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wxWindows 2 for Windows FAQ
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<P>
See also <a href="faq.htm">top-level FAQ page</a>.
<hr>
<h3>Which Windows platforms are supported?</h3>
wxWindows 2 can be used to develop and deliver applications on Windows 3.1, Win32s,
Windows 95, Windows 98, and Windows NT. A Windows CE version is being looked into (see below).<P>
wxWindows 2 is designed to make use of WIN32 features and controls. However, unlike Microsoft,
we have not forgotten users of 16-bit Windows. Most features
work under Windows 3.1, including wxTreeCtrl and wxListCtrl using the generic implementation.
However, don't expect very Windows-95-specific classes to work, such as wxTaskBarIcon. The wxRegConfig
class doesn't work either because the Windows 3.1 registry is very simplistic. Check out the 16-bit
makefiles to see what other files have been left out.
<P>
16-bit compilation is supported under Visual C++ 1.5, and Borland BC++ 4 to 5.
<P>
wxWindows 2 for Windows will also compile on Unix with gcc using TWIN32 from <a href="http://www.willows.com" target=_top>Willows</a>,
although TWIN32 is still in a preliminary state. The resulting executables are
Unix binaries that work with the TWIN32 Windows API emulator.<P>
You can also compile wxWindows 2 for Windows on Unix with Cygwin or Mingw32, resulting
in executables that will run on Windows. So in theory you could write your applications
using wxGTK or wxMotif, then check/debug your wxWindows for Windows
programs with TWIN32, and finally produce an ix86 Windows executable using Cygwin/Mingw32,
without ever needing a copy of Microsoft Windows. See the Technical Note on the Web site detailing cross-compilation.<P>
<h3>What about Windows CE?</h3>
This is under consideration, though we need to get wxWindows Unicode-aware first.
There are other interesting issues, such as how to combine the menubar and toolbar APIs
as Windows CE requires. But there's no doubt that it will be possible, albeit
by mostly cutting down wxWindows 2 API functionality, and adding a few classes here
and there. Since wxWindows for 2 produces small binaries (less than 300K for
the statically-linked 'minimal' sample), shoehorning wxWindows 2 into a Windows CE device's limited
storage should not be a problem.<P>
<h3>What compilers are supported?</h3>
Please see the wxWindows 2 for Windows install.txt file for up-to-date information, but
currently the following are known to work:<P>
<ul>
<li>Visual C++ 1.5, 4.0, 5.0, 6.0
<li>Borland C++ 4.5, 5.0
<li>Borland C++Builder 1.0, 3.0
<li>Watcom C++ 10.6 (WIN32)
<li>Cygwin b20
<li>Mingw32
<li>MetroWerks CodeWarrior 4
</ul>
<P>
There is a linking problem with Symantec C++ which I hope someone can help solve.
<P>
<h3>Which is the best compiler to use with wxWindows 2?</h3>
It's partly a matter of taste, but I (JACS) prefer Visual C++ since the debugger is very
good, it's very stable, the documentation is extensive, and it generates small executables.
Since project files are plain text, it's easy for me to generate appropriate project files
for wxWindows samples.<P>
Borland C++ is fine - and very fast - but it's hard (impossible?) to use the debugger without using project files, and
the debugger is nowhere near up to VC++'s quality. The IDE isn't great.<P>
C++Builder's power isn't really used with wxWindows since it needs integration with its
own class library (VCL). For wxWindows, I've only used it with makefiles, in which case
it's almost identical to BC++ 5.0 (the same makefiles can be used).<P>
You can't beat Cygwin's price (free), and you can debug adequately using gdb. However, it's
quite slow to compile since it does not use precompiled headers.<P>
CodeWarrior is cross-platform - you can debug and generate Windows executables from a Mac, but not
the other way around I think - but the IDE is, to my mind, a bit primitive.<P>
Watcom C++ is a little slow and the debugger is not really up to today's standards.<P>
<h3>Is Unicode supported?</h3>
Not yet, although there are other internationalisation features.<P>
However, the issues surrounding Unicode support have been looked into so we know
what we need to do, and have some header files ready to use containing appropriate
type definitions. Just about every file in wxWindows will need changes, due to the
pervasive nature of characters and character arrays. Unicode support is needed
for the port to Windows CE (see above), and will probably be added in time for version 2.1.<P>
<h3>Can you compile wxWindows 2 as a DLL?</h3>
Yes (using the Visual C++ or Borland C++ makefile), but be aware that distributing DLLs is a thorny issue
and you may be better off compiling statically-linked applications, unless you're
delivering a suite of separate programs, or you're compiling a lot of wxWindows applications
and have limited hard disk space.<P>
With a DLL approach, and with different versions and configurations of wxWindows
needing to be catered for, the end user may end up with a host of large DLLs in his or her Windows system directory,
negating the point of using DLLs. Of course, this is not a problem just associated with
wxWindows!
<P>
<H3>How can I reduce executable size?</H3>
You can compile wxWindows as a DLL (see above, VC++/BC++ only at present). You should also
compile your programs for release using non-debugging and space-optimisation options, but
take with VC++ 5/6 space optimisation: it can sometimes cause problems.<P>
Statically-linked wxWindows 2 programs are smaller than wxWindows 1.xx programs, because of the way
wxWindows 2 has been designed to reduce dependencies between classes, and other
techniques. The linker will not include code from the library that is not (directly or
indirectly) referenced
by your application. So for example, the 'minimal' sample is less than 300KB using VC++ 6.<P>
If you want to distribute really small executables, you can
use <a href="http://www.icl.ndirect.co.uk/petite/" target=_top>Petite</a>
by Ian Luck. This nifty utility compresses Windows executables by around 50%, so your 500KB executable
will shrink to a mere 250KB. With this sort of size, there is reduced incentive to
use DLLs.<P>
<H3>Is wxWindows compatible with MFC?</H3>
There is a sample which demonstrates MFC and wxWindows code co-existing in the same
application. However, don't expect to be able to enable wxWindows windows with OLE-2
functionality using MFC.<P>
<H3>Why do I sometimes get bizarre crash problems using VC++ 5/6?</H3>
Some crash problems can be due to inconsistent compiler
options (and of course this isn't limited to wxWindows).
If strange/weird/impossible things start to happen please
check (dumping IDE project file as makefile and doing text comparison
if necessary) that the project settings, especially the list of defined
symbols, struct packing, etc. are exactly the same for all items in
the project. After this, delete everything (including PCH) and recompile.<P>
VC++ 5's optimization code seems to be broken and can
cause problems: this can be seen when deleting an object Dialog
Editor, in Release mode with optimizations on. If in doubt,
switch off optimisations, although this will result in much
larger executables. It seems possible that the library can be created with
strong optimization, so long as the application is not strongly
optimized. For example, in wxWindows project, set to 'Minimum
Size'. In Dialog Editor project, set to 'Customize: Favor Small
Code' (and no others). This will then work.<P>
<H3>How are the wxWindows makefiles edited under Windows?</H3>
As of wxWindows 2.1, there is a new system written by Vadim Zeitlin, that
generates the makefiles from templates using tmake.<P>
Here are Vadim's notes:<P>
<blockquote>
To use these new makefiles, you don't need anything (but see below).
However, you should NOT modify them because these files will be
rewritten when I regenerate them using tmake the next time. So, if
you find a problem with any of these makefiles (say, makefile.b32)
you'll need to modify the corresponding template (b32.t in this
example) and regenerate the makefile using tmake.<P>
tmake can be found at
<a href="http://www.troll.no/freebies/tmake.html" target=_new>www.troll.no/freebies/tmake.html</a>.
It's a Perl5 program and so it needs Perl (doh). There is a binary for
Windows (available from the same page), but I haven't used it, so
I don't know if it works as flawlessly as "perl tmake" does (note
for people knowing Perl: don't try to run tmake with -w, it won't
do you any good). Using it extremely simple: to regenerate makefile.b32
just go to distrib/msw/tmake and type<P>
<pre>tmake -t b32 wxwin.pro -o ../../src/msw/makefile.b32</pre><P>
The makefiles are untested - I don't have any of Borland, Watcom or
Symantec and I don't have enough diskspace to recompile even with
VC6 using makefiles. The new makefiles are as close as possible to the
old ones, but not closer: in fact, there has been many strange things
(should I say bugs?) in some of makefiles, some files were not compiled
without any reason etc. Please test them and notify me about any problems.
Better yet, modify the template files to generate the correct makefiles
and check them in.<P>
The templates are described in tmake ref manual (1-2 pages of text)
and are quite simple. They do contain some Perl code, but my Perl is
primitive (very C like) so it should be possible for anybody to make
trivial modifications to it (I hope that only trivial modifications
will be needed). I've tagged the ol makefiles as MAKEFILES_WITHOUT_TMAKE
in the cvs, so you can always retrieve them and compare the new ones,
this will make it easier to solve the problems you might have.<P>
Another important file is filelist.txt: it contains the list of all
files to be compiled. Some of them are only compiled in 16/32 bit mode.
Some other are only compiled with some compilers (others can't compile
them) - all this info is contained in this file.<P>
So now adding a new file to wxWindows is as easy as modifying filelist.txt
(and Makefile.ams for Unix ports) and regenerating the makefiles - no
need to modify all files manually any more.<P>
Finally, there is also a file vc6.t which I use myself: this one
generates a project file for VC++ 6.0 (I didn't create vc5.t because
I don't need it and can't test it, but it should be trivial to create
one from vc6.t - probably the only things to change would be the
version number in the very beginning and the /Z option - VC5 doesn't
support edit-and=continue). This is not an officially supported way
of building wxWindows (that is, nobody guarantees that it will work),
but it has been very useful to me and I hope it will be also for
others. To generate wxWindows.dsp run<P>
<pre>tmake -t vc6 wxwin.pro -o ../../wxWindows.dsp</pre><P>
Then just include this project in any workspace or open it from VC IDE
and it will create a new workspace for you.<P>
If all goes well, I'm planning to create a template file for Makefile.ams
under src/gtk and src/motif and also replace all makefiles in the samples
subdirectories with the project files from which all the others will be
generated. At least it will divide the number of files in samples
directory by 10 (and the number of files to be maintained too).
</blockquote>
<P>
<H3>How do you use VC++'s memory leak checking instead of that in wxWindows?</H3>
Vadim Zeitlin:
<pre>
On the VC++ level, it's just the matter of calling _CrtSetDbgFlag() in the very
beginning of the program. In wxWindows, this is done automatically when
compiling with VC++ in debug mode unless wxUSE_GLOBAL_MEMORY_OPERATORS or
__NO_VC_CRTDBG__ are defined - this check is done in wx/msw/msvcrt.h which
is included from app.cpp which then calls wxCrtSetDbgFlag() without any
#ifdefs.
This works quite well: at the end of the program, all leaked blocks with their
malloc count are shown. This number (malloc count) can be used to determine
where exactly the object was allocated: for this it's enough to set the variable
_crtBreakAlloc (look in VC98\crt\srs\dbgheap.c line 326) to this number and
a breakpoint will be triggered when the block with this number is allocated.
For simple situations it works like a charm. For something more complicated
like reading uninitialized memory a specialized tool is probably better...
Regards,
VZ
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