--- title: Vala short-description: Compiling Vala programs ... # Compiling Vala applications Meson has support for compiling Vala programs. A skeleton Vala file looks like this. ```meson project('valaprog', ['vala', 'c']) glib_dep = dependency('glib-2.0') gobject_dep = dependency('gobject-2.0') executable('valaprog', 'prog.vala', dependencies : [glib_dep, gobject_dep]) ``` You must always specify `glib-2.0` and `gobject-2.0` as dependencies, because all Vala applications use them. ## Using a custom VAPI When dealing with libraries that are not providing Vala bindings, a `--vapidir` flag can be added to extend the search path for the current project. ```meson project('vala app', 'c', 'vala') add_project_arguments(['--vapidir', join_paths(meson.current_source_dir(), 'vapi')], language: 'vala') glib_dep = dependency('glib-2.0') gobject_dep = dependency('gobject-2.0') foo_dep = dependency('foo') # 'foo.vapi' will be resolved in './vapi/foo.vapi' executable('app', 'app.vala', dependencies: [glib_dep, gobject_dep, foo_dep]) ``` In this case, make sure that the VAPI name corresponds to the pkg-config file. If no pkg-config file is provided, you must use `find_library`. Using`declare_dependency` is cleaner because it does not require passing both dependency objects to the target. ```meson foo_lib = meson.get_compiler('c').find_library('foo') # assuming libfoo.so is installed foo_vapi = meson.get_compiler('vala').find_library('foo', dirs: join_paths(meson.current_source_dir(), 'vapi') foo_dep = declare_dependency(dependencies: [foo_lib, foo_vapi]) executable('app', 'app.vala', dependencies: [glib_dep, gobject_dep, foo_dep]) ``` ## VAPI without pkg-config file Some Vala bindings do not need a corresponding pkg-config file and `dependency` is unsuitable for resolving them. It's necessary to use `find_library` in this case. ```meson posix_dep = meson.get_compiler('vala').find_library('posix') executable('app', 'app.vala', dependencies: [glib_dep, gobject_dep, posix_dep]) ``` ## Custom output names If a library target is used, Meson automatically outputs the C header and the VAPI. They can be renamed by setting the `vala_header` and `vala_vapi` arguments respectively. In this case, the second and third elements of the `install_dir` array indicate the destination with `true` to indicate default directories (i.e. `include` and `share/vala/vapi`). ```meson foo_lib = library('foo', 'foo.vala', vala_header: 'foo.h', vala_vapi: 'foo-1.0.vapi', dependencies: [glib_dep, gobject_dep], install: true, install_dir: [true, true, true]) ``` ## GObject Introspection To generate GObject Introspection metadata, the `vala_gir` option has to be set with the desired name. The fourth element in the `install_dir` array indicate where the GIR file will be installed. The `true` value tells Meson to use the default directory (i.e. `share/gir-1.0`). ```meson foo_lib = library('foo', 'foo.vala', vala_gir: 'Foo-1.0.gir', dependencies: [glib_dep, gobject_dep], install: true, install_dir: [true, true, true, true]) ``` For the typelib, use a custom target depending on the library: ```meson g_ir_compiler = find_program('g-ir-compiler') custom_target('foo typelib', command: [g_ir_compiler, '--output', '@OUTPUT@', '@INPUT@'], input: join_paths(meson.current_build_dir(), 'Foo-1.0.gir'), output: 'Foo-1.0.typelib', depends: foo_lib, install: true, install_dir: join_paths(get_option('libdir'), 'girepository-1.0')) ```