wxWidgets/docs/msw/install.txt

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Installing wxWidgets for Windows
-----------------------------------------------------------
This is wxWidgets for Microsoft Windows 9x/ME, Windows NT
and later (2000, XP, Vista, 7, etc) and Windows CE.
These installation notes can be found in docs/msw/install.txt
in your wxWidgets distribution.
IMPORTANT NOTE: If you experience problems installing, please
re-read these instructions and other related files (changes.txt,
readme.txt, FAQ) carefully before posting to wx-users list.
If you are sure that you found a bug, please report it at
wxWidgets Trac:
http://trac.wxwidgets.org/newticket
Please notice that often trying to correct the bug yourself is the
quickest way to fix it. Even if you fail to do it, you may
discover valuable information allowing us to fix it while doing
it. We also give much higher priority to bug reports with patches
fixing the problems so this ensures that your report will be
addressed sooner.
Table of Contents:
- Installation
- Building wxWidgets
- Configuring the Build
- Building Applications Using wxWidgets
Installation
============
Please simply uncompress the .zip file manually into any directory.
However we advise avoiding using directories with spaces in their
names (notably "C:\Program Files") as this risks creating problems
with makefiles and other command-line tools.
In the majority of cases, you don't need to change the default
library build configuration. If you wish to change some of the build
options you need to edit the include/wx/msw/setup.h file enabling or
disabling the features you would like to compile wxWidgets with[out].
NB: If you checked your sources from version control repository and
didn't obtain them from a release file, the file above doesn't
exist and you will need to copy include/wx/msw/setup0.h to
include/wx/msw/setup.h.
Notice that this file is later copied into a directory under lib for
each of the build configurations which allows to have different
build options for different configurations too.
See "Configuring the Build" section for more information.
Building wxWidgets
==================
The following sections explain how to compile wxWidgets with each supported
compiler, see the "Building Applications" section about the instructions for
building your application using wxWidgets.
Search for one of Microsoft/Borland/Watcom/Symantec/Metrowerks/Cygwin/Mingw32
to quickly locate the instructions for your compiler. Notice that the primary
compilers for wxWidgets under MSW are Microsoft Visual C++ and GNU g++, other
compilers are more rarely tested and might not work so please consider using
one of these two if possible.
All makefiles and project are located in build\msw directory.
Where Compiled Files are Stored
-------------------------------
After successful compilation you'll find the libraries in a subdirectory
of lib directory named after the compiler and DLL/static settings.
A couple of examples:
lib\vc_lib VC++ compiled static libraries
lib\vc_dll VC++ DLLs
lib\bcc_lib Static libraries for Borland C++
lib\wat_dll Watcom C++ DLLs
Names of compiled wxWidgets libraries follow this scheme: libraries that don't
depend on GUI components begin with "wxbase" followed by a version number and,
optionally, letters indicating Unicode compilation ('u') and a debug build ('d').
The last component is the name of the wxWidgets component (unless you build the
library as single monolithic library; look for "Configuring the Build" below).
This is a typical set of release ANSI build libraries (release versions on
left, debug on right side):
wxbase29.lib wxbase29d.lib
wxbase29_net.lib wxbase29d_net.lib
wxbase29_xml.lib wxbase29d_xml.lib
wxmsw29_core.lib wxmsw29d_core.lib
wxmsw29_html.lib wxmsw29d_html.lib
wxmsw29_adv.lib wxmsw29d_adv.lib
Their Unicode debug counterparts in wxUniversal build would be
wxbase29ud.lib
wxbase29ud_net.lib
wxbase29ud_xml.lib (notice these libs are same for wxUniv and wxMSW)
wxmswuniv29ud_core.lib
wxmswuniv29ud_html.lib
wxmswuniv29ud_adv.lib
These directories also contain a subdirectory with the wx/setup.h header. This
subdirectory is named after the port, Unicode, wxUniv and debug settings and
you must add it to the include paths when compiling your application. Some
examples:
lib\vc_lib\msw\wx\setup.h VC++ static, wxMSW
lib\vc_lib\mswud\wx\setup.h VC++ static, wxMSW, Unicode, debug
lib\vc_lib\mswunivd\wx\setup.h VC++ static, wxUniversal, debug
Below are compiler specific notes followed by customizing instructions that
apply to all compilers (search for "Configuring the Build").
Microsoft Visual C++ Compilation
----------------------------------------------------------------
You may wish to visit http://wiki.wxwidgets.org/Microsoft_Visual_C%2B%2B_Guide
for a more informal and detailed description of the process summarized below.
Please note that the VC++ 6.0 project files will work for VC++ .NET as well.
VC++ 5.0 can also be used, providing Service Pack 3 is applied. Without it
you will have trouble with internal compiler errors. It is available for
download at: ftp://ftp.microsoft.com/developr/visualstudio/sp3/full.
Using project files (VC++ 6 and later):
1. Unarchive wxWidgets-x.y.z-vc.zip, the VC++ 6 project
makefiles (already included in wxMSW-x.y.z.zip and the setup version).
2. Open build\msw\wx.dsw, which has configurations for static
compilation or DLL compilation, and each of these available in
Unicode/ANSI, Debug/Release and wxUniversal or native variations.
Normally you'll use a static linking ANSI configuration.
Choose the Win32 Debug or Win32 Release configuration (or any other that
suits your needs) and use Batch Build to compile _all_ projects. If you
know you won't need some of the libraries (e.g. the HTML part), you don't have
to compile it. It will also produce similar variations on jpeg.lib,
png.lib, tiff.lib, zlib.lib, and regex.lib.
If you want to build DLL configurations in wx.dsw project you unfortunately
need to build them in the proper order (jpeg, png, tiff, zlib, regex, expat,
base, net, odbc, core, gl, html, media, qa, adv, dbgrid, xrc, aui, richtext,
propgrid) manually because VC6 doesn't always respect the correct build order.
Alternatively, use the special wx_dll.dsw project which adds the
dependencies to force the correct order (but, because of this, doesn't work
for the static libraries) or simply redo the build several times until all
DLLs are linked correctly.
3. Open a sample project file, choose a configuration such as
Win32 Debug using Build | Set Active Configuration..., and compile.
The project files don't use precompiled headers, to save disk
space, but you can switch PCH compiling on for greater speed.
NOTE: you may also use samples/samples.dsw to access all
sample projects without opening each workspace individually.
You can use the Batch Build facility to make several samples
at a time.
Using makefiles:
1. Change directory to build\msw. Type:
'nmake -f makefile.vc'
to make the wxWidgets core library as release DLL.
See "Configuring the Build" for instruction how to build debug or static
libraries.
2. Change directory to samples and type 'nmake -f makefile.vc'
to make all the samples. You can also make them individually.
Makefile notes:
Use the 'clean' target to clean all objects, libraries and
executables.
Note (1): if you wish to use templates, please edit
include\wx\msw\setup.h and set wxUSE_DEBUG_NEW_ALWAYS to 0.
Without this, the redefinition of 'new' will cause problems in
the headers. Alternatively, #undef new before including template headers.
You will also need to set wxUSE_IOSTREAMH to 0 if you will be
using templates, to avoid the non-template stream files being included
within wxWidgets.
Note (2): libraries and applications generated with makefiles and
project files are now (hopefully) compatible where static libraries
are concerned, but please exercise caution nevertheless and if
possible, use one method or the other.
Note (3): some crash problems can be due to inconsistent compiler
options. 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.
Note (4): to create your own IDE files, copy .dsp and .dsw
files from an existing wxWidgets sample and adapt them, or
visit http://wiki.wxwidgets.org/Microsoft_Visual_C%2B%2B_Guide.
Microsoft Visual C++ Compilation for 64-bit Windows
----------------------------------------------------------------
Visual Studio 2005 includes 64-bit compilers, though they are not installed by
default; you need to select them during the installation. Both native 64-bit
compilers and 32-bit hosted cross compilers are included, so you do not need a
64-bit machine to use them (though you do to run the created executables).
Visual C++ Express Edition does not include 64-bit compilers.
64-bit compilers are also available in various SDKs, for example
the .NET Framework SDK:
http://msdn.microsoft.com/netframework/programming/64bit/devtools/
Using project files:
1. Open the VC++ 6 workspace file: build\msw\wx.dsw. Visual Studio will then
convert the projects to the current Visual C++ project format.
2. To add 64-bit targets, go to the 'Build' menu and choose 'Configuration
Manager...'. In the 'Active solution platform' drop down choose '<new>',
then you can choose either 'Itanium' or 'x64'.
For more detailed instructions see:
http://msdn2.microsoft.com/en-us/library/9yb4317s(en-us,vs.80).aspx
Note: 64-bit targets created this way will use the build directory of the
corresponding 32-bit target for some files. Therefore after building
for one CPU it is necessary to clean the build before building the
equivalent target for another CPU. We've reported the problem to MS
but they say it is not possible to fix it.
3. To build, go to the 'Build' menu and choose 'Batch Build...'. Tick all the
all the 'x64|Debug' or all the 'Itanium|Debug' projects, and click 'Build'.
This will build a debug version of the static libs. The section above on
Visual C++ in general has more information about adjusting the settings to
build other configurations.
4. To compile one of the samples open one of the sample projects, such as
samples\minimal\minimal.dsw. Visual Studio will convert the project as in
step 1, then add a 64-bit target as in step 2, and build.
Using makefiles:
1. Open a 64-bit build command prompt, for either x64 or Itanium. Change
directory to build\msw. Then for x64 type:
nmake -f makefile.vc TARGET_CPU=AMD64
or for Itanium:
nmake -f makefile.vc TARGET_CPU=IA64
This will build a debug version of wxWidgets DLLs. See "Configuring the
build" for instruction how to build other configurations such as a release
build or static libraries.
2. Change to the directory of one of the samples such as samples\minimal. Type
the same command used to build the main library, for example for x64:
nmake -f makefile.vc TARGET_CPU=AMD64
Notes:
The versions of the VC++ 8 compiler included with some SDKs requires an
additional library to be linked or the following error is received.
LNK2001 unresolved external symbol __security_check_cookie
If you receive this error add bufferoverflowu.lib to link, e.g.:
nmake -f makefile.vc TARGET_CPU=AMD64 LDFLAGS=bufferoverflowu.lib
See http://support.microsoft.com/?id=894573 for more information.
Borland C++ Compilation
----------------------------------------------------------------
The minimum version required is 5.5 (last version supported by BC++ 5.0 was
2.4.2), which can be downloaded for free from:
http://www.borland.com/products/downloads/download_cbuilder.html
We have found that the free Turbo Explorer and commercial BDS work fine; the
debugger is very good. To avoid linker errors you will need to add
-DSHARED=1 to the makefile line for the library
The version 5.6 included in Borland C++ Builder 2006 works as well after the
following small change: please remove the test for __WINDOWS__ from line 88
of the file BCCDIR\include\stl\_threads.h.
Compiling using the makefiles:
1. Change directory to build\msw. Type 'make -f makefile.bcc' to
make the wxWidgets core library. Ignore the compiler warnings.
This produces a couple of libraries in the lib\bcc_lib directory.
2. Change directory to a sample or demo such as samples\minimal, and type
'make -f makefile.bcc'. This produces a windows exe file - by default
in the bcc_mswd subdirectory.
Note (1): the wxWidgets makefiles assume dword structure alignment. Please
make sure that your own project or makefile settings use the
same alignment, or you could experience mysterious crashes. To
change the alignment, change CPPFLAGS in build\msw\config.bcc.
Note (2): If you wish debug messages to be sent to the console in
debug mode, edit makefile.bcc and change /aa to /Tpe in link commands.
Using the Debugger and IDE in BDS or Turbo Explorer
---------------------------------------------------
Doubleclick / open samples\minimal\borland.bdsproj. The current version
is to be used with a dynamic build of wxWidgets-made by running
make -f Makefile.bcc -DBUILD=debug -DSHARED=1
in wxWidgets\build\msw. You also need the wxWidgets\lib\bcc_dll
directory in your PATH. The debugger tracks your source and also
traces into the wxWidgets sources.
To use this to debug other samples, copy the borland_ide.cpp
and borland.bdsproj files, then replace all occurrences of
"minimal" with the name of the new project files
Compilation succeeds with CBuilderX personal edition and CBuilder6, but
you may have to copy make.exe from the 5.5 download to the new bin directory.
Compiling using the IDE files for Borland C++ 5.0 and using CBuilder IDE
(v1-v6): not supported
** REMEMBER **
In all of your wxWidgets applications, your source code should include
the following preprocessor directive:
#ifdef __BORLANDC__
#pragma hdrstop
#endif
(check the samples -- e.g., \wx2\samples\minimal\minimal.cpp -- for
more details)
Borland 16 Bit Compilation for Windows 3.1
----------------------------------------------------------------
The last version of wxWidgets to support 16-bit compilation with Borland was
2.2.7 - Please download and read the instructions in that release
Watcom C++ 10.6/11 and OpenWatcom Compilation
----------------------------------------------------------------
1. Change directory to build\msw. Type 'wmake -f makefile.wat' to
make the wxWidgets core library.
2. Change directory to samples\minimal and type 'wmake -f makefile.wat'
to make this sample. Repeat for other samples of interest.
Note (1): if variant.cpp is compiled with date/time class options, the linker
gives up. So the date/time option is switched off for Watcom C++.
Also, wxAutomationObject is not compiled with Watcom C++ 10.
Note (2): RawBitmaps won't work at present because they use unsupported template
classes
Note (3): if Watcom can't read the precompiled header when building a sample,
try deleting .pch files in build\msw\wat_* and compiling
the sample again.
Note (4): wxUSE_STD_STRING is disabled in wx/string.h for Watcom as this
compiler doesn't come with standard C++ library headers by default.
If you install STLPort or another STL implementation, you'll need to
edit wx/string.h and remove the check for Digital Mars in it (search
for __WATCOM__).
Metrowerks CodeWarrior Compilation
----------------------------------------------------------------
** NOTE: We don't use Metrowerks compiler any more and so depend on
** your contributions to keep it up to date. It is possible that
** the project files mentioned below are out of date due to recently
** added files, please add them manually if you get linking errors.
** The authoritative list of files is in build/bakefiles/files.bkl
1. CodeWarrior Pro 7 project files in XML format are already
included in wxMSW-2.8.x.zip and the setup version.
2. Review the file include\wx\msw\setup.h (or include\wx\msw\setup0.h if
you are working from the SVN version) to make sure the settings reflect
what you want. If you aren't sure, leave it alone and go with the
default settings. A few notes:
- Don't use wxUSE_DEBUG_NEW_ALWAYS: it doesn't mix well with MSL
- wxUSE_GLOBAL_MEMORY_OPERATORS works, but memory leak reports
will be rather confusing due to interactions with the MSL ANSI
and runtime libs.
3. The project file to build the Win32 wxWidgets libraries relies on the
Batch File Runner plug-in. This plug-in is not installed as part of
a normal CW7 installation. However, you can find this plug-in on the
CodeWarrior Reference CD, in the Thrill Seekers folder; it's called the
"Batch File Post Linker".
4. If you choose not to install the Batch File Runner plug-in, then you
need to do the following by hand:
(1) Create the directories lib\cw7msw\include\wx and copy the file
include\wx\msw\setup.h (or include\wx\msw\setup0.h if you are
working from the SVN version) to lib\cw7msw\include\wx\setup.h
(2) Create the directories lib\cw7mswd\include\wx and copy the file
include\wx\msw\setup.h (or include\wx\msw\setup0.h if you are
working from the SVN version) to lib\cw7mswd\include\wx\setup.h
5. Import src\wxWidgetsW7.xml to create the project file wxWidgetsW7.mcp.
Store this project file in directory src. You may get warnings about
not being able to find certain project paths; ignore these warnings, the
appropriate paths will be created during the build by the Batch File Runner.
6. Choose the wxlib Win32 debug or wxlib Win32 Release target and build. You
will get some warnings about hidden virtual functions, illegal conversions
from const pointers to pointers, etc., all of which you can safely ignore.
***Note: if you get errors that the compiler can't find "wx/setup.h", just
stop the build and build again. These errors occur because sometimes the
compiler starts doing its thing before the copying of setup.h has completed.
7. The following libraries will be produced depending on chosen
target:
- wx_x86.lib ANSI Release (static)
- wx_x86_d.lib ANSI Debug (static)
8. Sorry, I haven't had time yet to create and test Unicode or DLL versions.
Volunteers for this are welcome (as neither DLLs nor Unicode builds are
big priorities for me ;).
9. CodeWarrior Pro7 project files (in XML format) are also provided for some
of the samples. In particular, there are project files for the minimal,
controls, dialogs, dnd, nd docview samples. You can use these project
files as templates for the other samples and for your own projects.
- For example, to make a project file for the "grid" sample,
just copy the project file for the "minimal" sample, minimalW7.mcp
(made by importing minimalW7.xml into CodeWarrior), into the
sample/grid directory, calling it gridW7.mcp. Open
newgridW7.mcp and revise the project by deleting the files
minimal.rc and minimal.cpp and adding the files griddemo.rc and
griddemo.cpp. Build and run....
Cygwin/MinGW Compilation
----------------------------------------------------------------
wxWidgets supports Cygwin (formerly GnuWin32) betas and
releases, and MinGW. Cygwin can be downloaded from:
http://sources.redhat.com/cygwin/
and MinGW from:
http://www.mingw.org/
Both Cygwin and MinGW can be used with configure (assuming you have MSYS
installed in case of MinGW). You will need new enough MinGW version, preferably
MinGW 2.0 (ships with gcc3) or at least 1.0 (gcc-2.95.3). GCC versions older
than 2.95.3 don't work; you can use wxWidgets 2.4 with them.
NOTE: some notes specific to old Cygwin (< 1.1.x) are at the end of this
section (see OLD VERSIONS)
There are two methods of compiling wxWidgets, by using the
makefiles provided or by using 'configure'.
Retrieve and install the latest version of Cygwin, or MinGW, as per
the instructions with either of these packages.
If using MinGW, you can download the add-on MSYS package to
provide Unix-like tools that you'll need to build wxWidgets using configure.
Using makefiles Directly
----------------------------------------------------------------
NOTE: The makefile.gcc makefiles are for compilation under MinGW using
Windows command interpreter (command.com/cmd.exe), they won't work in
other environments (such as UNIX or Unix-like, e.g. MSYS where you have
to use configure instead, see the section below)
Use the makefile.gcc files for compiling wxWidgets and samples,
e.g. to compile a debugging version of wxWidgets:
> cd c:\wx\build\msw
> mingw32-make -f makefile.gcc BUILD=debug
> cd c:\wx\samples\minimal
> mingw32-make -f makefile.gcc BUILD=debug
(See below for more options.)
Notice that Windows command interpreter (cmd.exe) and mingw32-make must be
used, using Bash (sh.exe) and make.exe from MSYS will only work when using
configure-based build procedure described below!
You can also use the 'strip' command to reduce executable/dll size (note that
stripping an executable/dll will remove debug information!).
All targets have 'clean' targets to allow removal of object files
and other intermediate compiler files.
Using configure
----------------------------------------------------------------
Instead of using the makefiles, you can use the configure
system to generate appropriate makefiles, as used on Unix
and Mac OS X systems.
Change directory to the root of the wxWidgets distribution,
make a build directory, and run configure and make in this directory.
For example:
cd $WXWIN
mkdir build-debug
cd build-debug
../configure --with-msw --enable-debug --enable-debug_gdb --disable-shared
make
make install % This step is optional, see note (6) below.
cd samples/minimal
make
./minimal.exe
Notes:
1. See also the Cygwin/MinGW on the web site or CD-ROM for
further information about using wxWidgets with these compilers.
2. libwx.a is 100 MB or more - but much less if compiled with no
debug info (-g0) and level 4 optimization (-O4).
3. If you get a link error under MinGW 2.95.2 referring to:
EnumDAdvise__11IDataObjectPP13IEnumSTATDATA@8
then you need to edit the file objidl.h at line 663 and add
a missing PURE keyword:
STDMETHOD(EnumDAdvise)(THIS_ IEnumSTATDATA**) PURE;
4. There's a bug in MinGW headers for some early distributions.
in include/windows32/defines.h, where it says:
#define LPSTR_TEXTCALLBACKA (LPSTR)-1L)
it should say:
#define LPSTR_TEXTCALLBACKA ((LPSTR)-1L)
(a missing bracket).
5. OpenGL support should work with MinGW as-is. However,
if you wish to generate import libraries appropriate either for
the MS OpenGL libraries or the SGI OpenGL libraries, go to
include/wx/msw/gl and use:
dlltool -k -d opengl.def -llibopengl.a
for the SGI DLLs, or
dlltool -k -d opengl32.def -llibopengl32.a
and similarly for glu[32].def.
6. The 'make install' step is optional, and copies files
as follows:
/usr/local/lib - wxmswXYZd.dll.a and wxmswXYZd.dll
/usr/local/include/wx - wxWidgets header files
/usr/local/bin - wx-config
You may need to do this if using wx-config with the
default root path.
7. With Cygwin, you can invoke gdb --nw myfile.exe to
debug an executable. If there are memory leaks, they will be
flagged when the program quits. You can use Cygwin gdb
to debug MinGW executables.
8. Note that gcc's precompiled headers do not work on current versions of
Cygwin. If your version of Cygwin is affected you will need to use the
--disable-precomp-headers configure option.
OLD VERSIONS:
- Modify the file wx/src/cygnus.bat (or mingw32.bat or mingegcs.bat)
to set up appropriate variables, if necessary mounting drives.
Run it before compiling.
- For Cygwin, make sure there's a \tmp directory on your
Windows drive or bison will crash (actually you don't need
bison for ordinary wxWidgets compilation: a pre-generated .c file is
supplied).
- If using GnuWin32 b18, you will need to copy windres.exe
from e.g. the MinGW distribution, to a directory in your path.
Symantec & DigitalMars C++ Compilation
----------------------------------------------------------------
The DigitalMars compiler is a free successor to the Symantec compiler
and can be downloaded from http://www.digitalmars.com/
1. You need to download and unzip in turn (later packages will overwrite
older files)
Digital Mars C/C++ Compiler Version 8.40 or later
Basic utilities
from http://www.digitalmars.com/download/freecompiler.html
2. Change directory to build\msw and type 'make -f makefile.dmc' to
make the wxWidgets core library.
3. Change directory to samples\minimal and type 'make -f makefile.dmc'
to make this sample. Most of the other samples also work.
Note that if you don't have the files makefile.dmc you may create them yourself
using bakefile tool according to the instructions in build\bakefiles\README:
cd build\bakefiles
bakefile_gen -f dmars -b wx.bkl
bakefile_gen -f dmars -b ../../samples/minimal/minimal.bkl
Note that wxUSE_STD_STRING is disabled in wx/string.h for Digital Mars as this
compiler doesn't come with standard C++ library headers by default. If you
install STLPort or another STL implementation, you'll need to edit wx/string.h
and remove the check for Digital Mars in it (search for __DMC__).
16-bit compilation is no longer supported.
Configuring the Build
================================================================
So far the instructions only explain how to build release DLLs of wxWidgets
and did not cover any configuration. It is possible to change many aspects of
the build, including debug/release and ANSI/Unicode settings. All makefiles in
build\msw directory use same options (with a few exceptions documented below)
and the only difference between them is in object files and library directory
names and in make invocation command.
Changing the Settings
----------------------------------------------------------------
There are two ways to modify the settings: either by passing the values as
arguments when invoking make or by editing build\msw\config.$(compiler) file
where $(compiler) is same extension as the makefile you use has (see below).
The latter is good for setting options that never change in your development
process (e.g. GCC_VERSION or VENDOR). If you want to build several versions of
wxWidgets and use them side by side, the former method is better. Settings in
config.* files are shared by all makefiles (samples, contrib, main library),
but if you pass the options as arguments, you must use same arguments you used
for the library when building samples or contrib libraries!
Examples of invoking make in Unicode debug build (other options described
below are set analogically):
Visual C++:
> nmake -f makefile.vc BUILD=debug UNICODE=1
Borland C++:
> make -f makefile.bcc -DBUILD=debug -DUNICODE=1
(Note that you have to use -D to set the variable, unlike in other make
tools!)
Watcom C/C++:
> wmake -f makefile.wat BUILD=debug UNICODE=1
MinGW using native makefiles:
> mingw32-make -f makefile.gcc BUILD=debug UNICODE=1
MinGW using configure:
> ./configure --enable-debug --enable-unicode
(see ./configure --help on details; configure is not covered in this
section)
Cygwin using configure:
> ./configure --disable-precomp-headers --enable-debug --enable-unicode
(use --disable-precomp-headers if Cygwin doesn't support precompiled
headers)
Brief explanation of options and possible values is in every
build\msw\config.* file; more detailed description follows.
Basic Options
----------------------------------------------------------------
BUILD=release
Builds release version of the library. It differs from default 'debug' in
lack of appended 'd' in name of library and uses the release CRT libraries
instead of debug ones. Notice that even release builds do include debug
information by default, see DEBUG_FLAG for more information about it.
SHARED=1
Build shared libraries (DLLs). By default, DLLs are not built
(SHARED=0).
UNICODE=0
To build ANSI versions of the libraries, add UNICODE=0 to make invocation
(default is UNICODE=1). If you want to be able to use Unicode version on
Windows9x, you will need to set MSLU=1 as well.
This option affect name of the library ('u' is appended) and the directory
where the library and setup.h are store (ditto).
WXUNIV=1
Build wxUniversal instead of native wxMSW (see
http://www.wxwidgets.org/wxuniv.htm for more information).
Advanced Options
----------------------------------------------------------------
MONOLITHIC=1
Starting with version 2.5.1, wxWidgets has the ability to be built as
several smaller libraries instead of single big one as used to be the case
in 2.4 and older versions. This is called "multilib build" and is the
default behaviour of makefiles. You can still build single library
("monolithic build") by setting MONOLITHIC variable to 1.
USE_GUI=0
Disable building GUI parts of the library, build only wxBase components used
by console applications. Note that if you leave USE_GUI=1 then both wxBase
and GUI libraries are built. If you are building monolithic library, then
you should set wxUSE_GUI to 1 in setup.h.
USE_OPENGL=1
Build wxmsw29_gl.lib library with OpenGL integration class wxGLCanvas.
You must also modify your setup.h to #define wxUSE_GLCANVAS 1. Note that
OpenGL library is always built as additional library, even in monolithic
build!
USE_HTML=0
Do not build wxHTML library. If MONOLITHIC=1, then you must also
#define wxUSE_HTML 1 in setup.h.
USE_XRC=0
Do not build XRC resources library. If MONOLITHIC=1, then you must also
#define wxUSE_HTML 1 in setup.h.
RUNTIME_LIBS=static
Links static version of C and C++ runtime libraries into the executable, so
that the program does not depend on DLLs provided with the compiler (e.g.
Visual C++'s msvcrt.dll or Borland's cc3250mt.dll).
Caution: Do not use static runtime libraries when building DLL (SHARED=1)!
MSLU=1
Enables MSLU (Microsoft Layer for Unicode). This setting makes sense only if
used together with UNICODE=1. If you want to be able to use Unicode version
on Windows9x, you will need MSLU (Microsoft Layer for Unicode) runtime DLL
and import lib. The former can be downloaded from Microsoft, the latter is
part of the latest Platform SDK from Microsoft (see msdn.microsoft.com for
details). An alternative implementation of import library can be downloaded
from http://libunicows.sourceforge.net - unlike the official one, this one
works with other compilers and does not require 300+ MB Platform SDK update.
DEBUG_FLAG=0
DEBUG_FLAG=1
DEBUG_FLAG=2
Specifies the level of debug support in wxWidgets. Notice that
this is independent from both BUILD and DEBUG_INFO options. By default
always set to 1 meaning that debug support is enabled: asserts are compiled
into the code (they are inactive by default in release builds of the
application but can be enabled), wxLogDebug() and wxLogTrace() are available
and __WXDEBUG__ is defined. Setting it to 0 completely disables all
debugging code in wxWidgets while setting it to 2 enables even the time
consuming assertions and checks which are deemed to be unsuitable for
production environment.
DEBUG_INFO=0
DEBUG_INFO=1
This option affects whether debugging information is generated. If
omitted or set to 'default' its value is determined the value of
the BUILD option.
TARGET_CPU=AMD64|IA64
(VC++ only.) Set this variable to build for x86_64 systems. If unset, x86
build is performed.
VENDOR=<your company name>
Set this to a short string identifying your company if you are planning to
distribute wxWidgets DLLs with your application. Default value is 'custom'.
This string is included as part of DLL name. wxWidgets DLLs contain compiler
name, version information and vendor name in them. For example
wxmsw290_core_bcc_custom.dll is one of DLLs build using Borland C++ with
default settings. If you set VENDOR=mycorp, the name will change to
wxmsw290_core_bcc_mycorp.dll.
CFG=<configuration name>
Sets configuration name so that you can have multiple wxWidgets builds with
different setup.h settings coexisting in same tree. See "Object and library
directories" below for more information.
COMPILER_PREFIX=<string>
If you build with multiple versions of the same compiler, you can put
their outputs into directories like "vc6_lib", "vc8_lib" etc. instead of
"vc_lib" by setting this variable to e.g. "vc6". This is merely a
convenience variable, you can achieve the same effect (but different
directory names) with the CFG option.
Compiler-Specific Options
----------------------------------------------------------------
* MinGW
If you are using gcc-2.95 instead of gcc3, you must set GCC_VERSION to
2.95. In build\msw\config.gcc, change
> GCC_VERSION = 3
to
> GCC_VERSION = 2.95
* Visual C++
DEBUG_RUNTIME_LIBS=0
DEBUG_RUNTIME_LIBS=1
If set to 1, msvcrtd.dll is used, if to 0, msvcrt.dll is used. By default
msvcrtd.dll is used only if the executable contains debug info and
msvcrt.dll if it doesn't. It is sometimes desirable to build with debug info
and still link against msvcrt.dll (e.g. when you want to ship the app to
customers and still have usable .pdb files with debug information) and this
setting makes it possible.
Fine-tuning the Compiler
----------------------------------------------------------------
All makefiles have variables that you can use to specify additional options
passed to the compiler or linker. You won't need this in most cases, but if you
do, simply add desired flags to CFLAGS (for C compiler), CXXFLAGS (for C++
compiler), CPPFLAGS (for both C and C++ compiler) and LDFLAGS (the linker).
Object and Library Directories
----------------------------------------------------------------
All object files produced during a library build are stored in a directory under
build\msw. Its name is derived from the build settings and CFG variable and from
the compiler name. Examples of directory names:
build\msw\bcc_msw SHARED=0
build\msw\bcc_mswdll SHARED=1
build\msw\bcc_mswunivd SHARED=0, WXUNIV=1, BUILD=debug
build\msw\vc_mswunivd ditto, with Visual C++
Libraries and DLLs are copied into a subdirectory of the lib directory with a
name derived from the compiler and a static/DLL setting and setup.h into a
directory with a name that contains other settings:
lib\bcc_msw
lib\bcc_lib\msw\wx\setup.h
lib\bcc_dll
lib\bcc_dll\msw\wx\setup.h
lib\bcc_lib
lib\bcc_lib\mswunivd\wx\setup.h
lib\vc_lib
lib\vc_lib\mswunivd\wx\setup.h
Each lib\ subdirectory has wx subdirectory with setup.h as seen above.
This file is copied there from include\wx\msw\setup.h (and if it doesn't exist,
from include\wx\msw\setup0.h) and this is the copy of setup.h that is used by
all samples and should be used by your apps as well. If you are doing changes
to setup.h, you should do them in this file, _not_ in include\wx\msw\setup.h.
If you set CFG to something, the value is appended to directory names. E.g.
for CFG=MyBuild, you'll have object files in
build\msw\bcc_mswMyBuild
build\msw\bcc_mswdllMyBuild
etc.
and libraries in
lib\bcc_libMyBuild
lib\bcc_dllMyBuild
etc.
By now it is clear what CFG is for: builds with different CFG settings don't
share any files and they use different setup.h files. For example, this allows
you to have two static debug builds, one with wxUSE_SOCKETS=0 and one with sockets
enabled (without CFG, both of them would be put into same directory and there
would be conflicts between the files).
Building Applications Using wxWidgets
=====================================
NB: The makefiles and project files provided with wxWidgets samples show which
flags should be used when building applications using wxWidgets so in case
of a problem, e.g. if the instructions here are out of date, you can always
simply copy a makefile or project file from samples\minimal or some other
sample and adapt it to your application.
Independently of the compiler and make/IDE you are using you must do the
following to use wxWidgets:
* Add $WXWIN/include to the
- compiler
- resource compiler
include paths.
* Define the following symbols for the preprocessor:
- __WXMSW__ to ensure you use the correct wxWidgets port.
- _UNICODE unless you want to use deprecated ANSI build of wxWidgets.
- NDEBUG if you want to build in release mode, i.e. disable asserts.
- WXUSINGDLL if you are using DLL build of wxWidgets.
* Add $WXWIN/lib/prefix_lib-or-dll to the libraries path. The prefix depends
on the compiler, by default it is "vc" for MSVC, "gcc" for g++ and so on.
* Add the list of libraries to link with to the linker input. The exact list
depends on which libraries you use and whether you built wxWidgets in
monolithic or default multlib mode and basically should include all the
relevant libraries from the directory above, e.g. "wxmsw29ud_core.lib
wxbase29ud.lib wxtiffd.lib wxjpegd.lib wxpngd.lib wxzlibd.lib wxregexud.lib
wxexpatd.lib" for a debug build of an application using the core library only
(all wxWidgets applications use the base library).
Microsoft Visual C++ users can simplify the linker setup by prepending the
directory $WXWIN/msvc to the include path (it must come before $WXWIN/include
directory!) and omitting the last step: the required libraries will be linked
in automatically using the "#pragma comment(lib)" feature of this compiler.