Setting the QT_NO_INTERNAL_COMPATIBILITY_FUNCTIONS variable
in the project ensures we ported away from old API calls.
Task-number: QTBUG-86815
Change-Id: I0d1868a24b0f4e0cc817c11fef160f8b392814af
Reviewed-by: Joerg Bornemann <joerg.bornemann@qt.io>
tst_moc uses qt_wrap_cpp, which tries to dispatch to qt6_wrap_cpp
depending on the value of QT_DEFAULT_MAJOR_VERSION. That value is only
set in Qt6CoreConfigExtras.cmake.in, which is not loaded as part of
the qtbase build unless something does find_package(Qt6Core).
Set the QT_DEFAULT_MAJOR_VERSION to 6 before including the
Qt6CoreMacros in the qtbase top-level project.
Change-Id: I7b81d89d965f755e51727007e68771ac3931ac55
Reviewed-by: Joerg Bornemann <joerg.bornemann@qt.io>
To fix CMake Qt For Android projects to configure, we need to move
some functions from a private CMake API file only, to a public one.
Add Qt6AndroidMacros.cmake which will be loaded by Qt6Core package.
We'll have to decide how we proceed with Qt5AndroidSupport.cmake,
because that file automatically runs code when included in Qt5, and we
usually don't want to do it.
We'll also have to decide how to handle the define_property() calls
that are still left in the private QtPlatformAndroid.cmake file.
With this fix, Qt example CMake projects that use
add_qt_gui_executable should now be buildable. An APK can be created
with 'ninja apk'.
Unfortunately Qt Creator 4.13 does not currently seem to support
opening and building CMake Qt For Android projects properly.
While the build succeeds after fiddling with the Kit settings, the APK
deploy step fails to run (at least on my machine).
So the simplest way to run the built APK is to open the android-build
dir with Android Studio and launch the example application from there.
Task-number: QTBUG-85399
Change-Id: I77f246331de7a6e9e6d4ba7d973730190138f136
Reviewed-by: Cristian Adam <cristian.adam@qt.io>
This previous way caused target builds under Linux to pick the host
packages like udev and mtdev and build for them which they will
fail during the build.
Task-number: QTBUG-86028
Change-Id: Ic029f0a3e71b50c694473a110922f0ef11e5b0bf
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
Three different people have encountered the issue that calling
calling qt-cmake on a project prints 1000 inclusion lines of the same
qt toolchain file, and then CMake bails out saying can't find the
CMAKE_MAKE_PROGRAM Ninja.
This happened because people accidentally called qt-cmake to configure
qtbase (instead of just cmake), which created a toolchain file that
chainloads itself recursively.
Error out when configuring qtbase, and when using the generated
toolchain file in the case when it would try to include itself.
The solution is to remove the qtbase CMakeCache.txt file, and
configure qtbase again, so it generates a proper qt.toolchain.cmake
file.
If somebody feels enthusiastic, they can move the check into the
qt-cmake and qt-cmake-private shell scripts, and error out before the
qtbase/CMakeCache.txt is polluted with the wrong toolchain file.
That is left for people that feel more comfortable with bash and batch
scripting.
Change-Id: If518c94791fe7c30731e6e462e347f26a5213c64
Reviewed-by: Joerg Bornemann <joerg.bornemann@qt.io>
And create one for QtBase at the same time.
Fixes: QTBUG-83835
Change-Id: Icc6b022165a57bd4e22c23bdb0016522b99a5b80
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
When cross-compiling with CMake, before this patch pkgconfig calls would
find libraries which are part of the host system and not the target
system.
The current approach used is based of the discussion present in
https://gitlab.kitware.com/cmake/cmake/-/merge_requests/4478, and should
be considered a temporary solution until the issue is properly addressed
in upstream CMake.
Change-Id: I535d4d48c2a5d34689082b80501b3b6ae30d7845
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
PCH files were only used while building qtbase. Make sure the value
is exported to the BuildInternalsConfig file, so the value is re-used
when building other repositories.
Also disable PCH when building simulator_and_device iOS builds, because
CMake doesn't currently generate separate PCH files per architecture.
Change-Id: I79955ebc557b800bc3c704deac519fe80012c229
Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
The default Info.plist shipped with CMake lacks an NSPrincipalClass
entry, which is crucial for making macOS apps run in full resolution
on retina screens.
We make sure the file is only picked up on macOS, not iOS and friends,
since those platforms require another principal class. If needed we can
extract the value out as a CMake variable and use the same file for all
Apple platforms. Doing so would assume all keys are single-platform
only, so if that's not the case we need platform-specific files.
We should probably extract the package type out as a variable too,
so that the file can be used for both apps, plugins, and frameworks,
but doing so requires setting up that variable somewhere based on
the target type, which CMake doesn't allow in an easy way.
The file itself is based on the file CMake ships, combined with
keys inherited from Qt's existing plist templates for qmake, and
adjusted to match what Xcode generates by default these days.
Change-Id: I3f5109e5fff63cdbd109a99d4008948d4bd2102b
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
If there is a file present in the globbed mkspecs_subdirs file list we
run into an invalid argument error for the install(DIRECTORY) command.
Change-Id: I0fe61a8f0a863854f55cf62a87417bcaec1d2c29
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
Linux distributions may want to install mkspecs files into a
different subdir in order to make Qt6 co-installable with
older versions.
Contributes to QTBUG-81289
Change-Id: Ie4a64370d742948d5ca4f2eaed6ea550d2676707
Reviewed-by: Qt CMake Build Bot
Reviewed-by: Christophe Giboudeaux <christophe@krop.fr>
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
Adds custom targets which take care of generating and installing
documentation files.
Every module has a global set of targets suffixed with the module
name in order for them to be unique when we implement super builds.
The targets are the same as the list below, but replace ${target}
with the module's name. Eg.: docs_qtbase.
For every target which has an qt_add_docs() call, we now create the
following set of custom targets:
* docs_${target}
* html_docs_${target}
* qch_docs_${target}
* prepare_docs_${target}
* generate_docs_${target}
* install_docs_${target}
* install_html_docs_${target}
* install_qch_docs_${target}
Fixes: QTBUG-75859
Change-Id: Ie84cb9a2dedbe7333d9a84f4d73383442deca477
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
This patch adds a new bootstrap tool which will read CMake's
AutoGenInfo.json and ParseCache.txt to determine what the current
list of json files is that needs to be passed to moc --collect-json
option.
Right now this is enabled for qt_add_module() with the option
GENERATE_METATYPES. pro2cmake has also been updated to detect qmake's
CONFIG += metatypes and to generate the above option for modules.
The implementation lives in Qt6CoreMacros so it can eventually be used
in the public facing apis.
The generated meta types file is saved under the target property
QT_MODULE_META_TYPES_FILE.
Change-Id: I03709c662be81dd0912d0068c23ee2507bfe4383
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
A developer can pass either -DQT_NO_MAKE_TESTS=ON or
-DQT_NO_MAKE_EXAMPLES=ON to exclude tests or examples from being built
as part the default make target (when you write just make or ninja).
With ninja, tests and examples can be built separately one by one,
by typing
$ ninja tst_foo
or
$ ninja example_bar
Same can be done with the Makefile generator.
$ make tst_foo
All tests / examples can be built in one go by typing
$ ninja tests/all
or
$ ninja examples/all
With the Makefile generator unfortunately it's not as nice and is most
likely an implementation detail, but it can still be done by running
something like
$ make -f CMakeFiles/Makefile2 tests/all
or
$ make -f CMakeFiles/Makefile2 examples/all
Change-Id: I34f168b3ab41e952a21d3ace5634e25a9f41922e
Reviewed-by: Qt CMake Build Bot
Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
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>
Feature conditions that used BUILD_SHARED_LIBS evaluated to false,
e.g. FEATURE_framework. The options must be declared before the
configuration files are included.
Change-Id: I1ccda8234b334371d22e19f7f6d4fba3a1e7b857
Reviewed-by: Leander Beernaert <leander.beernaert@qt.io>
Reviewed-by: Qt CMake Build Bot
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
This maps the behavior of mkspecs/features/qt_common.prf and enables the
use of C++17 for example in Android, where the toolchain supports it
anyway.
Change-Id: I41f4bdb160a3929e2fb78f36efb1ad5f2ad391a5
Reviewed-by: Qt CMake Build Bot
Reviewed-by: Mårten Nordheim <marten.nordheim@qt.io>
This is needed because the ported over requires() clauses from qmake
to CMake are executed before qt_repo_build(), which means that all the
custom platform variables that we set (like LINUX, APPLE_OSX) need
to be available immediately after finding BuildInternals.
Change-Id: I7345b69edf72c266508846766e64f42c99862d1d
Reviewed-by: Qt CMake Build Bot
Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
Previously you had to make sure to use DISABLE_TOOLS_EXPORT
in an add_qt_module call if the tools are built after the module,
as well as to manually call qt_export_tools after all associated
tools are built.
This was needlessly complex, especially for people that are porting
a repo with tools for the first time.
The tools package creation is now automatically done at QtPostProcess
step, so there is no need to use either DISABLE_TOOLS_EXPORT or
qt_export_tools() manually.
DISABLE_TOOLS_EXPORT is now a no-op, and will be removed once all repos
are updated not to use it.
Change-Id: I965b0d3a8a0cb908afae87b047083ed7bea9f02f
Reviewed-by: Qt CMake Build Bot
Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
Some modules define their own manually-maintained lists, and we can rely
on the headers generated by each module to include in the pch as well
e.g. QtCore/QtCore.
There's also e.g. QtWidgetDepends for QtWidgets, but this only
works for modules, not for tools, examples or other applications.
For now we'll use the Qt<Module>/Qt<Module> headers for the
modules we depend on.
Building with PCH can be disabled with -DBUILD_WITH_PCH=NO, and it only
works for versions of CMake newer than 3.15.20190829.
Change-Id: Iae52bd69acfdfd58f4cd20d3cfa3c7f42775f732
Reviewed-by: Qt CMake Build Bot
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
As with qmake, you configure with or without -nomake tests -nomake
examples, and the choice is propagated to other repositories.
Do the same for CMake. It's still possible to opt out to build one
or the other by passing -DBUILD_TESTING=OFF -DBUILD_EXAMPLES=OFF
on the command line, which takes precedence over the value saved to
QtBuildInternalsExtra.
Change-Id: If0fbfa938d88309e7969c9bacc8d0bf86548bf5e
Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
Reviewed-by: Qt CMake Build Bot
It should happen after qmake is built, to make sure that the target is
made global, otherwise when cross-building qtbase in another build tree,
the configuration phase will fail due to not finding qmake.
qmake was accidentally exported before if you configured qtbase twice,
because the tool was kept around in a cache variable, the second
configuration actually recreated the CoreToolsConfig.cmake file to
contain qmake as well.
Change-Id: I6941e83f7d6bd03c56de120fba1d18e50c4af0e4
Reviewed-by: Qt CMake Build Bot
Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
Add QtAutoDectect cmake which has routines to handle the vcpkg detection
as well as set up some android configuration parameters. The latter will
contribute towards keeping the cmake configuration commands shorter when
targeting android.
Change-Id: I721291c8dce39b5c298565a46867ddcab2df90e8
Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
The Qt::Platform target includes the mkspecs/$spec directory, which we
must unconditionally install as long as we use it.
Change-Id: I272650a887b5b0b3bd868524784dca65b76b02d9
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
Reviewed-by: Qt CMake Build Bot
If VCPKG_ROOT is defined, let's use it and chainload any previously set
toolchain file. The detection of vcpkg support via the VCPKG_ROOT
environment variable is per vcpkg documentation, the automatic
chainloading is something specific to us.
Change-Id: I0498effc5b948f0b6f5e223d0454a15a0cbb503a
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
As per vcpkg documentation, this is a tweak that allows respecting the
vcpkg default target triplet environment variable, which simplifies the
command line slightly.
In order to make this also work for modules other than qtbase, we're
going to need to consider the creation of a toolchain file.
Change-Id: I2573f6644d671c710fd823df83e2205dbbfe19e6
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
Reviewed-by: Qt CMake Build Bot
This changes many different CMake places to mention Qt6 instead of
Qt5.
Note that some old qt5 cmake config files in corelib are probably not
needed anymore, but I still renamed and kept them for now.
Change-Id: Ie69e81540386a5af153f76c0242e18d48211bec4
Provide add_qt_gui_executable() as function in our public API that takes
care of automaticWinMain linkage. We can use this in the future to
encapsulate similarplatform-specific behavior and adjustments, such as
module generation onAndroid.
In order for the examples to see the function in Qt5CoreMacros, three more
additional fixes were required:
* Do the build_repo_end() call _before_ attempting to build the
examples, as we need the build_repo_end() to include QtPostProcess
and complete the creation of all the target config files.
Otherwise the find_package() calls in the examples see something
incomplete.
* Add more QT_NO_CREATE_TARGET guards
* Always call find_dependency on the dependencies, regardless of the
target creation mode. This way a find_package(Qt5 COMPONENTS
Widgets) will still load Qt5CoreMacros.
Change-Id: I03ce856e2f4312a050fe8043b8331cbe8a6c93e6
Reviewed-by: Qt CMake Build Bot
Reviewed-by: Leander Beernaert <leander.beernaert@qt.io>
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
Make sure to prepend our own paths instead of appending, as we'd like
cmake to search there first.
Change-Id: I0caea3a2654fbb07d5843f255cc35fca8892e19d
Reviewed-by: Qt CMake Build Bot
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
for modules, plugins and tools only (i.e. no tests nor examples)
this mimics the qmake behavior
default value is developer_build
Comes with some fixes in qmake since it seems in the qmake built it was
not having Werror, now does because we built it with add_qt_tool
Change-Id: I6f3237f25a6fedefa958644929e90f13837a12df
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
In particular, Qt targets extended with other qt targets
(eg. Qt::VulkanSupport or Qt::LinuxAccessibilitySupport)
after the first add_qt_module were not taken into account when generating
Depends files.
Note that this patch updates the minimum required version
to CMake 3.15
Change-Id: I747deedd4d59e385876bc1a834ef9bdb6078911b
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
Toolchain files from sysroots (such as Yocto or Android) typically set
the CMAKE_FIND_ROOT_PATH_MODE_PACKAGE to ONLY to ensure that no external
packages are accidentally found. Similar to how we discover the Qt tools
packages for cross-compiling, we need to temporarily change the mode to
BOTH to locate our build internals.
Change-Id: Ib4374ee4a974379213218b7ec430637857ed02e7
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
To implement this, create a new Qt5BuildInternals package.
All child Qt modules like qtsvg should use
find_package(Qt5BuildInternals) or
find_package(Qt5 COMPONENTS BuildInternals) in the their
top level CMakeLists.txt.
This will make the qt_build_repo() macros available.
For qtbase we slightly cheat, and specify a CMAKE_PREFIX_PATH
pointing to the source folder that contains the BuildInternals
package.
For the other modules we actually use a configured and installed
package Config file.
This change moves variables that used to be written into the
QtCore Config file into the BuildInternals package. This way
things that are relevant only for building additional Qt modules
does not pollute the QtCore package.
Task-number: QTBUG-75580
Change-Id: I5479adff2f7903c9c2862d28c05c7f485ce3e4eb
Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
The dev->wip/cmake merge is done already.
Change-Id: Ia6b17ac633cd2bcd1e9f6e96a0a0bf33042ed63b
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
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>
Apparently calling set_package_properties with TYPE REQUIRED and
then calling feature_summary with FATAL_ON_MISSING_REQUIRED_PACKAGES
and PACKAGES_NOT_FOUND is not enough to make CMake fail when not
finding a required package.
You have to explicitly set REQUIRED_PACKAGES_NOT_FOUND to force
feature_summary to fail when a package is not found.
Do this, and also explicitly add the rest of the NOT FOUND cases,
to get a slightly clearer overview what kind of packages were not
found.
Task-number: QTBUG-74133
Change-Id: Id21af13dafafe0a458cff479e8abbc6aa7e6a3f7
Reviewed-by: Tobias Hunger <tobias.hunger@qt.io>
We must instruct cmake that we're interested in providing input files
for the assembler directly and the file name needs to be correct, too :)
Change-Id: I7cccb6ac66d28261ee71869991b14ac20c63050e
Reviewed-by: Liang Qi <liang.qi@qt.io>
It appears that the latest cmake provides 3.14 as a proper version.
Change-Id: Ib0f0a1bbdd11e2129f25618b412015a2456aaba1
Reviewed-by: Albert Astals Cid <albert.astals.cid@kdab.com>
* Only import features once
* Move Core specific code into its CMakeLists.txt file
* More consistently use target names like "Core" to
refer to "Qt modules". We tend to require either "Core"
or "QtCore" in places, which I find confusing.
Change-Id: Id54161bc5468412750cb9eb7eeb15de3812e8a09
Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
Use "cmake -DBUILD_CMAKE_TESTING=ON" to enable running cmake build system
tests with ctest.
Change-Id: I0a32e2d1771c9bbb0df013d0d955a9b58b1d4b79
Reviewed-by: Frederik Gladhorn <frederik.gladhorn@qt.io>