTBUG-75581 Change-Id: I0ed27fb6467662dd24fb23aee6b95dd2c9c4061f Reviewed-by: Kevin Funk <kevin.funk@kdab.com> Reviewed-by: Tobias Hunger <tobias.hunger@qt.io>
2019-05-08 12:45:41 +00:00
endif()
set(QT_WILL_INSTALL ${__qt_will_install_value} CACHE BOOL
"Boolean indicating if doing a Qt prefix build (vs non-prefix build)." FORCE)
unset(__qt_will_install_value)
Implement developer / non-prefix builds A non-prefix build is a build where you don't have to run make install. To do a non-prefix build, pass -DFEATURE_developer_build=ON when invoking CMake on qtbase. Note that this of course also enables developer build features (private tests, etc). When doing a non-prefix build, the CMAKE_INSTALL_PREFIX cache variable will point to the qtbase build directory. Tests can be run without installing Qt (QPA plugins are picked up from the build dir). This patch stops installation of any files by forcing the make "install" target be a no-op. When invoking cmake on the qtsvg module (or any other module), the CMAKE_INSTALL_PREFIX variable should be set to the qtbase build directory. The developer-build feature is propagated via the QtCore Config file, so that when building other modules, you don't have to specify it on the command line again. As a result of the change, all libraries, plugins, tools, include dirs, CMake Config files, CMake Targets files, Macro files, etc, will be placed in the qtbase build directory, mimicking the file layout of an installed Qt file layout. Only examples and tests are kept in the separate module build directories, which is equivalent to how qmake does it. The following global variables contain paths for the appropriate prefix or non prefix builds: QT_BUILD_DIR, QT_INSTALL_DIR, QT_CONFIG_BUILD_DIR, QT_CONFIG_INSTALL_DIR. These should be used by developers when deciding where files should be placed. All usages of install() are replaced by qt_install(), which has some additional logic on how to handle associationg of CMake targets to export names. When installing files, some consideration should be taken if qt_copy_or_install() needs to be used instead of qt_install(), which takes care of copying files from the source dir to the build dir when doing non-prefix builds. Tested with qtbase and qtsvg, developer builds, non-developer builds and static developer builds on Windows, Linux and macOS. Task-number: QTBUG-75581 Change-Id: I0ed27fb6467662dd24fb23aee6b95dd2c9c4061f Reviewed-by: Kevin Funk <kevin.funk@kdab.com> Reviewed-by: Tobias Hunger <tobias.hunger@qt.io>
2019-05-08 12:45:41 +00:00
endif()
Ugly fix for handling QT_SOURCE_TREE QT_SOURCE_TREE is a variable that is set in qtbase/.qmake.conf. In qtbase, it's used throughout various projects to find cpp sources when building standalone tests (among other things). Everything works fine with qmake, because even if qmake is invoked on the tests subfolder, qmake searches up the source directory tree until it finds a .qmake.conf file, and uses that. When building qttools with qmake, the qdoc project expects to have a QT_SOURCE_TREE value, but it's not actually set in the qttools/.qmake.conf file, so the generated include paths that use that value are incorrect. Curiously the build still succeeds. Now in CMake land we replaced QT_SOURCE_TREE with CMAKE_SOURCE_DIR, but that does not work properly when doing a standalone tests build, because the project in that case is the tests one, and not the qtbase one, so configuration fails in a developer build when trying to configure some private tests. So far I've found that only qtbase actively uses this value. A temporary fix is to save the qtbase source directory into a QT_SOURCE_TREE variable inside the generated BuildInternalsExtra.cmake file. The pro2cmake script is changed to handle presence of QT_SOURCE_TREE in a qrc file path. This is handled by finding the location of a .qmake.conf file starting from the project file absolute path. This is needed to stop the script from crashing when handling the mimedatabase test projects for example. The change also regenerates the relevant failing test projects, and thus standalone tests (when doing developer builds aka private_tests enabled) now configure and build successfully. Change-Id: I15adc6f4ab6e3056c43ed850196204e2229c4d98 Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
2019-07-26 16:59:53 +00:00
# Specify the QT_SOURCE_TREE only when building qtbase. Needed by some tests when the tests are
# built as part of the project, and not standalone. For standalone tests, the value is set in
# QtBuildInternalsExtra.cmake.
if(PROJECT_NAME STREQUAL "QtBase")
set(QT_SOURCE_TREE "${QtBase_SOURCE_DIR}" CACHE PATH
"A path to the source tree of the previously configured QtBase project." FORCE)
endif()
if(FEATURE_developer_build)
if(DEFINED QT_CMAKE_EXPORT_COMPILE_COMMANDS)
set(CMAKE_EXPORT_COMPILE_COMMANDS ${QT_CMAKE_EXPORT_COMPILE_COMMANDS})
else()
set(CMAKE_EXPORT_COMPILE_COMMANDS ON)
endif()
set(QT_BUILD_TESTING ON)
set(__build_benchmarks ON)
# Tests are not built by default with qmake for iOS and friends, and thus the overall build
# tends to fail. Disable them by default when targeting uikit.
if(UIKIT OR ANDROID)
set(QT_BUILD_TESTING OFF)
endif()
# Disable benchmarks for single configuration generators which do not build
# with release configuration.
if (CMAKE_BUILD_TYPE AND NOT CMAKE_BUILD_TYPE STREQUAL Release)
set(__build_benchmarks OFF)
endif()
else()
set(QT_BUILD_TESTING OFF)
set(__build_benchmarks OFF)
endif()
## Set up testing
option(BUILD_TESTING "Build the testing tree." ${QT_BUILD_TESTING})
Make standalone tests build via top level repo project Previously repo/tests/CMakeLists.txt was a standalone project on which CMake could be called. This was useful for Coin to be able to build and package only tests, but was a bit troublesome because that means having to specify the usual boilerplate like minimum CMake version, which packages to find in every tests.pro project. Instead of having a separate standalone project, modify the top level project and associated CMake code to allow passing a special QT_BUILD_STANDALONE_TESTS variable, which causes the top level project to build only tests, and find Qt in the previously installed qt location. This also means that when building a repo, we generate a ${repo_name}TestsConfig.cmake file which does find_package on all the modules that have been built as part of that repo. So that when standalone tests bare built for that repo, the modules are automatically found. qt_set_up_standalone_tests_build() is modified to be a no-op because it is not needed anymore. Its usage should be removed from all the other repos, and then removed from qtbase. Non-adjusted tests/CMakeLists.txt projects in other repositories should still be buildable with the current code, until they are updated to the new format. Adjust the Coin build instructions to build the standalone tests in a separate directory. Adjust pro2cmake to generate new structure for the tests/tests.pro projects. Adjust the qtbase tests project. Fixes: QTBUG-79239 Change-Id: Ib4b66bc772d8876cdcbae1e90ce5a5a5234fa675 Reviewed-by: Qt CMake Build Bot Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
2019-11-01 10:48:23 +00:00
if(QT_BUILD_STANDALONE_TESTS)
set(QT_BUILD_TESTING ON)
# BuildInternals might have set it to OFF on initial configuration. So force it to ON when
# building standalone tests.
set(BUILD_TESTING ON CACHE BOOL "Build the testing tree." FORCE)
# Also force the tests to be built as part of the default build target.
set(QT_NO_MAKE_TESTS OFF CACHE BOOL
"Should examples be built as part of the default 'all' target." FORCE)
Make standalone tests build via top level repo project Previously repo/tests/CMakeLists.txt was a standalone project on which CMake could be called. This was useful for Coin to be able to build and package only tests, but was a bit troublesome because that means having to specify the usual boilerplate like minimum CMake version, which packages to find in every tests.pro project. Instead of having a separate standalone project, modify the top level project and associated CMake code to allow passing a special QT_BUILD_STANDALONE_TESTS variable, which causes the top level project to build only tests, and find Qt in the previously installed qt location. This also means that when building a repo, we generate a ${repo_name}TestsConfig.cmake file which does find_package on all the modules that have been built as part of that repo. So that when standalone tests bare built for that repo, the modules are automatically found. qt_set_up_standalone_tests_build() is modified to be a no-op because it is not needed anymore. Its usage should be removed from all the other repos, and then removed from qtbase. Non-adjusted tests/CMakeLists.txt projects in other repositories should still be buildable with the current code, until they are updated to the new format. Adjust the Coin build instructions to build the standalone tests in a separate directory. Adjust pro2cmake to generate new structure for the tests/tests.pro projects. Adjust the qtbase tests project. Fixes: QTBUG-79239 Change-Id: Ib4b66bc772d8876cdcbae1e90ce5a5a5234fa675 Reviewed-by: Qt CMake Build Bot Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
2019-11-01 10:48:23 +00:00
endif()
option(QT_NO_MAKE_TESTS "Should tests be built as part of the default 'all' target." OFF)
Make standalone tests build via top level repo project Previously repo/tests/CMakeLists.txt was a standalone project on which CMake could be called. This was useful for Coin to be able to build and package only tests, but was a bit troublesome because that means having to specify the usual boilerplate like minimum CMake version, which packages to find in every tests.pro project. Instead of having a separate standalone project, modify the top level project and associated CMake code to allow passing a special QT_BUILD_STANDALONE_TESTS variable, which causes the top level project to build only tests, and find Qt in the previously installed qt location. This also means that when building a repo, we generate a ${repo_name}TestsConfig.cmake file which does find_package on all the modules that have been built as part of that repo. So that when standalone tests bare built for that repo, the modules are automatically found. qt_set_up_standalone_tests_build() is modified to be a no-op because it is not needed anymore. Its usage should be removed from all the other repos, and then removed from qtbase. Non-adjusted tests/CMakeLists.txt projects in other repositories should still be buildable with the current code, until they are updated to the new format. Adjust the Coin build instructions to build the standalone tests in a separate directory. Adjust pro2cmake to generate new structure for the tests/tests.pro projects. Adjust the qtbase tests project. Fixes: QTBUG-79239 Change-Id: Ib4b66bc772d8876cdcbae1e90ce5a5a5234fa675 Reviewed-by: Qt CMake Build Bot Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
2019-11-01 10:48:23 +00:00
# When cross-building, we don't build tools by default. Sometimes this also covers Qt apps as well.
# Like in qttools/assistant/assistant.pro, load(qt_app), which is guarded by a qtNomakeTools() call.
set(qt_no_make_tools_default OFF)
if(CMAKE_CROSSCOMPILING AND NOT QT_BUILD_TOOLS_WHEN_CROSSCOMPILING)
set(qt_no_make_tools_default ON)
endif()
option(QT_NO_MAKE_TOOLS "Should tools be built as part of the default 'all' target."
"${qt_no_make_tools_default}")
unset(qt_no_make_tools_default)
include(CTest)
enable_testing()
option(BUILD_EXAMPLES "Build Qt examples" OFF)
option(QT_NO_MAKE_EXAMPLES "Should examples be built as part of the default 'all' target." OFF)
# Build Benchmarks
option(QT_BUILD_BENCHMARKS "Build Qt Benchmarks" ${__build_benchmarks})
## Android platform settings
if(ANDROID)
include(QtPlatformAndroid)
endif()
## qt_add_module and co.:
include(QtBuild)
## Qt Feature support:
include(QtBuildInformation)
include(QtFeature)
## Compiler optimization flags:
include(QtCompilerOptimization)
## Compiler flags:
include(QtCompilerFlags)
## Set up non-prefix build:
qt_set_up_nonprefix_build()
Implement developer / non-prefix builds A non-prefix build is a build where you don't have to run make install. To do a non-prefix build, pass -DFEATURE_developer_build=ON when invoking CMake on qtbase. Note that this of course also enables developer build features (private tests, etc). When doing a non-prefix build, the CMAKE_INSTALL_PREFIX cache variable will point to the qtbase build directory. Tests can be run without installing Qt (QPA plugins are picked up from the build dir). This patch stops installation of any files by forcing the make "install" target be a no-op. When invoking cmake on the qtsvg module (or any other module), the CMAKE_INSTALL_PREFIX variable should be set to the qtbase build directory. The developer-build feature is propagated via the QtCore Config file, so that when building other modules, you don't have to specify it on the command line again. As a result of the change, all libraries, plugins, tools, include dirs, CMake Config files, CMake Targets files, Macro files, etc, will be placed in the qtbase build directory, mimicking the file layout of an installed Qt file layout. Only examples and tests are kept in the separate module build directories, which is equivalent to how qmake does it. The following global variables contain paths for the appropriate prefix or non prefix builds: QT_BUILD_DIR, QT_INSTALL_DIR, QT_CONFIG_BUILD_DIR, QT_CONFIG_INSTALL_DIR. These should be used by developers when deciding where files should be placed. All usages of install() are replaced by qt_install(), which has some additional logic on how to handle associationg of CMake targets to export names. When installing files, some consideration should be taken if qt_copy_or_install() needs to be used instead of qt_install(), which takes care of copying files from the source dir to the build dir when doing non-prefix builds. Tested with qtbase and qtsvg, developer builds, non-developer builds and static developer builds on Windows, Linux and macOS. Task-number: QTBUG-75581 Change-Id: I0ed27fb6467662dd24fb23aee6b95dd2c9c4061f Reviewed-by: Kevin Funk <kevin.funk@kdab.com> Reviewed-by: Tobias Hunger <tobias.hunger@qt.io>
2019-05-08 12:45:41 +00:00
qt_set_language_standards()
## Find host tools (if non native):
Export tool config and target files for each relevant module CMake will now generate config and target files for each module that provides tools. As a result, namespaced global targets such as Qt5::moc or Qt5::rcc can be made available. Third party projects that require just these tools, and not the Qt modules themselves, should specify CMAKE_PREFIX_PATH pointing to the installed Qt location, and call find_package(Qt5CoreTools), find_package(Qt5GuiTools), etc. It is also possible to call find_package(Qt5Tools REQUIRED Core Widgets) where the last option is a list of modules whose tools should be imported. Note that all the tools are in the Qt5:: namespace and not in the Qt5CoreTools:: or Qt5WidgetsTools:: namespace. This commit also changes the behavior regarding when to build tools while building Qt itself. When cross compiling Qt (checked via CMAKE_CROSSCOMPILING) or when -DQT_FORCE_FIND_TOOLS=TRUE is passed, tools added by add_qt_tool will always be searched for and not built. In this case the user has to specify the CMake variable QT_HOST_PATH pointing to an installed host Qt location. When not cross compiling, tools added by add_qt_tool are built from source. When building leaf modules (like qtsvg) that require some tool that was built in qtbase (like moc), the module project should contain a find_package(Qt5ToolsCore) call and specify an appropriate CMAKE_PREFIX_PATH so that the tool package is found. Note that because HOST_QT_TOOLS_DIRECTORY was replaced by QT_HOST_PATH, the ensure syncqt code was changed to make it work properly with both qtbase and qtsvg. Here's a list of tools and their module associations: qmake, moc, rcc, tracegen, qfloat16-tables, qlalr -> CoreTools qvkgen -> GuiTools uic -> WidgetTools dbus related tools -> DBusTools Task-number: QTBUG-74134 Change-Id: Ie67d1e2f8de46102b48eca008f0b50caf4fbe3ed Reviewed-by: Tobias Hunger <tobias.hunger@qt.io>
2019-04-10 17:21:22 +00:00
set(QT_HOST_PATH "" CACHE PATH "Installed Qt host directory path, used for cross compiling.")
Export tool config and target files for each relevant module CMake will now generate config and target files for each module that provides tools. As a result, namespaced global targets such as Qt5::moc or Qt5::rcc can be made available. Third party projects that require just these tools, and not the Qt modules themselves, should specify CMAKE_PREFIX_PATH pointing to the installed Qt location, and call find_package(Qt5CoreTools), find_package(Qt5GuiTools), etc. It is also possible to call find_package(Qt5Tools REQUIRED Core Widgets) where the last option is a list of modules whose tools should be imported. Note that all the tools are in the Qt5:: namespace and not in the Qt5CoreTools:: or Qt5WidgetsTools:: namespace. This commit also changes the behavior regarding when to build tools while building Qt itself. When cross compiling Qt (checked via CMAKE_CROSSCOMPILING) or when -DQT_FORCE_FIND_TOOLS=TRUE is passed, tools added by add_qt_tool will always be searched for and not built. In this case the user has to specify the CMake variable QT_HOST_PATH pointing to an installed host Qt location. When not cross compiling, tools added by add_qt_tool are built from source. When building leaf modules (like qtsvg) that require some tool that was built in qtbase (like moc), the module project should contain a find_package(Qt5ToolsCore) call and specify an appropriate CMAKE_PREFIX_PATH so that the tool package is found. Note that because HOST_QT_TOOLS_DIRECTORY was replaced by QT_HOST_PATH, the ensure syncqt code was changed to make it work properly with both qtbase and qtsvg. Here's a list of tools and their module associations: qmake, moc, rcc, tracegen, qfloat16-tables, qlalr -> CoreTools qvkgen -> GuiTools uic -> WidgetTools dbus related tools -> DBusTools Task-number: QTBUG-74134 Change-Id: Ie67d1e2f8de46102b48eca008f0b50caf4fbe3ed Reviewed-by: Tobias Hunger <tobias.hunger@qt.io>
2019-04-10 17:21:22 +00:00
if (CMAKE_CROSSCOMPILING AND NOT IS_DIRECTORY ${QT_HOST_PATH})
message(FATAL_ERROR "You need to set QT_HOST_PATH to cross compile Qt.")
endif()
## Enable support for sanitizers:
qt_internal_set_up_sanitizer_features()
include(${CMAKE_CURRENT_LIST_DIR}/3rdparty/extra-cmake-modules/modules/ECMEnableSanitizers.cmake)
option(QT_USE_CCACHE "Enable the use of ccache")
if(QT_USE_CCACHE)
find_program(CCACHE_PROGRAM ccache)
set(CMAKE_C_COMPILER_LAUNCHER "${CCACHE_PROGRAM}")
set(CMAKE_CXX_COMPILER_LAUNCHER "${CCACHE_PROGRAM}")
set(CMAKE_OBJC_COMPILER_LAUNCHER "${CCACHE_PROGRAM}")
endif()