Building wxPython 2.8 for Development and Testing
=================================================

This file describes how I build wxWidgets and wxPython while doing
development and testing, and is meant to help other people that want
to do the same thing.  I'll assume that you are using either a CVS
snapshot from http://wxWidgets.org/snapshots/, a checkout from CVS, or
one of the released wxPython-src-2.8.* tarballs.  I'll also assume that
you know your way around your system, the compiler, etc. and most
importantly, that you know what you are doing!  ;-)

If you want to also install the version of wxPython you build into
your site-packages dir and be your default version of wxPython, then a
few additional steps are needed, and you may want to use slightly
different options.  See the INSTALL_ document for more details.  If
you only use the instructions in this BUILD_ document file then you
will end up with a separate installation of wxPython and you can
switch back and forth between this and the release version that you
may already have installed.

.. _INSTALL: INSTALL.html
.. _BUILD: BUILD.html

If you want to make changes to any of the ``*.i`` files, (SWIG
interface definition files,) or to regenerate the extension sources or
renamer modules, then you will need an up to date version of SWIG,
plus some patches.  Get the sources for version 1.3.29, and then apply
the patches in wxPython/SWIG and then build SWIG like normal.  See the
README.txt in the wxPython/SWIG dir for details about each patch and
also info about those that may already have been applied to the SWIG
sources.  If you install this build of SWIG to a location that is not
on the PATH (so it doesn't interfere with an existing SWIG install for
example) then you can use a setup.py command-line option named SWIG
set to the full path name of the executable and the wxPython build will
use it.  See below for an example.

In the text below I'll use WXDIR with environment variable syntax
(either $WXDIR or %WXDIR%) to refer to the top level directory where
your wxWidgets and wxPython sources are located.  It will equate to
where ever you checked out the wxWidgets code from SVN, or untarred
the wxPython-src tarball to.  You can either substitute the $WXDIR text
below with your actual dir, or set the value in the environment and
use it just like you see it below.

If you run into what appears to be compatibility issues between
wxWidgets and wxPython while building wxPython, be sure you are using
the wxWidgets sources included with the wxPython-src tarball or the
SVN snapshot, and not a previously installed version or a version
installed from one of the standard wxWidgets installers.  With the
"unstable" releases (have a odd-numbered minor release value, where
the APIs are allowed to change) there are often significant
differences between the W.X.Y release of wxWidgets and the W.X.Y.Z
release of wxPython.



Building on Unix-like Systems (e.g. Linux and OS X)
---------------------------------------------------

These platforms are built almost the same way while in development
so I'll combine the descriptions about their build process here.
First we will build wxWidgets and install it to an out of the way
place, then do the same for wxPython.


1. Create a build directory in the main wxWidgets dir, and configure
   wxWidgets.  If you want to have multiple builds with different
   configure options, just use different subdirectories.  I normally
   put the configure command in a script named ".configure" in each
   build dir so I can easily blow away everything in the build dir and
   rerun the script without having to remember the options I used
   before::

         cd $WXDIR
         mkdir bld
         cd bld
         ../configure --prefix=/opt/wx/2.8 \
                      --with-gtk \
		      --with-gnomeprint \
                      --with-opengl \
                      --enable-debug \
		      --enable-debug_gdb \
                      --enable-geometry \
		      --enable-graphics_ctx \
                      --enable-sound --with-sdl \
		      --enable-mediactrl \
                      --enable-display \
 
                      

   On OS X of course you'll want to use --with-mac instead of
   --with-gtk and --with-gnomeprint.  

   Notice that above I used a prefix option of "/opt/wx/2.8".  You can
   use whatever path you want, such as a path in your HOME dir or even
   one of the standard prefix paths such as /usr or /usr/local if you
   like, but using /opt this way lets me easily have multiple versions
   and ports of wxWidgets "installed" and makes it easy to switch
   between them, without impacting any versions of wxWidgets that may
   have been installed via an RPM or whatever.  For the rest of the
   steps below be sure to also substitute "/opt/wx/2.8" with whatever
   prefix you choose for your build.

   **NOTE**: Due to a recent change there is currently a dependency
   problem in the multilib builds of wxWidgets on OSX, so I have
   switched to using a monolithic build.  That means that all of the
   core wxWidgets code is placed in in one shared library instead of
   several.  wxPython can be used with either mode, so use whatever
   suits you on Linux and etc. but use monolithic on OSX.  To switch
   to the monolithic build of wxWidgets just add this configure flag::

                     --enable-monolithic \

   By default GTK 2.x will be used for the build.  If you would rather
   use GTK 1.2.x for some reason then you can force configure to use
   it by changing the --with-gtk flag to specify it like this::

                      --with-gtk=1 \

   To make the wxWidgets build be unicode enabled (strongly
   recommended unless you are building with GTK1) then add the
   following flag.  When wxPython is unicode enabled then all strings
   that are passed to wx functions and methods will first be converted
   to unicode objects, and any 'strings' returned from wx functions
   and methods will actually be unicode objects.::
                         
                      --enable-unicode \

   If you want to use the image and zlib libraries included with
   wxWidgets instead of those already installed on your system, (for
   example, to reduce dependencies on 3rd party libraries) then you
   can add these flags to the configure command::

                     --with-libjpeg=builtin \
                     --with-libpng=builtin \
                     --with-libtiff=builtin \
                     --with-zlib=builtin \


2. To build and install wxWidgets you could just use the "make"
   command but there are a couple other libraries besides the main
   wxWidgets libs that also need to be built so again I make a script
   to do it all for me so I don't forget anything.  This time it is
   called ".make" (I use the leading "."  so when I do ``rm -r *`` in
   my build dir I don't lose my scripts too.)  This is what it looks
   like::

        make $* \
            && make -C contrib/src/gizmos $* \
            && make -C contrib/src/stc $* 
   
   So you just use .make as if it where make, but don't forget to set
   the execute bit on .make first!::

         .make
         .make install

   When it's done you should have an installed set of files under
   /opt/wx/2.8 containing just wxWidgets.  Now to use this version of
   wxWidgets you just need to add /opt/wx/2.8/bin to the PATH and set
   LD_LIBRARY_PATH (or DYLD_LIBRARY_PATH on OS X) to /opt/wx/2.8/lib.


3. I also have a script to help me build wxPython and it is checked in
   to the source repository as wxPython/b, but you probably don't want to
   use it as it's very cryptic and expects that you want to run SWIG,
   so if you don't have the latest patched up version of SWIG then
   you'll probably get stuck.  So in this document I'll just give the
   raw commands instead.

   We're not going to install the development version of wxPython with
   these commands, so it won't impact your already installed version
   of the latest release.  You'll be able test with this version when
   you want to, and use the installed release version the rest of the
   time.  If you want to install the development version please read
   INSTALL.txt.

   If you have more than one version of Python on your system then be
   sure to use the version of Python that you want to use when running
   wxPython programs to run the setup.py commands below.  I'll be
   using python2.5.

   Make sure that the first wx-config found on the PATH is the one
   belonging to the wxWidgets that you installed above, and then
   change to the $WXDIR/wxPython dir and run the this command::

         cd $WXDIR/wxPython
         python2.5 setup.py build_ext --inplace --debug

   If your new wx-config script is not on the PATH, or there is some
   other version of it found first, then you can add this to the
   command line to ensure your new one is used instead::

         WX_CONFIG=/opt/wx/2.8/bin/wx-config

   By default setup.py will assume that you built wxWidgets to use
   GTK2.  If you built wxWidgets to use GTK 1.2.x then you should add
   this flag to the command-line::

         WXPORT=gtk 

   Setup.py will assume by default that you are using a unicode build
   of wxWidgets.  If not then you can use this flag::

         UNICODE=0

   If you are wanting to have the source files regenerated with swig,
   (only neccessary if you make modifications to the ``*.i`` files,)
   then you need to turn on the USE_SWIG flag and optionally tell it
   where to find the new swig executable, so add these flags::

         USE_SWIG=1 SWIG=/opt/swig/bin/swig

   If you get errors about being unable to find libGLU, wxGLCanvas
   being undeclared, or something similar then you can add
   BUILD_GLCANVAS=0 to the setup.py command line to disable the
   building of the glcanvas module.

   When the setup.py command is done you should have a fully populated
   (but uninstalled) wx package located in your $WXDIR/wxPython/wx
   directory.
   

4. To run code with the development version of wxPython, just set the
   PYTHONPATH to the wxPython dir located in the source tree.  For
   example::

        export LD_LIBRARY_PATH=/opt/wx/2.8/lib
        export PYTHONPATH=$WXDIR/wxPython
        cd $WXDIR/wxPython/demo
        python2.5 demo.py

   OS X NOTE: Depending on your version of OS X and Python you may
   need to use "pythonw" on the command line to run wxPython
   applications.  This version of the Python executable is part of the
   Python Framework and is allowed to interact with the display.  You
   can also double click on a .py or a .pyw file from the finder
   (assuming that the PythonLauncher app is associated with these file
   extensions) and it will launch the Framework version of Python for
   you.  For information about creating Applicaiton Bundles of your
   wxPython apps please see the wiki and the mail lists.

   SOLARIS NOTE: If you get unresolved symbol errors when importing
   wxPython and you are running on Solaris and building with gcc, then
   you may be able to work around the problem by uncommenting a bit of
   code in config.py and building again.  Look for 'SunOS' in config.py
   and uncomment the block containing it.  The problem is that Sun's ld
   does not automatically add libgcc to the link step.




Building on Windows with MS Visual C++
--------------------------------------

The Windows builds currently require the use of Microsoft Visual C++.
Theoretically, other compilers (such as mingw32 or the Borland
compilers) can also be used but I've never done the work to make that
happen.  If you want to try that then first you'll want to find out if
there are any tricks that have to be done to make Python extension
modules using that compiler, and then make a few changes to setup.py
to accommodate that.  (And send the patches to me.)  

The standard Python 2.3 and earlier are built with MS Visual C 6.0 and
so you must also build with MSVC 6 in order to be used with the stock
python.exe.  If you would rather use a different version of
VisualStudio keep in mind that you'll also have to build Python and
any other extension modules that you use with that compiler because a
different version of the C runtime library is used.  The stock Python
2.4 and 2.5 executables are built with MSVC 7.1, and the same rules
apply to it.

If you want to build a debuggable version of wxWidgets and wxPython you
will need to have also built a debug version of Python and any other
extension modules you need to use.  You can tell if you have them
already if there is a _d in the file names, for example python_d.exe
or python25_d.dll.  If you don't need to trace through the C/C++ parts
of the code with the debugger then building the normal (or hybrid)
version is fine, and you can use the regular python executables with
it.

Starting with 2.5.3.0 wxPython can be built for either the monlithic
or the multi-lib wxWidgets builds.  (Monolithic means that all the
core wxWidgets code is in one DLL, and multi-lib means that the core
code is divided into multiple DLLs.)  To select which one to use
specify the MONOLITHIC flag for both the wxWidgets build and the
wxPython build as shown below, setting it to either 0 or 1.

Just like the unix versions I also use some scripts to help me build
wxWidgets, but I use some non-standard stuff to do it.  So if you have
bash (cygwin or probably MSYS too) or 4NT plus unix-like cat and sed
programs then there is a copy of my wxWidgets build scripts in
%WXDIR%\\wxPython\\distrib\\msw.  Just copy them to
%WXDIR%\\build\\msw and you can use them to do your build, otherwise
you can do everything by hand as described below.  But if you do work
by hand and something doesn't seem to be working correctly please
refer to the build scripts to see what may need to be done
differently.

The \*.btm files are for 4NT and the others are for bash.  They are::

   .make/.make.btm        Builds the main lib and the needed contribs
   .mymake/.mymake.btm    Builds just one lib, used by .make
   .makesetup.mk          A makefile that will copy and edit setup.h
                          as needed for the different types of builds

Okay.  Here's what you've been waiting for, the instructions!  Adapt
accordingly if you are using the bash shell.

1. Set an environment variable to the root of the wxWidgets source
   tree.  This is used by the makefiles::

         set WXWIN=%WXDIR%

2. Copy setup0.h to setup.h::

         cd %WXDIR%\include\wx\msw
         copy setup0.h setup.h


3. Edit %WXDIR%\\include\\wx\\msw\\setup.h and change a few settings::

	 wxUSE_DEBUGREPORT 		0
	 wxUSE_EXCEPTIONS    		0
	 wxUSE_DIALUP_MANAGER   	0
	 wxUSE_GRAPHICS_CONTEXT 	1
	 wxUSE_GLCANVAS       		1
	 wxUSE_POSTSCRIPT  		1
	 wxUSE_DIB_FOR_BITMAP 		1
	 wxUSE_DATEPICKCTRL_GENERIC     1

   If you are using my build scripts then a few more settings will be
   changed automatically and then a copy of setup.h is placed in a
   subdir of %WXWIN%\\lib\vc_dll.  If you are doing it by hand and
   making a UNICODE build, then also change these::

         wxUSE_UNICODE                  1
         wxUSE_UNICODE_MSLU             1

   If you are doing a "hybrid" build (which is the same as the
   binaries that I release) then also change these::

         wxUSE_MEMORY_TRACING           0
         wxUSE_DEBUG_CONTEXT            0


4. Make sure that %WXDIR%\\lib\\vc_dll directory is on the PATH.  The
   wxWidgets DLLs will end up there as part of the build and so you'll
   need it on the PATH for them to be found at runtime.


5. Change to the %WXDIR%\\build\\msw directory 

         cd %WXDIR%\\build\\msw


6. If using my scripts then use the .make.btm command to build
   wxWidgets.  It needs one command-line parameter which controls what
   kind of build(s) to do.  Use one of the following::

         debug          Build debug version
         hybrid         Build hybrid version
         both           Both debug and hybrid
         debug-uni      Build a debug unicode library
         hybrid-uni     Hybrid unicode (see the pattern yet? ;-)
         both-uni       and finally both unicode libraries

   For example::

         .make hybrid

   You can also pass additional command line parameters as needed and
   they will all be passed on to the nmake commands, for example to
   clean up the build::

         .make hybrid clean

   If *not* using my scripts then you can do it by hand by directly
   executing nmake with a bunch of extra command line parameters.
   The base set are::

        nmake -f makefile.vc OFFICIAL_BUILD=1 SHARED=1 MONOLITHIC=0 USE_OPENGL=1 USE_GDIPLUS=1 

   If doing a debug build then add::

       BUILD=debug 

   otherwise add these::

       DEBUG_FLAG=1 CXXFLAGS=/D__NO_VC_CRTDBG__ WXDEBUGFLAG=h BUILD=release

   If doing a Unicode build then add these flags::

       UNICODE=1 MSLU=1

   Now, from the %WXDIR%\\build\\msw directory run nmake with your
   selection of command-line flags as described above.  


7.  When that is all done it will have built the main wxWidgets DLLs
    and also some of the contribs DLLs.  There should be a ton of DLLs
    and lots of lib files and other stuff in %WXDIR%\\lib\\vc_dll.


8. Building wxPython on Windows is very similar to doing it for the
   unix systems.  We're not going to install the development version
   of wxPython with these commands, so it won't impact your already
   installed version of the latest release.  You'll be able to test
   with this version when you want to, and use the installed release
   version the rest of the time.  If you ever do want to install the
   development version please refer to INSTALL.txt.

   Change to the %WXDIR%\\wxPython dir and run the this command,
   making sure that you use the version of python that you want to
   build for (if you have more than one on your system) and to match
   the MONOLITHIC flag with how you built wxWidgets::

         cd %WXDIR%\wxPython
         python setup.py build_ext --inplace MONOLITHIC=0

   If you are wanting to have the source files regenerated with swig,
   (only neccessary if you make modifications to the ``*.i`` files,)
   then you need to turn on the USE_SWIG flag and optionally tell it
   where to find the new swig executable, so add these flags::

         USE_SWIG=1 SWIG=e:\\projects\\SWIG-1.2.29\\swig.exe

   If you built a Unicode version of wxWidgets and want to also build
   the Unicode version of wxPython then add this flag::

         UNICODE=1

   If you have a debug version of Python and wxWidgets and want to
   build a debug version of wxPython too, add the --debug flag to the
   command line.  You should then end up with a set of ``*_d.pyd``
   files in the wx package and you'll have to run ``python_d.exe`` to
   use them.  The debug and hybrid(release) versions can coexist.

   When the setup.py command is done you should have fully populated
   wxPython and wx packages locally in %WXDIR%/wxPython/wxPython and
   %WXDIR%/wxPython/wx, with all the extension modules (``*.pyd``
   files) located in the wx package.


9. To run code with the development version of wxPython, just set the
   PYTHONPATH to the wxPython dir in the CVS tree.  For example::

        set PYTHONPATH=%WXDIR%\wxPython
        cd %WXDIR\wxPython\demo
        python demo.py




Building on Windows with Cygwin/MingW32
---------------------------------------

Starting with release 2.8.6.1 wxPython is also able to be built for
the stock Python on Windows using the cywin environnment and the
mingw32 compiler.  It can probably also be done with a few
modifications to these instructions without cygwin, using just the
standalone mingw32 compiler and MSYS, but that has not been tested
yet.  Another potential option is to build wxWidgets and wxPython for
cygwin and the cygwin version of Python, but the details for that also
has not yet been worked out.  If you do work out the details then
please send me patches for this document.

This build has some aspects of both of the builds desctibed above, but
leans more towards the Unix-like style of doing things.  If you have
any questions about the steps detailed in these instructions please
read the above sections as well, as the answer could be there.

1. If you don't already have cygwin installed on your Windows box
   please do so know.  Make sure you have these additional packages
   installed as well::

         autoconf
       	 automake
	 gcc-core
       	 gcc-g++
       	 gcc-mingw
       	 gcc-mingw-core
       	 gcc-mingw-g++
       	 make
       	 mingw-runtime
       	 mingw-zlib
       	 patch
       	 w32api

2. Create a build directory in the main wxWidgets dir, and configure
   wxWidgets.  Notice that we set some environment variables so
   configure will know to override the defaults for some compiler and
   linker flags settings, this is what causes the mingw32 compiler to
   be used even though we are in the full cygwin environment::

         cd $WXDIR
	 mkdir bld
	 cd bld

	 CC="gcc -mno-cygwin -mwindows"  \
	 CXX="g++ -mno-cygwin -mwindows" \
	 LDFLAGS="-mno-cygwin -mwindows" \
	 ../configure \
	     --with-msw \
             --build=i686-pc-mingw32 \
	     --prefix=/opt/wx/2.8 \
	     --enable-unicode \
	     --enable-debug \
	     --enable-debug_gdb \
	     --enable-geometry \
	     --enable-display \
	     --enable-shared \
	     --with-expat=builtin \
	     --with-regex=builtin \
	     --with-zlib=builtin 

   Read the note above in the unix-like section for why I used
   /opt/wx/2.8 for the prefix, and for some discussion about what your
   options are.  For a cygwin environment the default of using
   /usr/local for the prefix would also be a good choice.  Note that
   the wx DLLs will be installed to {prefix}/lib and since DLLs need
   to be found in the PATH you'll either want to add that dir to your
   PATH if it isn't already there, or be prepared to move those DLLs
   someplace else when the build is finished.

   If you don't need to use the debugger you can leave off the
   --enable-debug and --enable-debug_gdb flags, and add the
   --enable-optimise flag to cause the compiler to generate more
   efficient code.  I recommend that you also add the
   --enable-debug_flag flag so that some C++ runtime checks will be
   turned into Python exceptions when they fail.


3. To build and install wxWidgets you could just use the "make"
   command but there are a couple other libraries besides the main
   wxWidgets libs that also need to be built so I make a script called
   ".make" to do it all for me so I don't forget anything.  This is
   what it looks like::

        make $* \
            && make -C contrib/src/gizmos $* \
            && make -C contrib/src/stc $* 
   
   So you just use .make as if it where make::

         .make
         .make install

   This is going to take a while as GCC on Windows is very slow.  This
   would be a good time to go take a nap, or have dinner, or both.
   When it's done you should have an installed set of files under
   /opt/wx/2.8 (or whatever prefix you used) containing just
   wxWidgets.  Now to use this version of wxWidgets you just need to
   add /opt/wx/2.8/bin and /opt/wx/2.8/lib to the PATH.


4. Building wxPython is very similar to how it is done for the other
   build styles.  We simply run the setup.py in the wxPython dir, and
   pass it some commands and flags.  Make sure that the Python that
   you use for running setup.py is the one that you want to use when
   running wxPython apps.  In other words, if you have the cygwin
   Python installed, or multiple versions of stock Windows Python,
   then use the full pathname to python.exe to make sure you use the
   right one.

         python setup.py COMPILER=mingw32 \
	     BUILD_GLCANVAS=0 \
 	     BUILD_ACTIVEX=0 \
	     WX_CONFIG="bash.exe -e /opt/wx/2.8/bin/wx-config" \
	     build_ext --inplace 

   This builds the wxPython extension modules and places them directly
   in the wx package dir located in the source tree.  This is
   convenient for testing the build or running the demo and samples
   without needing to do an install to site-packages and possibly
   disturbing the wxPython you already have installed.  You just need
   to set PYTHONPATH so Python will find this version of the wx
   package first.  When you are ready to install this build you can do
   it by adding 'install' to the command line and running it again.
   See the INSTALL.txt file for more details.

   Notice that we had to turn off the building of the wx.glcanvas and
   wx.activex modules.  There are also a few other features that are
   not currently supported by this build, most notably the
   wx.GraphicsContext and wx.media.MediaCtrl families of classes.
   Hopefully that will improve over time.