Installing PyQt

Downloading SIP

SIP must be installed before building and using PyQt. You can get the latest release of the SIP source code from http://www.riverbankcomputing.com/software/sip/download.

The SIP documentation can be found at http://www.riverbankcomputing.com/static/Docs/sip4/index.html.

Downloading PyQt

You can get the latest release of the GPL version of the PyQt source code from http://www.riverbankcomputing.com/software/pyqt/download.

If you are using the commercial version of PyQt then you should use the download instructions which were sent to you when you made your purchase. You must also download your license file.

Configuring PyQt

After unpacking the source package (either a .tar.gz or a .zip file depending on your platform) you should then check for any README files that relate to your platform.

If you are using the commercial version of PyQt then you must copy your license file to the sip directory.

You need to make sure your environment variables are set properly for your development environment. For example, if you are using a binary distribution of Qt on Windows then make sure you have run the qtvars.bat file. For other platforms it is normally enough to ensure that Qt’s bin directory is on your PATH.

Next you need to configure SIP by executing the configure.py script. For example:

python configure.py

This assumes that the Python interpreter is on your path. Something like the following may be appropriate on Windows:

c:\python32\python configure.py

If you have multiple versions of Python installed then make sure you use the interpreter for which you wish to build PyQt for.

The full set of command line options is:

--version

Display the PyQt version number.

-h, --help

Display a help message.

--confirm-license

Using this confirms that you accept the terms of the PyQt license.

-k, --static

The PyQt modules will be built as static libraries. This is useful when building a custom interpreter with the PyQt modules built in to the interpreter.

--no-docstrings

The PyQt modules will not contain automatically generated docstrings.

-r, --trace

The generated PyQt modules contain additional tracing code that is enabled using SIP’s sip.settracemask() function.

-u, --debug

The PyQt modules will be built with debugging symbols. On Windows this requires that a debug version of Python is installed.

-w, --verbose

Compiler commands and any output issued during configuration is displayed instead of being suppressed. Use this if configure.py is having problems to see what exactly is going wrong.

-c, --concatenate

The C++ source files for a Python module will be concatenated. This results in significantly reduced compilation times. Most, but not all, C++ compilers can handle the large files that result. See also the --concatenate-split option.

-j <N>, --concatenate-split <N>

If the --concatenate option is used to concatenate the C++ source files then this option determines how many files are created. The default is 1.

--assume-shared

Normally Qt is checked to see if it has been built as shared libraries. Some Linux distributions configure their Qt builds to make this check unreliable. This option ignores the result of the check and assumes that Qt has been built as shared libraries.

-g, --consolidate

Normally each PyQt module (except for the Qt module) is linked against the corresponding Qt library. This option creates a module called _qt which is linked against all the required Qt libraries and the other modules are stub modules that populate their module dictionaries from this one. This is useful when linking against static Qt libraries to eliminate the need to distribute the Qt libraries while minimising the memory footprint of the PyQt modules.

-e <MODULE>, --enable <MODULE>

Normally all PyQt4 modules are enabled and are built if the corresponding Qt library can be found. Using this option only those modules specifically enabled will be checked for and built. The option may be specified any number of times.

-t <PLUGIN>, --plugin <PLUGIN>

If Qt has been built as static libraries then the static plugin <PLUGIN> will be linked with the appropriate PyQt module. The option may be specified any number of times.

-T, --no-timestamp

Normally the header comments of each generated C/C++ source file includes a timestamp corresponding to when the file was generated. This option suppresses the inclusion of the timestamp.

-q <FILE>, --qmake <FILE>

Qt’s qmake program is used to determine how your Qt installation is laid out. Normally qmake is found on your PATH. This option can be used to specify a particular instance of qmake to use. This option is not available on Windows.

-s <DIR>, --dbus <DIR>

The dbus-python.h header file of the dbus-python package can be found in the directory <DIR>/dbus.

-b <DIR>, --bindir <DIR>

The pyuic4, pyrcc4 and pylupdate4 utilities will be installed in the directory <DIR>.

-d <DIR>, --destdir <DIR>

The PyQt Python package will be installed in the directory <DIR>. The default is the Python installation’s site-packages directory. If you use this option then the PYTHONPATH environment variable must include <DIR>.

-p <DIR>, --plugin-destdir <DIR>

The Qt Designer plugin that manages plugins implemented in Python will be installed in the designer subdirectory of the directory <DIR>.

--no-designer-plugin

The Qt Designer plugin will not be built.

--no-sip-files

The .sip files for the PyQt modules will not be installed.

-v <DIR>, --sipdir <DIR>

The .sip files for the PyQt modules will be installed in the directory <DIR>.

--use-arch <ARCH>

When pyuic4 calls the Python interpreter on MacOS it will be run using the architecture <ARCH>. See the section Configuring SIP and PyQt for MacOS.

--protected-is-public

On certain platforms the size of PyQt modules can be significantly reduced by redefining the C++ protected keyword as public during compilation. This option enables this behaviour and is the default on Linux and MacOS/X.

--protected-not-public

The default redefinition of protected to public during compilation on Linux and MacOS/X is disabled.

-i, --vendorid

The checking of signed Python interpreters using the VendorID package is enabled. See also the --vendorid-incdir and --vendorid-libdir options and Deploying Commercial PyQt Applications.

-l <DIR>, --vendorid-incdir <DIR>

The header file of the VendorID package can be found in the directory <DIR>.

-m <DIR>, --vendorid-libdir <DIR>

The library of the VendorID package can be found in the directory <DIR>.

-a, --qsci-api

The PyQt4.api QScintilla API file is installed even if QScintilla does not appear to be installed. This option is implied if the --qsci-api-destdir option is specified.

--no-qsci-api

The PyQt4.api QScintilla API file is not installed even if QScintilla does appear to be installed.

-n <DIR>, --qsci-api-destdir <DIR>

The QScintilla API file will be installed in the python subdirectory of the api subdirectory of the directory <DIR>.

Configuring SIP and PyQt for MacOS

Building applications for MacOS can be a complex process. Typically the following need to be taken into account:

  • the architectures (i.e. i386, x86_64, ppc) that you want to support
  • the earliest version of MacOS you want to support (i.e. the deployment target)
  • the version of the SDK you want to use.

If you are using a binary installer for Python and/or Qt then you also need to consider how they have been built regarding the above, and what bugs they have.

SIP’s and PyQt’s configure.py scripts provide the necessary command line options to allow the correct configurations to be specified - the trick is to work out which options to use depending on the versions of Python and Qt you have installed.

SIP provides the following command line options to its configure.py script.

  • --arch <ARCH> specifies the target architecture and may be specified a number of times.
  • --universal is a shortcut for --arch i386 --arch ppc.
  • --deployment-target <VERSION> specifies the earliest version of MacOS you want to support. This sets the MACOSX_DEPLOYMENT_TARGET environment variable and should be used rather than setting the environment variable in the shell (to work around bugs in some versions of Python).
  • --sdk <SDK> specifies the SDK to use.

PyQt provides the --use-arch option that specifies which architecture certain PyQt tools (actually only pyuic4 at the moment) will use when running Python. For example, if your Qt installation is 32 bits, and your Python installation is 32 bits and 64 bits then you will need to specify --use-arch i386 to ensure that pyuic4 runs the 32 bit version of Python.

Building PyQt

The next step is to build PyQt by running your platform’s make command. For example:

make

The final step is to install PyQt by running the following command:

make install

(Depending on your system you may require root or administrator privileges.)

This will install the various PyQt components.