Build Instructions ------------------ I used SWIG (http://www.swig.org) to create the source code for the extension module. This enabled me to only have to deal with a small amount of code and only have to bother with the exceptional issues. SWIG takes care of the rest and generates all the repetative code for me. You don't need SWIG to build the extension module as all the generated C++ code is included under the src directory. I added a few minor features to SWIG to control some of the code generation. If you want to play around with this you will need to get a recent version of SWIG from their CVS or from a daily build. See http://www.swig.org/ for details. wxPython is organized as a Python package. This means that the directory containing the results of the build process should be a subdirectory of a directory on the PYTHONPATH. (And preferably should be named wxPython.) You can control where the build process will dump wxPython by setting the TARGETDIR variable for the build utility, (see below.) 1. Build and install wxWindows as described in its BuildCVS.txt or INSTALL.txt file. For *nix systems I run configure with these flags: --with-gtk --with-libjpeg --without-odbc --enable-unicode=no --enable-threads=yes --enable-socket=yes --enable-static=no --enable-shared=yes --disable-std_iostreams You can use whatever flags you want, but these work for me. For Win32 systems I use Visual C++ 6.0, but 5.0 should work. The build utility currently does not support any other win32 compilers. Be sure to copy include/wx/msw/setup0.h to include/wx/msw/setup.h and edit it for the options you want. 2. For either platform, you should be sure to set an environment variable named WXWIN to be the path to the top of the wxWindows tree. 3. If you are working from a copy of the code retrieved from CVS, then you will find wxPython in $WXWIN/utils/wxPython. If you are working from the tar.gz or .zip files then you will probably want to unpack wxPython in the $WXWIN/utils directory and rename the new directory to wxPython (or use a symlink.) If you want to keep it in a separate directory then you can change where the build.py tool expects to find it by creating a file named build.local (see step 6 for more examples about build.local,) containing something like this: WXPSRCDIR = "~/MyStuff/wxPython-2.1.11/src" 4. At this point you may want to make an alias or symlink, script, batch file, whatever on the PATH that invokes $WXWIN/utils/wxPython/distrib/build.py to help simplify matters somewhat. For example, on my win32 system I have a file named build.bat in a directory on the PATH that contains: python %WXWIN%/utils/wxPython/distrib/build.py %1 %2 %3 %4 %5 %6 5. Change into the $(WXWIN)/utils/wxPython/src directory. 6. Type "build -b" to build wxPython and "build -i" to install it. The build.py script actually generates a Makefile based on what it finds on your system and information found in the build.cfg file. If you have troubles building or you want it built or installed in a different way, take a look at the docstring in build.py. You may be able to override configuration options in a file named build.local. For example, you can set a new TARGETDIR just by creating a file named build.local in your wxPython source directory and assign a value to it, like this: TARGETDIR = "/usr/local/lib/python1.5/site-packages/wxPython" The build.local file is executed as Python code so you can do very creative things there if you need to. 7. To build and install the add-on modules, change to the appropriate directory under $WXWIN/utils/wxPython/modules and run the build utility again. 8. Change to the $WXWIN/utils/wxPython/demo directory. 9. Try executing the demo program. For example: python demo.py To run it without requiring a console on win32, you can use the pythonw.exe version of Python either from the command line or from a shortcut.