Installing wxWidgets for Windows {#plat_msw_install}
--------------------------------
This is wxWidgets for Microsoft Windows (XP, Vista, 7, 8, 10, etc)
including both 32 bit and 64 bit versions.
[TOC]
Installation {#msw_install}
============
If you are using one of the supported compilers, you can use
[pre-built binaries](@ref plat_msw_binaries).
In this case, just uncompress the binaries archive under any directory
and skip to [Building Applications Using wxWidgets](#msw_build_apps) part.
Otherwise, or if you want to build a configuration of the library
different from the default one, you need to build the library from
sources before using it.
If you use CMake, please see @ref overview_cmake for
building wxWidgets using it.
The first step, which you may have already performed, unless you are
reading this file online, is to download the source archive and
uncompress it in any directory. It is strongly advised to avoid using
spaces in the name of this directory, i.e. notably do *not* choose a
location under "C:\Program Files", as this risks creating problems
with makefiles and other command-line tools.
After choosing the directory location, please define WXWIN environment
variable containing the full path to this directory. While this is not
actually required, this makes using the library more convenient and
this environment variable is used in the examples below.
Building wxWidgets {#msw_build}
==================
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.
All makefiles and project are located in build\msw directory.
Microsoft Visual C++ Compilation {#msw_build_msvs}
----------------------------------------------------------------
### From the IDE
Ready to use project files are provided for VC++ versions 8, 9,
10, 11, 12, 14, 15, 16 and 17 (also known as MSVS 2005, 2008, 2010, 2012,
2013, 2015, 2017, 2019 and 2022 respectively).
Simply open `wx_vcN.sln` (for N=8, 9, 10, 11, 12, 14, 15 or 16) file,
select the appropriate configuration (Debug or Release, static or DLL)
and build the solution. Notice that when building a DLL configuration,
you may need to perform the build several times because the projects
are not always built in the correct order, and this may result in link
errors. Simply do the build again, up to 3 times, to fix this.
### From the command line
wxWidgets can also be built from the command line using the provided makefiles.
This needs to be done from the "Visual Studio Command Prompt" window, which can
be opened using a shortcut installed to the "Start" menu or the "Start" screen
by MSVS installation.
In this window, change directory to `%%WXWIN%\build\msw` and type
> nmake /f makefile.vc
to build wxWidgets in the default debug configuration as a static library. You
can also do
> nmake /f makefile.vc BUILD=release
to build a release version or
> nmake /f makefile.vc BUILD=release SHARED=1 TARGET_CPU=X86
to build a 32 bit release DLL version from an x86 command prompt, or
> nmake /f makefile.vc BUILD=release SHARED=1 TARGET_CPU=X64
to build a 64 bit release DLL version from an x64 command prompt.
See [Make Parameters](#msw_build_make_params) for more information about the
additional parameters that can be specified on the command line.
To verify your build, change the directory to `%%WXWIN%\samples\minimal` and
run the same nmake command (with the same parameters there), this should create
a working minimal wxWidgets sample.
If you need to rebuild, use "clean" target first or "nmake /a".
### Using vcpkg
You can download and install wxWidgets using the [vcpkg](https://github.com/Microsoft/vcpkg)
dependency manager:
> git clone https://github.com/Microsoft/vcpkg.git
> cd vcpkg
> bootstrap-vcpkg.bat
> vcpkg integrate install
> vcpkg install wxwidgets
The wxWidgets port in vcpkg is kept up to date by Microsoft team members and community
contributors. If the version is out of date, please [create an issue or pull request]
(https://github.com/Microsoft/vcpkg) on the vcpkg repository.
### Special notes for Visual Studio 2010+
For Visual Studio 2010+ solutions it is possible to customize the build by
creating a `wx_local.props` file in the build\msw directory which is used, if it
exists, by the projects. The settings in that file override the default values
for the properties such as wxCfg (corresponding to the CFG makefile variable
described below) or wxVendor (corresponding to VENDOR). The typical way to
make the file is to copy `wx_setup.props` to `wx_local.props` and then edit local.
For example, if you are building wxWidgets libraries using multiple versions
of Visual Studio you could change wxCompilerPrefix to include the toolset:
- vc
+ vc$(PlatformToolsetVersion)
Following that example if you are using Visual Studio 2013 and open
`wx_vc12.sln` it will build using the "vc120" prefix for the build directories
so to allow its build files to coexist with the files produced by the other
MSVC versions.
Keep in mind that by using a separate local props file you ensure that your
changes won't be lost when updating to a future wxWidgets version. But if
`wx_setup.props` is updated in some later commit your `wx_local.props` is not
updated with it. For example the version information in `wx_setup.props` could
change and the information in your `wx_local.props` would be outdated. It is
your responsibility to monitor for such situations.
### Improve debugging for Visual Studio 2012+
Debug visualizers for Visual Studio 2012+ are provided which makes inspecting
various wxWidgets classes easier to view while debugging. To use them:
1. Open the folder `%%WXWIN%\misc\msvc`
2. Open the folder `%%USERPROFILE%\My Documents\Visual Studio 2012\Visualizers`
(or the corresponding location for newer versions, e.g. `...2013\Visualizers`)
3. Copy `wxWidgets.natvis` and `autoexp.inc`
4. For Visual Studio 2013+ additionally copy `wxWidgets.2013.natvis`
MinGW Compilation {#msw_build_mingw}
----------------------------------------------------------------
wxWidgets supports several different gcc-based toolchains under Windows,
including:
- [MinGW-w64](http://mingw-w64.sourceforge.net/)
- [TDM-GCC](http://tdm-gcc.tdragon.net/)
- Classic [MinGW](http://www.mingw.org/)
Please retrieve and install the latest version of your preferred
tool chain by following the instructions provided by these packages.
Additionally note that MinGW-w64 can be used as a cross-compiler from Unix
systems, including [WSL](https://en.wikipedia.org/wiki/Windows_Subsystem_for_Linux).
All of these tool chains can be used either with Unix-like configure+make build
process (preferred) or with the provided makefile.gcc makefiles without using
configure.
### Using configure
This method works in exactly the same way as under Unix systems, and requires a
Unix-like environment to work, i.e. one of MSYS, [MSYS2](https://www.msys2.org/)
or [Cygwin](https://www.cygwin.com/), so the following steps should be done
from MSYS or Cygwin shell prompt:
1. Create a build directory: it is strongly recommended to not
build the library in the directory containing the sources (`$WXWIN`)
but to create a separate build directory instead. The build
directory can be placed anywhere (using the fastest available disk
may be a good idea), but in this example we create it as a
subdirectory of the source one:
$ cd $WXWIN
$ mkdir build-debug
$ cd build-debug
2. Run configure passing it any of the options shown by `configure
--help`. Notice that configure builds shared libraries by default,
use `--disable-shared` to build static ones. For example:
$ ../configure --enable-debug
3. Build the library:
$ make
4. Test the library build by building the minimal sample:
$ cd samples/minimal
$ make
5. Optionally install the library in a global location
$ make install
Notice that there is not much benefice to installing under Windows
so this step can usually be omitted.
### Using makefiles from Windows command line
The `makefile.gcc` makefiles are for compilation using MinGW using Windows
command interpreter (`cmd.exe`), they will *not* work if you use Unix
shell, as is the case with MSYS. Follow the instructions for using configure
above instead if you prefer to use Unix shell. The commands shown here must be
executed from a DOS command line window (cmd.exe, *not* Bash sh.exe).
1. Change directory to `%%WXWIN%\build\msw` and type
> mingw32-make -f makefile.gcc
to build wxWidgets in the default debug configuration as a static
library. Add "BUILD=release" and/or "SHARED=1" to build the library
in release configuration and/or as a shared library instead of the
default static one, see [Make Parameters](#msw_build_make_params)
for more details.
NOTE: For parallel builds, i.e. using `-jN` make option, please run
`mingw32-make -jN ... setup_h` first and then rerun the full
make command without `setup_h` at the end to work around a bug
in the current makefiles.
2. To verify your build, change the directory to samples\minimal and
run the same mingw32-make command (with the same parameters there),
this should create a working minimal wxWidgets sample.
3. If you need to rebuild, use "clean" target first.
Make Parameters {#msw_build_make_params}
================================================================
NOTE: If you use configure to build the library with MinGW, the
contents of this section does not apply, just pass the arguments
to configure directly in this case.
Library configuration
----------------------------------------------------------------
While it is never necessary to do it, you may want to change some of
the options in the `%%WXWIN%\include\wx\msw\setup.h` file before building
wxWidgets. This file is heavily commented, please read it and enable or disable
the features you would like to compile wxWidgets with[out].
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 if you edit any
configuration-specific file.
Makefile parameters
----------------------------------------------------------------
When building using makefiles, you can specify many build settings
(unlike when using the project files where you are limited to choosing
just the configuration and platform). This can be done either by
passing the values as arguments when invoking make or by editing
`build\msw\config.$compiler` file where `$compiler` is the 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 (including the
samples), but if you pass the options as arguments, you must use the same
arguments you used for the library when building samples!
For example, to build the library in release mode you can either
change the "BUILD" variable definition in `build\msw\config.$compiler`
or use
> nmake -f makefile.vc BUILD=debug
> mingw32-make -f makefile.gcc BUILD=debug
depending on the compiler used.
The full list of the build settings follows:
* `BUILD=release`
Builds release version of the library. It differs from default 'debug' in
lack of appended 'd' in name of library and uses the release CRT libraries
instead of debug ones. Notice that even release builds do include debug
information by default, see `DEBUG_FLAG` for more information about it.
* `SHARED=1`
Build shared libraries (DLLs). By default, DLLs are not built
(SHARED=0).
* `UNICODE=0`
To completely disable Unicode support (default is UNICODE=1). It should not
be necessary to do this.
This option affect name of the library ('u' is appended in the default
Unicode build) and the directory where the library and setup.h are stored
(ditto).
* `WXUNIV=1`
Build wxUniversal instead of native wxMSW
* `MONOLITHIC=1`
Starting with version 2.5.1, wxWidgets has the ability to be built as
several smaller libraries instead of single big one as used to be the case
in 2.4 and older versions. This is called "multilib build" and is the
default behaviour of makefiles. You can still build single library
("monolithic build") by setting MONOLITHIC variable to 1.
* `USE_GUI=0`
Disable building GUI parts of the library, build only wxBase components used
by console applications. Note that if you leave `USE_GUI=1` then both wxBase
and GUI libraries are built.
* `USE_$LIBRARY=0`
Do not build the corresponding library (all libraries are built by
default). Library which can be disabled in this way are: AUI, HTML,
MEDIA, GL (the option name is `USE_OPENGL` for this one), PROPGRID,
QA, RIBBON, RICHTEXT, STC, WEBVIEW, XRC.
* `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).
Caution: Do not use static runtime libraries when building DLL (SHARED=1)!
* `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.
* `DEBUG_RUNTIME_LIBS=0`
* `DEBUG_RUNTIME_LIBS=1`
(VC++ only.) 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.
* `TARGET_CPU=X64|ARM64|IA64`
(VC++ only.) Set this variable to build for x86_64 systems. If unset, x86
build is performed.
* `VENDOR=`
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
`wxmsw311u_core_vc_custom.dll` is one of DLLs build using Visual C++ with
default settings. If you set VENDOR=mycorp, the name will change to
`wxmsw311u_core_vc_mycorp.dll.`
* `CFG=`
Sets configuration name so that you can have multiple wxWidgets builds with
different setup.h settings coexisting in same tree. The value of
this option is appended to the build directories names. This is
useful for building the library in some non-default configuration,
e.g. you could change `wxUSE_STL` to 1 in `%%WXWIN%\include\wx\msw\setup.h` and
then build with `CFG=-stl`. Alternatively, you could build with e.g.
`RUNTIME_LIBS=static CFG=-mt` when using MSVC.
* `COMPILER_PREFIX=`
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.
* CFLAGS
* CXXFLAGS
* CPPFLAGS
* LDFLAGS
Additional flags to be used with C compiler, C++ compiler, C
preprocessor (used for both C and C++ compilation) and linker,
respectively.
Building Applications Using wxWidgets {#msw_build_apps}
=====================================
If you use MSVS 2010 or later IDE for building your project, simply add
`wxwidgets.props` property sheet to (all) your project(s) using wxWidgets
by using "View|Property Manager" menu item to open the property manager
window and then selecting "Add Existing Property Sheet..." from the context
menu in this window.
If you've created a new empty project (i.e. chose "Empty Project" in the
"Create a new project" window shown by MSVS rather than "Windows Desktop"),
you need to change "Linker|System|SubSystem" in the project properties to
"Windows", from the default "Console". You don't need to do anything else.
If you want to use CMake for building your project, please see
@ref overview_cmake.
Otherwise follow the instructions below for "manual" setup of your project.
We suppose that wxWidgets sources are under the directory `$WXWIN` (notice that
different tool chains refer to environment variables such as WXWIN in
different ways, e.g. MSVC users should use `$``(WXWIN)` instead of just
`$WXWIN`). And we will use `` as a shortcut for the subdirectory of
`$WXWIN\lib` which is composed from several parts separated by underscore:
first, a compiler-specific prefix (e.g. "vc" for MSVC, "gcc" for g++ or the
value of `COMPILER_PREFIX` if you set it explicitly), then optional "x64" if
building in 64 bits and finally either "lib" or "dll" depending on whether
static or dynamic wx libraries are being used.
For example, WXWIN could be "c:\wxWidgets\3.4.5" and `` could be
`c:\wxWidgets\3.4.5\lib\vc_x64_lib` for 64-bit static libraries built with
MSVC.
Here is what you need to do:
* Add `$WXWIN\include` to the
- compiler
- resource compiler
include paths.
* If using MSVC, prepend `$WXWIN\include\msvc` to the include paths too.
Otherwise, append `\mswu[d]` to the include paths, where "d" should
be used for debug builds only.
* 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.
* If using MSVC 7 only (i.e. not for later versions), also define
`wxUSE_RC_MANIFEST=1` and `WX_CPU_X86`.
* Add `` directory described above to the libraries path.
When using MSVC, the libraries are linked automatically using "#pragma
comment(lib)" feature of this compiler. With all the other compilers you also
need to:
* 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. `wxmsw31ud_core.lib
wxbase31ud.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).
Finally, please notice that the makefiles and project files provided with
wxWidgets samples show which flags should be used when building applications
using wxWidgets and always work, 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 `$WXWIN\samples\minimal` or some other sample and adapt it to
your application.
If you are not using Visual Studio 2010 or newer please see
@subpage plat_msw_winxp "Windows XP Support" to enable visual styles in your
application.
Advanced Library Configurations {#msw_advanced}
===============================
Build instructions to less common library configurations using different UI
backends are available here.
@subpage plat_msw_msys2 "Building with Win32 MSys2 backend"
@subpage plat_msw_msys2_gtk "Building with Win32 MSys2 GDK backend"
@subpage plat_msw_gtk "Building wxGTK port with Win32 GDK backend"
@subpage plat_msw_msys2_qt "Building with Win32 MSys2 Qt backend"