|project| Getting Started ========================== This page is focused on building |project| from source, if you just want to install |pymodname| with ``pip`` you need to run:: pip install pyside6 for more details, refer to our `Quick Start`_ guide. Additionally, you can check the :ref:`FAQ ` related to the project. .. _Quick Start: quickstart.html General Requirements -------------------- * **Python**: 3.6+ * **Qt:** 5.12+ is recommended * **libclang:** The libclang library, recommended: version 10 for PySide6 5.15. Prebuilt versions of it can be `downloaded here`_. * **CMake:** 3.1+ is needed. .. _downloaded here: http://download.qt.io/development_releases/prebuilt/libclang/ Guides per platform ------------------- You can refer to the following pages for platform specific instructions: * `Windows`_ * `macOS`_ * `Linux`_ * Mobile platforms (iOS/Android) **(no support)** * Embedded platforms **(no official support)** .. note:: Most Linux-based embedded OS provide PySide6 with their official package manager (e.g. `Raspbian`_ and `ArchlinuxARM`_). .. _Windows: gettingstarted-windows.html .. _macOS: gettingstarted-macOS.html .. _Linux: gettingstarted-linux.html .. _Raspbian: https://www.raspbian.org/ .. _ArchlinuxARM: https://archlinuxarm.org/ A normal building command will look like this:: python setup.py install --qmake=/path/to/qmake \ --ignore-git \ --debug \ --build-tests \ --parallel=8 \ --make-spec=ninja \ --verbose-build \ --module-subset=Core,Gui,Widgets Which will build and install the project with **debug** symbols, including the **tests**, using **ninja** (instead of make), and considering only the **module subset** of QtCore, QtGUI and QtWidgets. Other important options to consider are: * ``--cmake``, to specify the path to the cmake binary, * ``--reuse-build``, to rebuild only the modified files, * ``--openssl=/path/to/openssl/bin``, to use a different path for OpenSSL, * ``--standalone``, to copy over the Qt libraries into the final package to make it work on other machines, * ``--doc-build-online``, to build documentation using the online template. Testing the installation ------------------------ Once the installation finishes, you will be able to execute any of our examples:: python examples/widgets/widgets/tetrix.py Running Tests ------------- Using the ``--build-tests`` option will enable us to run all the auto tests inside the project:: python testrunner.py test > testlog.txt .. note:: On Windows, don't forget to have qmake in your path (``set PATH=E:\Path\to\Qt\5.15\msvc2017_64\bin;%PATH%``) You can also run a specific test (for example ``qpainter_test``) by running:: ctest -R qpainter_test --verbose Building the documentation -------------------------- Starting from 5.15, there are two options to build the documentation: 1. Building rst-only documentation (no API) ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The process of parsing Qt headers to generate the PySide API documentation can take several minutes, this means that modifying a specific section of the rst files we currently have, might become a hard task. For this, you can install ``sphinx`` on a virtual environment, and execute the following command:: python setup.py build_rst_docs which will generate a ``html/`` directory with the following structure:: html └── pyside6 ├── index.html ├── ... └── shiboken6 ├── index.html └── ... so you can open the main page ``html/pyside6/index.html`` on your browser to check the generated files. This is useful when updating the general sections of the documentation, adding tutorials, modifying the build instructions, and more. 2. Building the documentation (rst + API) ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The documentation is being generated using **qdoc** to get the API information, and also **sphinx** for the local Python related notes. The system required ``libxml2`` and ``libxslt``, also on the Python environment, ``sphinx`` and ``graphviz`` need to be installed before running the installation process:: pip install graphviz sphinx After installing ``graphviz``, the ``dot`` command needs to be in PATH, otherwise, the process will fail. Installing ``graphviz`` system-wide is also an option. Since the process rely on a Qt installation, you need to specify where the ``qtbase`` directory you will use with your ``qmake`` is located:: export QT_SRC_DIR=/path/to/qtbase Once the build process finishes, you can go to the generated ``*_build/*_release/pyside6`` directory, and run:: make apidoc .. note:: The ``apidoc`` make target builds offline documenation in QCH (Qt Creator Help) format by default. You can switch to building for the online use with the ``--doc-build-online`` configure option. Finally, you will get a ``html`` directory containing all the generated documentation. The offline help files, ``PySide.qch`` and ``Shiboken.qch``, can be moved to any directory of your choice. You can find ``Shiboken.qch`` in the build directory, ``*_build\*_release\shiboken6\doc\html``. Viewing offline documentation ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The offline documentation (QCH) can be viewed using the Qt Creator IDE or Qt Assistant, which is a standalone application for viewing QCH files. To view the QCH using Qt Creator, following the instructions outlined in `Using Qt Creator Help Mode `_. If you chose to use Qt Assistant instead, use the following command to register the QCH file before launching Qt Assistant: assistant -register PySide.qch .. note:: Qt Assistant renders the QCH content using the QTextBrowser backend, which supports a subset of the CSS styles, However, Qt Creator offers an alternative litehtml-based backend, which offers better browsing experience. At the moment, this is not the default backend, so you have to select the litehtml backend explicitly under the ``General`` tab in ``Qt Creator >> Tools >> Options >> Help``. Using the internal tools ------------------------ A set of tools can be found under the ``tools/`` directory inside the ``pyside-setup`` repository. * ``checklibs.py``: Script to analyze dynamic library dependencies of Mach-O binaries. To use this utility, just run:: python checklibs.py /path/to/some.app/Contents/MacOS/Some This script was fetched from this repository_. * ``create_changelog.py``: Script used to create the CHANGELOG that you can find in the ``dist/`` directory. Usage:: python create_changelog.py -r 5.15.1 -v v5.15.0..5.15 -t bug-fix * ``debug_windows.py``: This script can be used to find out why PySide6 modules fail to load with various DLL errors like Missing DLL or Missing symbol in DLL. You can think of it as a Windows version of ``ldd`` / ``LD_DEBUG``. Underneath it uses the ``cdb.exe`` command line debugger, and the ``gflags.exe`` tool, both installed with the latest Windows Kit. The aim is to ask users to run this script when they encounter PySide6 imports not working on Windows. The user should then provide the generated log file. Incidentally it can also be used for any Windows executables, not just Python. To use it just run:: python debug_windows.py * ``missing_bindings.py``: This script is used to compare the state of PySide6 and PyQt5 regarding available modules and classses. This content is displayed in our `wiki page`_, and can be used as follows:: python missing_bindings.py --qt-version 5.15.1 -w all Please keep in mind we rely on BeautifulSoup_ to parse the content, so you will be to install it besides PySide6 and PyQt5 (Including additional modules like DataVisualiztion, QtCharts, WebEngine, etc). .. _repository: https://github.com/liyanage/macosx-shell-scripts/ .. _`wiki page`: https://wiki.qt.io/Qt_for_Python_Missing_Bindings .. _BeautifulSoup: https://www.crummy.com/software/BeautifulSoup/