Qt for Python/GettingStarted/X11
(Page under development)
Requirements
- GCC (Linux)
- Python from https://www.python.org/downloads/ (Python 3.6 or Python 2.7)
- Qt 5.6+
- CLANG 3.9 (for 5.9+ branches)
- OpenSSL 1.0
- CMake from https://cmake.org/download/ (>= 3.1)
- Git (>=2)
- LLVM
- virtualenv (optional but recommended)
- Python sphinx package for documentation (optional, pip install sphinx)
Building from sources
Setting up CLANG
- Download libclang, e.g.
wget http://download.qt.io/development_releases/prebuilt/libclang/libclang-release_39-linux-Rhel7.2-gcc5.3-x86_64.7z
- Extract the files, e.g.
7z x libclang-release_39-linux-Rhel7.2-gcc5.3-x86_64.7z
- Export the installation path to the path you choosed to place the files
export CLANG_INSTALL_DIR=$PWD/libclang
Getting PySide2
- Clonning the official repository
git clone --recursive https://codereview.qt-project.org/pyside/pyside-setup
- Checking out the version that we want to build, e.g. 5.9 (Keep in mind you need to use the same version as your Qt installation)
cd pyside-setup && git checkout 5.9
Building PySide2
- Check your Qt installation path, to specifically use that version of qmake to build PySide2:
which qmake
- Check your OpenSSL installation path, to specify it to build PySide2:
which openssl
- Build can take a few minutes, so it is recommended to use more than one CPU core (e.g. 8). Remember to replace the paths to your current qmake and openssl path:
python setup.py build --qmake=/path/to/qmake --openssl=/path/to/openssl --build-tests --ignore-git --jobs=8
Installing PySide2
- To install on the current directory, just run:
python setup.py install --qmake=/path/to/qmake --openssl=/path/to/openssl --build-tests --ignore-git --jobs=8
Test installation
- You can execute one of the examples to verify the process is properly working.
- Remember to properly set the environment variables for Qt and PySide2.
python examples/examples/widgets/widgets/tetrix.py
Development
Development happens in the 5.9 and dev branches of the pyside-setup repository.
The top level repository has the following submodules:
- sources/pyside2-tools: uic, rcc tools
- examples/
Contributions follow the standard process.
It is helpful to have debug binaries or symbols for Python available. Debug packages can be installed separately in some Linux distributions (e.g.: Ubuntu, the packages python3-dbg, libpython3-dbg provide a debug binary python3-dbg)
If your distribution does not include them, you can download python sources and compile it by yourself, e.g.
./configure --prefix=/where/to/install/python/path CFLAGS="-O0 -fno-inline -fno-omit-frame-pointer -g" LDFLAGS="-O0" CPPFLAGS="-O0" OPT="-O0 -g" make make install
It is also recommended to use a Virtual Environment for testing to be able to always start from a clean base and avoid issues with write permissions in installations.
A new virtual environment can be created as follows:
virtualenv -p /usr/bin/python3-dbg testenv
Please take into consideration that the binary name might be different in your system, and that you can choose a different name for the environment instead of testenv.
Troubleshooting
- Wrong RUNPATH / rpath
If you choose to build Python from sources in shared library configuration, it might be the case that the rpath is not set properly, which means that the built python binary might use the system python shared library, instead of the custom build shared library. You can patch the interpreter rpath values with a binary that PySide2 provides:
cd pyside-setup ./patchelf --set-rpath /path/to/your/local/python/lib /path/to/your/python/virtualenv/binary/python
And then you can proceed to re-install PySide2. (you can check if the patch worked with readelf -d /path/to/your/python/virtualenv/binary/python)
- Missing libICU causes linking problems
From 5.9+ you can get a copy of libICU by specifying --standalone (but not including --iculib-url) as an argument to setup.py execution.