--- title: Release 0.55.0 short-description: Release notes for 0.55.0 ... # New features ## rpath removal now more careful On Linux-like systems, meson adds rpath entries to allow running apps in the build tree, and then removes those build-time-only rpath entries when installing. Rpath entries may also come in via LDFLAGS and via .pc files. Meson used to remove those latter rpath entries by accident, but is now more careful. ## Added ability to specify targets in `meson compile` It's now possible to specify targets in `meson compile`, which will result in building only the requested targets. Usage: `meson compile [TARGET [TARGET...]]` `TARGET` has the following syntax: `[PATH/]NAME[:TYPE]`. `NAME`: name of the target from `meson.build` (e.g. `foo` from `executable('foo', ...)`). `PATH`: path to the target relative to the root `meson.build` file. Note: relative path for a target specified in the root `meson.build` is `./`. `TYPE`: type of the target (e.g. `shared_library`, `executable` and etc) `PATH` and/or `TYPE` can be ommited if the resulting `TARGET` can be used to uniquely identify the target in `meson.build`. For example targets from the following code: ```meson shared_library('foo', ...) static_library('foo', ...) executable('bar', ...) ``` can be invoked with `meson compile foo:shared_library foo:static_library bar`. ## Test protocol for gtest Due to the popularity of Gtest (google test) among C and C++ developers meson now supports a special protocol for gtest. With this protocol meson injects arguments to gtests to output JUnit, reads that JUnit, and adds the output to the JUnit it generates. ## meson.add_*_script methods accept new types All three (`add_install_script`, `add_dist_script`, and `add_postconf_script`) now accept ExternalPrograms (as returned by `find_program`), Files, and the output of `configure_file`. The dist and postconf methods cannot accept other types because of when they are run. While dist could, in theory, take other dependencies, it would require more extensive changes, particularly to the backend. ```meson meson.add_install_script(find_program('foo'), files('bar')) meson.add_dist_script(find_program('foo'), files('bar')) meson.add_postconf_script(find_program('foo'), files('bar')) ``` The install script variant is also able to accept custom_targets, custom_target indexes, and build targets (executables, libraries), and can use built executables a the script to run ```meson installer = executable('installer', ...) meson.add_install_script(installer, ...) meson.add_install_script('foo.py', installer) ``` ## Machine file constants Native and cross files now support string and list concatenation using the `+` operator, and joining paths using the `/` operator. Entries defined in the `[constants]` section can be used in any other section. An entry defined in any other section can be used only within that same section and only after it has been defined. ```ini [constants] toolchain = '/toolchain' common_flags = ['--sysroot=' + toolchain + '/sysroot'] [properties] c_args = common_flags + ['-DSOMETHING'] cpp_args = c_args + ['-DSOMETHING_ELSE'] [binaries] c = toolchain + '/gcc' ``` ## Configure CMake subprojects with meson.subproject_options Meson now supports passing configuration options to CMake and overriding certain build details extracted from the CMake subproject. The new CMake configuration options object is very similar to the [configuration data object](Reference-manual.md#configuration-data-object) object returned by [`configuration_data`](Reference-manual.md#configuration_data). It is generated by the `subproject_options` function All configuration options have to be set *before* the subproject is configured and must be passed to the `subproject` method via the `options` key. Altering the configuration object won't have any effect on previous `cmake.subproject` calls. **Note:** The `cmake_options` kwarg for the `subproject` function is now deprecated since it is replaced by the new `options` system. ## find_program: Fixes when the program has been overridden by executable When a program has been overridden by an executable, the returned object of find_program() had some issues: ```meson # In a subproject: exe = executable('foo', ...) meson.override_find_program('foo', exe) # In main project: # The version check was crashing meson. prog = find_program('foo', version : '>=1.0') # This was crashing meson. message(prog.path()) # New method to be consistent with built objects. message(prog.full_path()) ``` ## Response files enabled on Linux, reined in on Windows Meson used to always use response files on Windows, but never on Linux. It now strikes a happier balance, using them on both platforms, but only when needed to avoid command line length limits. ## `unstable-kconfig` module renamed to `unstable-keyval` The `unstable-kconfig` module is now renamed to `unstable-keyval`. We expect this module to become stable once it has some usage experience, specifically in the next or the following release ## Fatal warnings in `gnome.generate_gir()` `gnome.generate_gir()` now has `fatal_warnings` keyword argument to abort when a warning is produced. This is useful for example in CI environment where it's important to catch potential issues. ## b_ndebug support for D language compilers D Language compilers will now set -release/--release/-frelease (depending on the compiler) when the b_ndebug flag is set. ## Meson test now produces JUnit xml from results Meson will now generate a JUnit compatible XML file from test results. it will be in the meson-logs directory and is called testlog.junit.xml. ## Config tool based dependencies no longer search PATH for cross compiling Before 0.55.0 config tool based dependencies (llvm-config, cups-config, etc), would search system $PATH if they weren't defined in the cross file. This has been a source of bugs and has been deprecated. It is now removed, config tool binaries must be specified in the cross file now or the dependency will not be found. ## Rename has_exe_wrapper -> can_run_host_binaries The old name was confusing as it didn't really match the behavior of the function. The old name remains as an alias (the behavior hasn't changed), but is now deprecated. ## String concatenation in meson_options.txt It is now possible to use string concatenation (with the `+` opperator) in the meson_options.txt file. This allows splitting long option descriptions. ```meson option( 'testoption', type : 'string', value : 'optval', description : 'An option with a very long description' + 'that does something in a specific context' ) ``` ## Wrap fallback URL Wrap files can now define `source_fallback_url` and `patch_fallback_url` to be used in case the main server is temporaly down. ## Clang coverage support llvm-cov is now used to generate coverage information when clang is used as the compiler. ## Local wrap source and patch files It is now possible to use the `patch_filename` and `source_filename` value in a `.wrap` file without `*_url` to specify a local source / patch file. All local files must be located in the `subprojects/packagefiles` directory. The `*_hash` entries are optional with this setup. ## Local wrap patch directory Wrap files can now specify `patch_directory` instead of `patch_filename` in the case overlay files are local. Every files in that directory, and subdirectories, will be copied to the subproject directory. This can be used for example to add `meson.build` files to a project not using Meson build system upstream. The patch directory must be placed in `subprojects/packagefiles` directory. ## Patch on all wrap types `patch_*` keys are not limited to `wrap-file` any more, they can be specified for all wrap types. ## link_language argument added to all targets Previously the `link_language` argument was only supposed to be allowed in executables, because the linker used needs to be the linker for the language that implements the main function. Unfortunately it didn't work in that case, and, even worse, if it had been implemented properly it would have worked for *all* targets. In 0.55.0 this restriction has been removed, and the bug fixed. It now is valid for `executable` and all derivative of `library`. ## meson dist --no-tests `meson dist` has a new option `--no-tests` to skip build and tests of generated packages. It can be used to not waste time for example when done in CI that already does its own testing. ## Force fallback for A newly-added `--force-fallback-for` command line option can now be used to force fallback for specific subprojects. Example: ``` meson build --force-fallback-for=foo,bar ``` ## Implicit dependency fallback `dependency('foo')` now automatically fallback if the dependency is not found on the system but a subproject wrap file or directory exists with the same name. That means that simply adding `subprojects/foo.wrap` is enough to add fallback to any `dependency('foo')` call. It is however requires that the subproject call `meson.override_dependency('foo', foo_dep)` to specify which dependency object should be used for `foo`. ## Wrap file `provide` section Wrap files can define the dependencies it provides in the `[provide]` section. When `foo.wrap` provides the dependency `foo-1.0` any call do `dependency('foo-1.0')` will automatically fallback to that subproject even if no `fallback` keyword argument is given. See [Wrap documentation](Wrap-dependency-system-manual.md#provide_section). ## `find_program()` fallback When a program cannot be found on the system but a wrap file has its name in the `[provide]` section, that subproject will be used as fallback. ## Test scripts are given the exe wrapper if needed Meson will now set the `MESON_EXE_WRAPPER` as the properly wrapped and joined representation. For Unix-like OSes this means python's shelx.join, on Windows an implementation that attempts to properly quote windows argument is used. This allow wrapper scripts to run test binaries, instead of just skipping. for example, if the wrapper is `['emulator', '--script']`, it will be passed as `MESON_EXE_WRAPPER="emulator --script"`. ## Added ability to specify backend arguments in `meson compile` It's now possible to specify backend specific arguments in `meson compile`. Usage: `meson compile [--vs-args=args] [--ninja-args=args]` ``` --ninja-args NINJA_ARGS Arguments to pass to `ninja` (applied only on `ninja` backend). --vs-args VS_ARGS Arguments to pass to `msbuild` (applied only on `vs` backend). ``` These arguments use the following syntax: If you only pass a single string, then it is considered to have all values separated by commas. Thus invoking the following command: ``` $ meson compile --ninja-args=-n,-d,explain ``` would add `-n`, `-d` and `explain` arguments to ninja invocation. If you need to have commas or spaces in your string values, then you need to pass the value with proper shell quoting like this: ``` $ meson compile "--ninja-args=['a,b', 'c d']" ``` ## Introspection API changes dumping the AST (--ast): **new in 0.55.0** - prints the AST of a meson.build as JSON ## `--backend=vs` now matches `-Db_vscrt=from_buildtype` behaviour in the Ninja backend When `--buildtype=debugoptimized` is used with the Ninja backend, the VS CRT option used is `/MD`, which is the [behaviour documented for all backends](https://mesonbuild.com/Builtin-options.html#b_vscrt-from_buildtype). However, the Visual Studio backend was pass `/MT` in that case, which is inconsistent. If you need to use the MultiThreaded CRT, you should explicitly pass `-Db_vscrt=mt`