forked from AuroraMiddleware/gtk
c4d350c260
Use feature options for things that are optional features, update the docs. Visible changes here is that the 'print-backends' option got renamed to 'print' to go better with 'media', and the 'tracker3' option got renamed to 'tracker'. For options that have been changed into features, the syntax now is -Dfeature=enabled or -Dfeature=disabled or -Dfeature=auto.
299 lines
12 KiB
Markdown
299 lines
12 KiB
Markdown
# Compiling the GTK Libraries {#gtk-building}
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## Building GTK
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Before we get into the details of how to compile GTK, we should
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mention that in many cases, binary packages of GTK prebuilt for
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your operating system will be available, either from your
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operating system vendor or from independent sources. If such a
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set of packages is available, installing it will get you
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programming with GTK much faster than building it yourself. In
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fact, you may well already have GTK installed on your system already.
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In order to build GTK, you will need *meson* installed on your
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system. On Linux, and other UNIX-like operating systems, you will
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also need *ninja*. This guide does not cover how to install these
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two requirements, but you can refer to the
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[Meson website](http://mesonbuild.com) for more information. The
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[Ninja](https://ninja-build.org) build tool is also usable on
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various operating systems, so we will refer to it in the examples.
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If you are building GTK from a source distribution or from a Git
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clone, you will need to use *meson* to configure the project. The
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most commonly useful argument is the `--prefix` one, which determines
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where the files will go once installed. To install GTK under a prefix
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like `/opt/gtk` you would run Meson as:
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```
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meson setup --prefix /opt/gtk builddir
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```
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Meson will create the `builddir` directory and place all the build
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artefacts there.
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You can get a list of all available options for the build by
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running `meson configure`.
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After Meson successfully configured the build directory, you then
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can run the build, using Ninja:
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```
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cd builddir
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ninja
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ninja install
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```
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If you don't have permission to write to the directory you are
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installing in, you may have to change to root temporarily before
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running `ninja install`.
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Several environment variables are useful to pass to set before
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running *meson*. `CPPFLAGS` contains options to pass to the C
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compiler, and is used to tell the compiler where to look for
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include files. The `LDFLAGS` variable is used in a similar fashion
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for the linker. Finally the `PKG_CONFIG_PATH` environment variable
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contains a search path that `pkg-config` (see below) uses when
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looking for files describing how to compile programs using different
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libraries. If you were installing GTK and it's dependencies into
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`/opt/gtk`, you might want to set these variables as:
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```
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CPPFLAGS="-I/opt/gtk/include"
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LDFLAGS="-L/opt/gtk/lib"
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PKG_CONFIG_PATH="/opt/gtk/lib/pkgconfig"
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export CPPFLAGS LDFLAGS PKG_CONFIG_PATH
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```
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You may also need to set the `LD_LIBRARY_PATH` environment variable
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so the systems dynamic linker can find the newly installed libraries,
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and the `PATH` environment program so that utility binaries installed
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by the various libraries will be found.
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```
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LD_LIBRARY_PATH="/opt/gtk/lib"
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PATH="/opt/gtk/bin:$PATH"
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export LD_LIBRARY_PATH PATH
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```
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## Build types {#build-types}
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Meson has different build types, exposed by the `buildtype`
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configuration option. GTK enables and disables functionality
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depending on the build type used when calling *meson* to
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configure the build.
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### Debug builds
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GTK will enable debugging code paths in both the `debug` and
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`debugoptimized` build types. Builds with `buildtype` set to
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`debug` will additionally enable consistency checks on the
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internal state of the toolkit.
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It is recommended to use the `debug` or `debugoptimized` build
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types when developing GTK itself. Additionally, `debug` builds of
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GTK are recommended for profiling and debugging GTK applications,
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as they include additional validation of the internal state.
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The `debugoptimized` build type is the default for GTK if no build
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type is specified when calling *meson*.
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### Release builds
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The `release` build type will disable debugging code paths and
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additional run time safeties, like checked casts for object
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instances.
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The `plain` build type provided by Meson should only be used when
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packaging GTK, and it's expected that packagers will provide their
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own compiler flags when building GTK. See the previous section for
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the list of environment variables to be used to define compiler and
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linker flags.
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## Dependencies {#dependencies}
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Before you can compile the GTK widget toolkit, you need to have
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various other tools and libraries installed on your
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system. Dependencies of GTK have their own build systems, so
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you will need to refer to their own installation instructions.
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A particular important tool used by GTK to find its dependencies
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is `pkg-config`.
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[pkg-config](https://www.freedesktop.org/wiki/Software/pkg-config/)
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is a tool for tracking the compilation flags needed for libraries
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that are used by the GTK libraries. (For each library, a small `.pc`
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text file is installed in a standard location that contains the
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compilation flags needed for that library along with version number
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information.)
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Some of the libraries that GTK depends on are maintained by the
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GTK team: GLib, GdkPixbuf, Pango, and GObject Introspection.
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Other libraries are maintained separately.
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- The GLib library provides core non-graphical functionality
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such as high level data types, Unicode manipulation, and
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an object and type system to C programs. It is available
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from [here](https://download.gnome.org/sources/glib/).
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- The [GdkPixbuf](https://git.gnome.org/browse/gdk-pixbuf/)
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library provides facilities for loading images in a variety of
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file formats. It is available [here](ttps://download.gnome.org/sources/gdk-pixbuf/).
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- [Pango](http://www.pango.org) is a library for internationalized
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text handling. It is available [here](https://download.gnome.org/sources/pango/).
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- [GObject Introspection](https://wiki.gnome.org/Projects/GObjectIntrospection)
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is a framework for making introspection data available to language
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bindings. It is available [here](https://download.gnome.org/sources/gobject-introspection/).
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- The [GNU libiconv](https://www.gnu.org/software/libiconv/) library
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is needed to build GLib if your system doesn't have the iconv()
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function for doing conversion between character encodings. Most
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modern systems should have iconv().
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- The libintl library from the [GNU gettext](https://www.gnu.org/software/gettext/)
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package is needed if your system doesn't have the gettext()
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functionality for handling message translation databases.
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- The libraries from the X window system are needed to build
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Pango and GTK. You should already have these installed on
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your system, but it's possible that you'll need to install
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the development environment for these libraries that your
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operating system vendor provides.
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- The [fontconfig](https://www.freedesktop.org/wiki/Software/fontconfig/)
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library provides Pango with a standard way of locating
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fonts and matching them against font names.
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- [Cairo](https://www.cairographics.org) is a graphics library that
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supports vector graphics and image compositing. Both Pango and GTK
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use Cairo for drawing.
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- [libepoxy](https://github.com/anholt/libepoxy) is a library that
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abstracts the differences between different OpenGL libraries. GTK
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uses it for cross-platform GL support and for its own drawing.
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- [Graphene](http://ebassi.github.io/graphene/) is a library that
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provides vector and matrix types for 2D and 3D transformations.
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GTK uses it internally for drawing.
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- The [Wayland](https://wayland.freedesktop.org) libraries are needed
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to build GTK with the Wayland backend.
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- The [shared-mime-info](https://www.freedesktop.org/wiki/Software/shared-mime-info)
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package is not a hard dependency of GTK, but it contains definitions
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for mime types that are used by GIO and, indirectly, by GTK.
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gdk-pixbuf will use GIO for mime type detection if possible.
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For this to work, shared-mime-info needs to be installed and
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`XDG_DATA_DIRS` set accordingly at configure time. Otherwise,
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gdk-pixbuf falls back to its built-in mime type detection.
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## Building and testing GTK {#building}
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First make sure that you have the necessary external
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dependencies installed: `pkg-config`, Meson, Ninja,
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the JPEG, PNG, and TIFF libraries, FreeType, and, if necessary,
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libiconv and libintl. To get detailed information about building
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these packages, see the documentation provided with the
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individual packages. On any average Linux system, it's quite likely
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you'll have all of these installed already, or they will be easily
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accessible through your operating system package repositories.
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Then build and install the GTK libraries in the order:
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GLib, Cairo, Pango, then GTK. For each library, follow the
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instructions they provide, and make sure to share common settings
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between them and the GTK build; if you are using a separate prefix
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for GTK, for instance, you will need to use the same prefix for
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all its dependencies you build. If you're lucky, this will all go
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smoothly, and you'll be ready to [start compiling your own GTK
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applications](#gtk-compiling). You can test your GTK installation
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by running the `gtk4-demo` program that GTK installs.
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If one of the projects you're configuring or building fails, look
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closely at the error messages printed; these will often provide useful
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information as to what went wrong. Every build system has its own
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log that can help you understand the issue you're encountering. If
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all else fails, you can ask for help on the
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[GTK forums](#gtk-resources).
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## Extra Configuration Options {#extra-configuration-options}
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In addition to the normal options provided by Meson, GTK defines various
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arguments that modify what should be built. All of these options are passed
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to `meson` as `-Doption=value`. Most of the time, the value can be `true` or
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`false`, or `enabled`, `disabled` or `auto`.
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To see a summary of all supported options and their allowed values, run
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```
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meson configure builddir
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```
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### `x11-backend`, `win32-backend`, `broadway-backend`, `wayland-backend` and `macos-backend`
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Enable specific backends for GDK. If none of these options
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are given, the Wayland backend will be enabled by default,
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if the platform is Linux; the X11 backend will also be enabled
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by default, unless the platform is Windows, in which case the
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default is win32, or the platform is macOS, in which case the
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default is macOS. If any backend is explicitly enabled or disabled,
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no other platform will be enabled automatically.
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### `vulkan`
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By default, GTK will try to build with support for the Vulkan graphics
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API in addition to cairo and OpenGL. This option can be used to explicitly
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control whether Vulkan should be used.
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### `xinerama`
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By default, GTK will try to link against the Xinerama libraries
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if they are found. This option can be used to explicitly control
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whether Xinerama should be used.
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### `media`
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By default, GTK will try to build the gstreamer backend for
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media playback support. This option can be used to explicitly
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control which media backends should be built.
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### `print`
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By default, GTK will try to build various print backends
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if their dependencies are found. This option can be used
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to explicitly control which print backends should be built.
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### `cloudproviders`
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This option controls whether GTK should use libcloudproviders for
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supporting various Cloud storage APIs in the file chooser.
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### `sysprof`
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This option controls whether GTK should include support for
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tracing with sysprof.
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### `tracker`
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This option controls whether GTK should use Tracker for search
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support in the file chooser.
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### `colord`
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This option controls whether GTK should use colord for color
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calibration support in the cups print backend.
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### `gtk_doc` and `man-pages`
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The *gtk-doc* package is used to generate the reference documentation
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included with GTK. By default support for *gtk-doc* is disabled
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because it requires various extra dependencies to be installed.
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If you have *gtk-doc* and *pandoc* installed and are modifying GTK,
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you may want to enable *gtk-doc* support by passing in `-Dgtk_doc=true`.
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Additionally, some tools provided by GTK have their own
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manual pages generated using a similar set of dependencies;
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if you have *xsltproc* then you can generate manual pages by
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passing `-Dman-pages=true` when configuring the build.
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### `introspection`
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Allows to disable building introspection support. This is option
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is mainly useful for shortening turnaround times on developer
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systems. Installed builds of GTK should always have introspection
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support.
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### `build-tests`, `install-tests`, `demos`
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By default, GTK will build quite a few tests and demos.
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While these are useful on a developer system, they are not
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needed when GTK is built e.g. for a flatpak runtime. These
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options allow to disable building tests and demos.
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