--- title: Release 0.45 short-description: Release notes for 0.45 ... # New features ## Python minimum version is now 3.5 Meson will from this version on require Python version 3.5 or newer. ## Config-Tool based dependencies can be specified in a cross file Tools like LLVM and pcap use a config tool for dependencies, this is a script or binary that is run to get configuration information (cflags, ldflags, etc) from. These binaries may now be specified in the `binaries` section of a cross file. ```ini [binaries] cc = ... llvm-config = '/usr/bin/llvm-config32' ``` ## Visual Studio C# compiler support In addition to the Mono C# compiler we also support Visual Studio's C# compiler. Currently this is only supported on the Ninja backend. ## Removed two deprecated features The standalone `find_library` function has been a no-op for a long time. Starting with this version it becomes a hard error. There used to be a keywordless version of `run_target` which looked like this: ```meson run_target('targetname', 'command', 'arg1', 'arg2') ``` This is now an error. The correct format for this is now: ```meson run_target('targetname', command : ['command', 'arg1', 'arg2']) ``` ## Experimental FPGA support This version adds support for generating, analysing and uploading FPGA programs using the [IceStorm toolchain](http://www.clifford.at/icestorm/). This support is experimental and is currently limited to the `iCE 40` series of FPGA chips. FPGA generation integrates with other parts of Meson seamlessly. As an example, [here](https://github.com/jpakkane/lm32) is an example project that compiles a simple firmware into Verilog and combines that with an lm32 softcore processor. ## Generator outputs can preserve directory structure Normally when generating files with a generator, Meson flattens the input files so they all go in the same directory. Some code generators, such as Protocol Buffers, require that the generated files have the same directory layout as the input files used to generate them. This can now be achieved like this: ```meson g = generator(...) # Compiles protobuf sources generated = gen.process('com/mesonbuild/one.proto', 'com/mesonbuild/two.proto', preserve_path_from : meson.current_source_dir()) ``` This would cause the following files to be generated inside the target private directory: com/mesonbuild/one.pb.h com/mesonbuild/one.pb.cc com/mesonbuild/two.pb.h com/mesonbuild/two.pb.cc ## Hexadecimal string literals Hexadecimal integer literals can now be used in build and option files. ```meson int_255 = 0xFF ``` ## b_ndebug : if-release The value `if-release` can be given for the `b_ndebug` project option. This will make the `NDEBUG` pre-compiler macro to be defined for release type builds as if the `b_ndebug` project option had had the value `true` defined for it. ## `install_data()` defaults to `{datadir}/{projectname}` If `install_data()` is not given an `install_dir` keyword argument, the target directory defaults to `{datadir}/{projectname}` (e.g. `/usr/share/myproj`). ## install_subdir() supports strip_directory If strip_directory=true install_subdir() installs directory contents instead of directory itself, stripping basename of the source directory. ## Integer options There is a new integer option type with optional minimum and maximum values. It can be specified like this in the `meson_options.txt` file: ```meson option('integer_option', type : 'integer', min : 0, max : 5, value : 3) ``` ## New method meson.project_license() The `meson` builtin object now has a `project_license()` method that returns a list of all licenses for the project. ## Rust cross-compilation Cross-compilation is now supported for Rust targets. Like other cross-compilers, the Rust binary must be specified in your cross file. It should specify a `--target` (as installed by `rustup target`) and a custom linker pointing to your C cross-compiler. For example: ```ini [binaries] c = '/usr/bin/arm-linux-gnueabihf-gcc-7' rust = [ 'rustc', '--target', 'arm-unknown-linux-gnueabihf', '-C', 'linker=/usr/bin/arm-linux-gnueabihf-gcc-7', ] ``` ## Rust compiler-private library disambiguation When building a Rust target with Rust library dependencies, an `--extern` argument is now specified to avoid ambiguity between the dependency library, and any crates of the same name in `rustc`'s private sysroot. ## Project templates Meson ships with predefined project templates. To start a new project from scratch, simply go to an empty directory and type: meson init --name=myproject --type=executable --language=c ## Improve test setup selection Test setups are now identified (also) by the project they belong to and it is possible to select the used test setup from a specific project. E.g. to use a test setup `some_setup` from project `some_project` for all executed tests one can use meson test --setup some_project:some_setup Should one rather want test setups to be used from the same project as where the current test itself has been defined, one can use just meson test --setup some_setup In the latter case every (sub)project must have a test setup `some_setup` defined in it. ## Can use custom targets as Windows resource files The `compile_resources()` function of the `windows` module can now be used on custom targets as well as regular files. # Can promote dependencies with wrap command The `promote` command makes it easy to copy nested dependencies to the top level. meson wrap promote scommon This will search the project tree for a subproject called `scommon` and copy it to the top level. If there are many embedded subprojects with the same name, you have to specify which one to promote manually like this: meson wrap promote subprojects/s1/subprojects/scommon ## Yielding subproject option to superproject Normally project options are specific to the current project. However sometimes you want to have an option whose value is the same over all projects. This can be achieved with the new `yield` keyword for options. When set to `true`, getting the value of this option in `meson.build` files gets the value from the option with the same name in the master project (if such an option exists).