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Building Qt 6 from Git: Difference between revisions
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*Git ('''>= 1.6.x''') | *Git ('''>= 1.6.x''') | ||
*CMake ('''>= 3.16''', '''>= 3.18.4''' for Ninja Multi-Config, '''>= 3.21.1''' for static Qt builds in Qt 6.2+) | *CMake ('''>= 3.16''', '''>= 3.18.4''' for Ninja Multi-Config, '''>= 3.19''' for WebEngine, '''>= 3.21.1''' for static Qt builds in Qt 6.2+) | ||
*Ninja | *Ninja | ||
*A working C++ compiler, supporting at least C++ 17 † | *A working C++ compiler, supporting at least C++ 17 † |
Revision as of 15:46, 2 March 2022
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This article provides hints for checking out and building the Qt 6 repositories. This is primarily for developers who want to contribute to the Qt library itself, or who want to try the latest unreleased code.
If you simply want to build a specific release of Qt from source to use the libraries in your own project, you can download the source code from the Official Releases page or the Archive. Alternatively, commercial customers can download the Source Packages via the Qt Account portal.
To compile Qt Creator, see Building Qt Creator from Git.
To compile Qt 5, see Building Qt 5 from Git
System Requirements
All desktop platforms
- Git (>= 1.6.x)
- CMake (>= 3.16, >= 3.18.4 for Ninja Multi-Config, >= 3.19 for WebEngine, >= 3.21.1 for static Qt builds in Qt 6.2+)
- Ninja
- A working C++ compiler, supporting at least C++ 17 †
- Perl (>=5.14)
- Python (>=2.6.x, >=3.6.x for QtWebEngine / QtPDF)
- Python html5lib for QtWebEngine / QtPDF (pip3 install html5lib)
- Bison, Flex
- GPerf
- Node.js version 8 or later (version 12 or later is recommended) for QtWebEngine / QtPDF
† WebEngine Windows build requires a minimum of vs2019 v16.11 to address an issue with defaulted noexcept operators.
Getting the source code
First clone the top-level Qt git repository:
$ git clone git://code.qt.io/qt/qt5.git
or (if you're behind a firewall and want to use the https protocol):
$ git clone https://code.qt.io/qt/qt5.git
Do not worry about the name mentioning qt5.git. This is also used for Qt 6.
Then check out the target branch (see Branch Guidelines). Latest changes are in dev, but you may check out sources of any publicly released and tagged version.
$ cd qt5 $ git checkout 6.0
Getting the submodule source code
As described in the README.git, initialize the repository using the init-repository script, which clones the various sub-modules of Qt 6.
Relevant options for init-repository:
- --module-subset : For example, to get modules for Qt Quick development: --module-subset=qtbase,qtshadertools,qtdeclarative,qtquickcontrols2. You can always add or remove individual submodules later with git submodule init/deinit.
- --codereview-username <Jira/Gerrit username> : If you plan to contribute to Qt, you may specify your codereview username (pay attention to capitalization!) so that the git remotes are properly set up. Note that it is recommended to adjust your ssh configuration instead.
$ cd qt5 $ perl init-repository
In order to build a specific release of Qt, you can checkout the desired tag:
$ cd qt5 $ git checkout v6.0.0-beta4 $ perl init-repository
Configuring and Building
Qt 6 is built with CMake, and can be configured also by just running cmake with appropriate options. We provide some convenience scripts though that makes configuring Qt, and individual Qt modules easier.
A build script called configure (or configure.bat for Windows) will be in the directory that you git cloned the source code into (~/qt5 if you followed the directions above). You will want to call that script from a different, parallel-level directory, because you do not want to build Qt in the directory that holds the source code. Instead, you should use a "shadow build", meaning you should not build into the source directory.
$ mkdir qt6-build $ cd qt6-build $ ../qt5/configure -prefix /path/to/install $ cmake --build . --parallel 4 $ cmake --install .
Where 4 is number of jobs. You can try your own value or use auto value using --parallel without argument.
On Windows:
> mkdir qt6-build > cd qt6-build > ..\qt5\configure.bat -prefix C:\path\to\install > cmake --build . > cmake --install .
Run configure -help to get an overview of available options.
You may also pass CMake options directly to configure:
> ../qt5/configure -- -D QT_NO_BUILD_TESTS=ON
All options which are specified after a double-dash (--), will be passed verbatim to CMake.
Developer Builds
The configure option -developer-build sets the install prefix to the build directory, so that no install step is necessary. It also changes defaults so that all tests (including tests using private API that is otherwise not exported) can run.
This can take quite some time though. If you do want to be able to build the tests, but only on request, configure with CMake variable QT_BUILD_TESTS_BY_DEFAULT=OFF:
$ ../qt5/configure -developer-build -- -D QT_BUILD_TESTS_BY_DEFAULT=OFF $ cmake --build . --parallel
Later on you can then build single tests, for instance :
$ cmake --build . --target tst_qstyle
Use ninja -t targets to see all the targets that are provided in the build.
See cmake/README.md in the sources for details on how to configure and build Qt 6 with CMake.
Running Tests
Once you've built (as long as you you did build with tests enabled), you can run the tests either directly using ninja tst_qlocale_check (for example, to run tests/auto/corelib/text/qlocale/tst_qlocale) or via ctest (see its man page for further options) like
$ ctest -V -R qlocale
(for the same example); the parameter to -R is a regular expression, matching test names. This includes the test output; if you omit -V that's skipped and you just get a single-line summary of the test result.
If you want to run only a particular test function, you pass it using the TESTARGS environment variable. For example:
$ TESTARGS=emptyCtor ctest -V -R qlocale
And if you want to run a specific test function with a specific data-tag, you provide it after a colon:
$ TESTARGS=emptyCtor:en_GB ctest -V -R qlocale
Linux distribution Qt 6 package recipes
Here you can find some recipes on how other 3rd parties build and package Qt