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1 | Building wxPython on Unix or Unix-like Systems | |
2 | ---------------------------------------------- | |
3 | ||
4 | The basic steps for building wxPython for Unix or Unix-like systems | |
5 | are: | |
6 | ||
7 | 1. Compile and/or install glib and gtk+ | |
8 | 2. Compile and/or install wxGTK | |
9 | 3. Compile and install wxPython | |
10 | ||
11 | We'll go into more detail of each of these steps below, but first a | |
12 | few bits of background information on tools. | |
13 | ||
14 | I use a tool called SWIG (http://www.swig.org) to help generate the | |
15 | C++ sources used in the wxPython extension module. However you don't | |
16 | need to have SWIG unless you want to modify the *.i files. I've made | |
17 | several modifications to SWIG specific to wxPython's needs and so the | |
18 | modified sources are included in the wx CVS at .../wxPython/wxSWIG. | |
19 | If you need to modify the *.i files for wxPython then change to this | |
20 | directory and run: | |
21 | ||
22 | configure | |
23 | make | |
24 | ||
25 | (Do not run "make install" as wxswig is run in-place.) You'll then | |
26 | need to change a flag in the setup.py script as described below so the | |
27 | wxPython build process will use SWIG if needed. | |
28 | ||
29 | I use the new Python Distutils tool to build wxPython. It is included | |
30 | with Python 2.0, but if you want to use Python 1.5.2 or 1.6 then | |
31 | you'll need to download and install Distutils 1.0 from | |
32 | http://www.python.org/sigs/distutils-sig/ | |
33 | ||
34 | Okay, now on the the fun stuff... | |
35 | ||
36 | ||
37 | 1. Compile and/or install glib and gtk+ | |
38 | --------------------------------------- | |
39 | ||
40 | A. First of all, check and see if you've already got glib/gtk+ on your | |
41 | system, all the Linux distributions I know of come with it, at | |
42 | least as an option. Look for libglib.* and libgtk.* in your system's | |
43 | standard library directories. You'll also need the headers and | |
44 | config scripts in order to build things that use glib/gtk. Try | |
45 | running gtk-config: | |
46 | ||
47 | gtk-config --version | |
48 | ||
49 | If you have version 1.2.5 or better then you're all set. You can | |
50 | skip to step #2. | |
51 | ||
52 | B. If your system has a binary package mechanism, (RPMs, debs, | |
53 | whatever...) check and see if binaries for glib abd gtk+ are | |
54 | available. Be sure to get the runtime library package as well as | |
55 | the development package, if they are separate. Install them with | |
56 | your package tool, and skip to step #2. | |
57 | ||
58 | C. If all else fails, you can get the source code for glib and gtk+ at | |
59 | http://www.gtk.org/. Fetch the latest of each in the 1.2.x | |
60 | series. Compile and install each of them like this: | |
61 | ||
62 | gzip -d [package].tar.gz | tar xvf - | |
63 | cd [package] | |
64 | ./configure | |
65 | make | |
66 | make install | |
67 | ||
68 | The last step will probably have to be done as root. Also, if your | |
69 | system needs anything done to update the dynamic loader for shared | |
70 | libraries, (such as running ldconfig on Linux) then do it after | |
71 | each library is installed. | |
72 | ||
73 | ||
74 | ||
75 | 2. Compile and/or install wxGTK | |
76 | ------------------------------- | |
77 | ||
78 | A. You can find the sources and RPMs for wxGTK at | |
79 | http://wxwindows.org/, just follow the download links from the | |
80 | nevigation panel. You can also check out a current snapshot of the | |
81 | sources from the CVS server. (Some information about annonymous | |
82 | CVS access is at http://wxwindows.org/cvs.htm.) The advantage of | |
83 | using CVS is that you can easily update as soon as the developers | |
84 | check in new sources or fixes. The advantage of using a released | |
85 | version is that it usually has had more thorough testing done. You | |
86 | can decide which method is best for you. | |
87 | ||
88 | B. You'll usually want to use a version of wxGTK that has the same | |
89 | version number as the wxPython sources you are using. (Another | |
90 | advantage of using CVS is that you'll get both at the same time.) | |
91 | ||
92 | C. If using the RPMs be sure to get both the wxGTK and wxGTK-devel | |
93 | RPMs (at a minimum) and then install them as root. | |
94 | ||
95 | rpm -Uhv wxGTK-2.2.2-0.i386.rpm wxGTK-devel-2.2.2-0.i386.rpm | |
96 | ||
97 | D. If using the sources (either from the tarball or from CVS) then | |
98 | configure it like this: | |
99 | ||
100 | cd wxWindows # or whatever your top-level directory is called | |
101 | mkdir build | |
102 | cd build | |
103 | ../configure --with-gtk | |
104 | ||
105 | There are gobs and gobs of options for the configure script, run | |
106 | ../configure --help to see them all. I'll describe some that I find | |
107 | useful here. | |
108 | ||
109 | If you have OpenGL or compatible libraries installed, then add the | |
110 | --with-opengl flag. | |
111 | ||
112 | If you are on Solaris and are using a recent version of GCC, then | |
113 | you'll probably want to add the --enable-permissive flag so the | |
114 | compiler won't barf on your broken X11 header files. | |
115 | ||
116 | To make a debugging version of wxGTK, add the --enable-debug flag. | |
117 | This sets the -g flag for the compiler and also activates some | |
118 | special debugging code in wxWindows by defining the __WXDEBUG__ | |
119 | macro. You'll get some extra asserts, failure logging, etc. | |
120 | ||
121 | To make a static library and not make a shared library, use the | |
122 | --disable-shared and --enable-static flags. | |
123 | ||
124 | NOTE: There is a potential type mismatch between Python and wxGTK. | |
125 | This happens if Python defines some flags that turn on 64-bit file | |
126 | offset support and wxGTK does not. This causes some basic types, | |
127 | like off_t, to be typedef'd differently causing the C++ method | |
128 | signatures to be incompatible and giving link errors at runtime. | |
129 | If you get errors upon running a wxPython script that looks | |
130 | something like this: | |
131 | ||
132 | SeekI_13wxInputStream10wxSeekMode: referenced symbol not found | |
133 | ||
134 | then that is probably the issue. This can be fixed in the current | |
135 | code by predefining these flags before wxGTK's configure is run, | |
136 | for example: | |
137 | ||
138 | export CFLAGS="-D_FILE_OFFSET_BITS=64 -D_LARGEFILE_SOURCE -DHAVE_LARGEFILE_SUPPORT" | |
139 | export CXXFLAGS=$CFLAGS | |
140 | ../configure --with-gtk --with-opengl --enable-debug | |
141 | ||
142 | In the 2.3.3 final release there will be a real configure flag for | |
143 | it, and it should be enabled by default. You will be able to use | |
144 | --enable-largefile or --disable-largefile to control it. If you | |
145 | still get this or a similar error with 2.3.3 then try disabling | |
146 | largefile support in wxGTK. | |
147 | ||
148 | E. Now just compile and install. You need to use GNU make, so if your | |
149 | system has something else get GNU make and build and install it and | |
150 | use it instead of your system's default make command. | |
151 | ||
152 | make | |
153 | make install | |
154 | ||
155 | The last step will probably have to be done as root. Also, if your | |
156 | system needs anything done to update the dynamic loader for shared | |
157 | libraries, (such as running ldconfig on Linux) then do it now. | |
158 | ||
159 | F. You can test your build by changing to one of the directories under | |
160 | build/samples or build/demos, running make and then running the | |
161 | executable that is built. | |
162 | ||
163 | ||
164 | ||
165 | 3. Compile and install wxPython | |
166 | ------------------------------- | |
167 | ||
168 | A. You have the same options (and same advantages/disadvantages) for | |
169 | getting the wxPython source, either a released snapshot or from | |
170 | CVS. The released version file is named wxPython-[version].tar.gz | |
171 | and is available at http://wxpython.org/download.php. If you want | |
172 | to use CVS you'll find wxPython in the wxWindows CVS tree (see | |
173 | above) in the wxWindows/wxPython directory. | |
174 | ||
175 | B. As mentioned previouslly, wxPython is built with the standard | |
176 | Python Distutils tool. If you are using Python 2.0 or later you | |
177 | are all set, otherwise you need to download and install Distutils | |
178 | 1.0 from http://www.python.org/sigs/distutils-sig/. | |
179 | ||
180 | On Unix systems Distutils figures out what commands and flags to | |
181 | use for the compiler and linker by looking in the Makefile that was | |
182 | used to build Python itself. Most of the time this works okay. If | |
183 | it doesn't, there doesn't seem to be a way to override the values | |
184 | that Distutils uses without hacking either Distutils itself, or | |
185 | Python's Makefile. (Complain to the distutils-sig about this | |
186 | please.) For example, on a Solaris system I had to edit | |
187 | /usr/local/lib/python1.5/config/Makefile and replace | |
188 | ||
189 | LDSHARED=ld -G | |
190 | ||
191 | with | |
192 | ||
193 | LDSHARED=gcc -G | |
194 | ||
195 | This particular problem has been fixed in Python 1.6 and beyond, | |
196 | but there may be similar issues on other platforms. | |
197 | ||
198 | While we're on the subject of how Python was built... Since | |
199 | wxPython is a C++ extension some platforms and/or compilers will | |
200 | require that the Python executable was linked with the C++ linker | |
201 | in order for everything to work correctly. If you build and | |
202 | install Python yourself then this is easy to take care of, | |
203 | otherwise you may have to mess with binary packages or bribe your | |
204 | system administrator... | |
205 | ||
206 | In my case on Solaris wxPython applications would core dump on | |
207 | exit. The core file indicated that the fault happened after | |
208 | _exit() was called and the run-time library was trying to execute | |
209 | cleanup code. After relinking the Python executable the problem | |
210 | went away. To build Python to link with the C++ linker do this: | |
211 | ||
212 | cd Python-2.0 # wherever the root of the source tree is | |
213 | rm python # in case it's still there from an old build | |
214 | make LINKCC=g++ # or whatever your C++ command is | |
215 | make install | |
216 | ||
217 | I recently built Python 2.1.3 and Python 2.2.1 on Solaris and did | |
218 | not have to resort to this workaround so apparently thigns are | |
219 | getting better there. I will leave this note here though in case | |
220 | there are similar issues elsewhere. However I did run into a | |
221 | Python build issue that affects the wxPython build when attempting | |
222 | to use SunCC instead of GNU gcc. See the note below titled | |
223 | "Building with non-GNU compilers" if you are interested. | |
224 | ||
225 | C. Change to the root wxPython directory and look at the setup.py | |
226 | file. This is the script that configures and defines all the | |
227 | information that Distutils needs to build wxPython. There are some | |
228 | options near the begining of the script that you may want or need | |
229 | to change based on your system and what options you have selected | |
230 | up to this point, (sources from tar.gz or from CVS, etc.) You can | |
231 | either change these flags directly in setup.py or supply them on | |
232 | the command-line. | |
233 | ||
234 | BUILD_GLCANVAS Set to zero if you don't want to build the | |
235 | Open GL canvas extension module. If you don't | |
236 | have OpenGL or compatible libraries then you'll | |
237 | need to set this to zero. | |
238 | ||
239 | BUILD_OGL Set to zero if you don't want to build the | |
240 | Object Graphics Library extension module. | |
241 | ||
242 | BUILD_STC Set to zero if you don't want to build the | |
243 | wxStyledTextCtrl (the Scintilla wrapper) | |
244 | extension module. | |
245 | ||
246 | USE_SWIG If you have edited any of the *.i files you | |
247 | will need to set this flag to non-zero so SWIG | |
248 | will be executed to regenerate the wrapper C++ | |
249 | and shadow python files. | |
250 | ||
251 | IN_CVS_TREE If you are using the CVS version of the | |
252 | wxWindows and wxPython sources then you will | |
253 | need to set this flag to non-zero. This is | |
254 | needed because some source files from the | |
255 | wxWindows tree are copied to be under the | |
256 | wxPython tree in order to keep Distutils happy. | |
257 | With this flag set then setup.py will | |
258 | automatically keep these copied sources up to | |
259 | date if the original version is ever updated. | |
260 | If you are using the tar.gz version of the | |
261 | Python sources then these copied sources are | |
262 | already present in your source tree. | |
263 | ||
264 | ||
265 | D. To build and install wxPython you simply need to execute the | |
266 | setup.py script. If you have more than one version of Python | |
267 | installed, be sure to execute setup.py with the version you want to | |
268 | build wxPython for. Depending on the permissions on your | |
269 | site-packages directory you may need to be root to run the install | |
270 | command. | |
271 | ||
272 | python setup.py build | |
273 | python setup.py install | |
274 | ||
275 | E. At this point you should be able to change into the wxPython/demo | |
276 | directory and run the demo: | |
277 | ||
278 | python demo.py | |
279 | ||
280 | F. If you would like to make a test build that doesn't overwrite the | |
281 | installed version of wxPython you can do so with this command | |
282 | instead of the install command above: | |
283 | ||
284 | python setup.py build_ext --inplace | |
285 | ||
286 | This will build the wxPython package in the local wxPython | |
287 | directory instead of installing it under your Python installation. | |
288 | To run using this test version just add the base wxPython source | |
289 | directory to the PYTHONPATH: | |
290 | ||
291 | export PYTHONPATH=~/projects/wxWindows/wxPython | |
292 | # or whatever is required for your shell | |
293 | cd ~/projects/wxWindows/wxPython/demo | |
294 | python demo.py | |
295 | ||
296 | ||
297 | ||
298 | 4. Building with non-GNU compilers | |
299 | ---------------------------------- | |
300 | ||
301 | As mentioned above Python's distutils uses whatever compiler Python | |
302 | was compiled with to compile extension modules. It also appears that | |
303 | distutils assumes that this compiler can compile C or C++ sources as | |
304 | distutils makes no differentiation between the two. For builds using | |
305 | GNU gcc and a few other compilers this is not an issue as they will | |
306 | determine the type of source from the file extension. For SunCC (and | |
307 | probably other compilers that came from cfront) it won't work as the C | |
308 | compiler (cc) is totally separate from the C++ compiler (CC). This | |
309 | causes distutils to attempt to compile the wxPython sources with the C | |
310 | compiler, which won't work. | |
311 | ||
312 | There may be better ways to get around this, but here is the | |
313 | workaround I devised. I created a script that will execute either cc | |
314 | or CC based on the file extension given to it. If Python uses this | |
315 | script for its compiler then it will also be used by extensions built | |
316 | with distutils and everybody will be more or less happy. Here is a | |
317 | copy of the script I used. It was a fairly quick rush job so there | |
318 | are probably issues with it but it worked for me. | |
319 | ||
320 | #!/bin/bash | |
321 | #-------------------------------------------------------------- | |
322 | # Try to determine type of file being compiled and then | |
323 | # launch cc for C sources or CC for C++. | |
324 | # | |
325 | ||
326 | args=$@ | |
327 | is_C= | |
328 | ||
329 | for arg in $args; do | |
330 | ||
331 | # is the arg a file that exists? | |
332 | if [ -e $arg ]; then | |
333 | ||
334 | # does it end in ".c"? | |
335 | if [ "${arg:${#arg}-2}" == ".c" ]; then | |
336 | is_C=yes | |
337 | fi | |
338 | fi | |
339 | done | |
340 | ||
341 | # if the flag wasn't set then assume C++ and execute CC, | |
342 | # otherwise execute cc. | |
343 | if [ -z $is_C ]; then | |
344 | exec CC -w $@ | |
345 | else | |
346 | exec cc -w $@ | |
347 | fi | |
348 | #-------------------------------------------------------------- | |
349 | ||
350 | I called it pycc, put it in ${prefix}/bin and set its execute | |
351 | permission bit. | |
352 | ||
353 | The next step is to configure and build Python such that it uses pycc | |
354 | as it's compiler. You can do that by setting CC in your environment | |
355 | before running configure, like this in bash: | |
356 | ||
357 | export CC=pycc | |
358 | configure | |
359 | ||
360 | After making and installing Python with this configuration you should | |
361 | be able to build wxPython as described in the steps above. | |
362 | ||
363 | ----------------- | |
364 | robin@alldunn.com |