mirror of
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eeadd57a14
This is a follow-up to7e821441c4
ande154e3325e
removing some remaining references to __int64 which are no longer necessary. Signed-off-by: Philip Withnall <withnall@endlessm.com> https://gitlab.gnome.org/GNOME/glib/issues/1313
251 lines
12 KiB
Plaintext
251 lines
12 KiB
Plaintext
Tor Lillqvist <tml@iki.fi>
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Hans Breuer <hans@breuer.org>
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Note that this document is not really maintained in a serious
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fashion. Lots of information here might be misleading or outdated. You
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have been warned.
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The general parts, and the section about gcc and autoconfiscated
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build, and about a Visual Studio build are by Tor Lillqvist.
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General
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=======
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For prebuilt binaries (DLLs and EXEs) and developer packages (headers,
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import libraries) of GLib, Pango, GTK+ etc for Windows, go to
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http://www.gtk.org/download-windows.html . They are for "native"
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Windows meaning they use the Win32 API and Microsoft C runtime library
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only. No POSIX (Unix) emulation layer like Cygwin in involved.
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To build GLib on Win32, you can use either gcc ("mingw") or the
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Microsoft compiler and tools. For the latter, MSVC6 and later have
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been used successfully. Also the Digital Mars C/C++ compiler has
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reportedly been used.
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You can also cross-compile GLib for Windows from Linux using the
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cross-compiling mingw packages for your distro.
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Note that to just *use* GLib on Windows, there is no need to build it
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yourself.
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On Windows setting up a correct build environment can be quite a task,
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especially if you are used to just type "./configure; make" on Linux,
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and expect things to work as smoothly on Windows.
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The following preprocessor macros are to be used for conditional
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compilation related to Win32 in GLib-using code:
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- G_OS_WIN32 is defined when compiling for native Win32, without
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any POSIX emulation, other than to the extent provided by the
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bundled Microsoft C library (msvcr*.dll).
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- G_WITH_CYGWIN is defined if compiling for the Cygwin
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environment. Note that G_OS_WIN32 is *not* defined in that case, as
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Cygwin is supposed to behave like Unix. G_OS_UNIX *is* defined by a GLib
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for Cygwin.
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- G_PLATFORM_WIN32 is defined when either G_OS_WIN32 or G_WITH_CYGWIN
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is defined.
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These macros are defined in glibconfig.h, and are thus available in
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all source files that include <glib.h>.
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Additionally, there are the compiler-specific macros:
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- __GNUC__ is defined when using gcc
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- _MSC_VER is defined when using the Microsoft compiler
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- __DMC__ is defined when using the Digital Mars C/C++ compiler
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G_OS_WIN32 implies using the Microsoft C runtime, normally
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msvcrt.dll. GLib is not known to work with the older crtdll.dll
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runtime, or the static Microsoft C runtime libraries libc.lib and
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libcmt.lib. It apparently does work with the debugging version of
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msvcrt.dll, msvcrtd.dll. If compiled with Microsoft compilers newer
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than MSVC6, it also works with their compiler-specific runtimes, like
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msvcr70.dll or msvcr80.dll. Please note that it's non totally clear if
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you would be allowed by the license to distrubute a GLib linked to
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msvcr70.dll or msvcr80.dll, as those are not part of the operating
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system, but of the MSVC product. msvcrt.dll is part of Windows.
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For people using Visual Studio 2005 or later:
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If you are building GLib-based libraries or applications, or GLib itself
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and you see a C4819 error (or warning, before C4819 is treated as an error
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in msvc_recommended_pragmas.h), please be advised that this error/warning should
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not be disregarded, as this likely means portions of the build is not being
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done correctly, as this is an issue of Visual Studio running on CJK (East Asian)
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locales. This is an issue that also affects builds of other projects, such as
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QT, Firefox, LibreOffice/OpenOffice, Pango and GTK+, along with many other projects.
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To overcome this problem, please set your system's locale setting for non-Unicode to
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English (United States), reboot, and restart the build, and the code should build
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normally. See also this GNOME Wiki page [1] that gives a bit further info on this.
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In Visual Studio 2015 and later, the /utf-8 option is provided, which is set by the
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latest Meson releases when building GLib, and can be used in other project files
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that uses GLib to avoid the need of setting your system's locale setting for
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non-Unicode and the subsequent requirement to restart the system.
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Building software that use GLib or GTK+
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=======================================
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Building software that just *uses* GLib or GTK+ also require to have
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the right compiler set up the right way. If you intend to use gcc,
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follow the relevant instructions below in that case, too.
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Tor uses gcc with the -mms-bitfields flag which means that in order to
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use the prebuilt DLLs (especially of GTK+), if you compile your code
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with gcc, you *must* also use that flag. This flag means that the
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struct layout rules are identical to those used by MSVC. This is
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essential if the same DLLs are to be usable both from gcc- and
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MSVC-compiled code. Such compatibility is desirable.
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When using the prebuilt GLib DLLs that use msvcrt.dll from code that
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uses other C runtimes like for example msvcr70.dll, one should note
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that one cannot use such GLib API that take or returns file
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descriptors. On Windows, a file descriptor (the small integer as
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returned by open() and handled by related functions, and included in
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the FILE struct) is an index into a table local to the C runtime
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DLL. A file descriptor in one C runtime DLL does not have the same
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meaning in another C runtime DLL.
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Building GLib
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=============
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Again, first decide whether you really want to do this.
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Before building GLib you must also have a GNU gettext-runtime
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developer package. Get prebuilt binaries of gettext-runtime from
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http://www.gtk.org/download-windows.html .
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Autoconfiscated build (with gcc)
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================================
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Tor uses gcc 3.4.5 and the rest of the mingw utilities, including MSYS
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from www.mingw.org. Somewhat earlier or later versions of gcc
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presumably also work fine.
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Using Cygwin's gcc with the -mno-cygwin switch is not recommended. In
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theory it should work, but Tor hasn't tested that lately. It can
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easily lead to confusing situations where one mixes headers for Cygwin
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from /usr/include with the headers for native software one really
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should use. Ditto for libraries.
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If you want to use mingw's gcc, install gcc, win32api, binutils and
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MSYS from www.mingw.org.
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Tor invokes configure using:
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CC='gcc -mtune=pentium3 -mthreads' CPPFLAGS='-I/opt/gnu/include' \
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LDFLAGS='-L/opt/gnu/lib -Wl,--enable-auto-image-base' CFLAGS=-O2 \
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./configure --disable-gtk-doc --prefix=$TARGET
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The /opt/gnu mentioned contains the header files for GNU and (import)
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libraries for GNU libintl. The build scripts used to produce the
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prebuilt binaries are included in the "dev" packages.
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Please note that the ./configure mechanism should not blindly be used
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to build a GLib to be distributed to other developers because it
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produces a compiler-dependent glibconfig.h.
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Except for this and a few other minor issues, there shouldn't be any
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reason to distribute separate GLib headers and DLLs for gcc and MSVC6
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users, as the compilers generate code that uses the same C runtime
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library.
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The DLL generated by either compiler is binary compatible with the
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other one. Thus one either has to manually edit glibconfig.h
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afterwards.
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For MSVC7 and later (Visual C++ .NET 2003, Visual C++ 2005, Visual C++
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2008 etc) it is preferred to use specific builds of GLib DLLs that use
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the same C runtime as the code that uses GLib.
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For GLib, the DLL that uses msvcrt.dll is called libglib-2.0-0.dll,
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and the import libraries libglib-2.0.dll.a and glib-2.0.lib. Note that
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the "2.0" is part of the "basename" of the library, it is not
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something that libtool has added. The -0 suffix is added by libtool
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and is the value of "LT_CURRENT - LT_AGE". The 0 should *not* be
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thought to be part of the version number of GLib. The LT_CURRENT -
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LT_AGE value will on purpose be kept as zero as long as binary
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compatibility is maintained. For the gory details, see configure.ac
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and libtool documentation.
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Building with Visual Studio
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===========================
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Meson is now the supported method of building GLib using Visual Studio.
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Note that you will need a libintl implementation, zlib, and libFFI, and
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optionally PCRE1, which should preferably be built with the same compiler
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that is now being used to build GLib. Ensure that their headers, .lib's
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and DLLs can be found in the paths specified by the INCLUDE, LIB and PATH
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envvars. The Meson build process will pull in a copy of the ZLib and the
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libFFI sources if they cannot be found, and will build an in-source copy
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of PCRE1 if PCRE1 cannt be found.
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One can also refer to the following page for building the dependencies:
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https://wiki.gnome.org/Projects/GTK%2B/Win32/MSVCCompilationOfGTKStack
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You will also need the following items:
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-Python 3.6.x, you need the 32-bit version if you are building GLib
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as a 32-bit/x86 build, or the amd64/x64 version for building 64-bit/x86-64
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builds. You will then need to install or update Meson by using pip.
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-The Ninja build tool, required for Visual Studio 2008, 2012 and 2013 builds,
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and optional for 2010, 2015 and 2017 builds, where Visual Studio projects
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can be generated instead of the Ninja build files.
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-GIT for Windows is highly recommended, in the case where some required
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dependencies are not found, and Meson makes use of GIT to download
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the sources to build in the build process.
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To do a build using Meson, do the following:
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-Open a Visual Studio (or SDK) command prompt that matches the Visual Studio
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version and build platform (Win32/x86, x64, etc.) that will be used in all
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the following steps.
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-Create an empty directory/folder for the build. It needs to be in the same
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drive as where your GLib sources are located (i.e. $(GLIB_SRCDIR)). cd into
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that directory/folder.
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-Setup your PATH envvar:
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set PATH=%PATH%;$(PYTHON_INSTALL_DIR);$(NINJA_DIR)
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where PYTHON_INSTALL_DIR is where Python 3.6.x+ is installed to, and NINJA_DIR
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is where your ninja executable can be found. The NINJA_DIR can be omitted if one
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passes --backend=vs to the Meson configuration line, for Visual Studio 2010, 2015
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and 2017 builds.
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-Configure the build using Meson:
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python $(PYTHON_INSTALL_DIR)\scripts\meson.py $(GLIB_SRCDIR) --buildtype=$(build_configuration) --prefix=$(INSTALL_PREFIX) [--backend=vs]
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Please see the Meson docs for an explanation for --buildtype, the path passed for
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--prefix need not to be on the same drive as where the build is carried out, but
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it is recommended to use forward slashes for this path. The --backend=vs can be
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used if the Visual Studio project generator is preferred over using Ninja, for
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Visual Studio 2010, 2015 and 2017 builds.
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-Build, test and install the build:
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Run ninja (and ninja test and ninja install) or open the generated Visual Studio
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projects to compile, test and install the build.
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Note that if building the sources with Visual Studio 2008, note the following
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additional items:
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-You need to run the following lines from your build directory, to embed the manifests
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that are generated during the build, assuming the built binaries are installed
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to $(PREFIX), after a successful build/installation:
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for /r %f in (*.dll.manifest) do if exist $(PREFIX)\bin\%~nf mt /manifest %f $(PREFIX)\bin\%~nf;2
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for /r %f in (*.exe.manifest) do if exist $(PREFIX)\bin\%~nf mt /manifest %f $(PREFIX)\bin\%~nf;1
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-If building for amd64/x86_64/x64, sometimes the compilation of sources may seem to hang, which
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is caused by an optimization issue in the 2008 x64 compiler. You need to use Task Manager to
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remove all running instances of cl.exe, which will cause the build process to terminate. Update
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the build flags of the sources that hang on compilation by changing its "/O2" flag to "/O1"
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in build.ninja, and retry the build, where things should continue to build normally. At the
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time of writing, this is needed for compiling glib/gtestutils.c, gio/gsettings.c and
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gio/gsettingsschema.c
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