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---
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short-description: Contributing to Meson
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...
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# Contributing to Meson
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A large fraction of Meson is contributed by people outside the core
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team. This documentation explains some of the design rationales of
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Meson as well as how to create and submit your patches for inclusion
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to Meson.
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Thank you for your interest in participating to the development.
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## Submitting patches
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All changes must be submitted as [pull requests to
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Github](https://github.com/mesonbuild/meson/pulls). This causes them
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to be run through the CI system. All submissions must pass a full CI
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test run before they are even considered for submission.
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## Keeping pull requests up to date
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It is possible that while your pull request is being reviewed, other
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changes are committed to master that cause merge conflicts that must
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be resolved. The basic rule for this is very simple: keep your pull
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request up to date using rebase _only_.
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Do not merge head back to your branch. Any merge commits in your pull
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request make it not acceptable for merging into master and you must
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remove them.
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## Special procedure for new features
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Every new feature requires some extra steps, namely:
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- Must include a project test under `test cases/`, or if that's not
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possible or if the test requires a special environment, it must go
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into `run_unittests.py`.
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- Must be registered with the [FeatureChecks framework](Release-notes-for-0.47.0.md#feature-detection-based-on-meson_version-in-project)
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that will warn the user if they try to use a new feature while
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targeting an older meson version.
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- Needs a release note snippet inside `docs/markdown/snippets/` with
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a heading and a brief paragraph explaining what the feature does
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with an example.
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## Acceptance and merging
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The kind of review and acceptance any merge proposal gets depends on
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the changes it contains. All pull requests must be reviewed and
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accepted by someone with commit rights who is not the original
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submitter. Merge requests can be roughly split into three different
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categories.
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The first one consists of MRs that only change the markdown
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documentation under `docs/markdown`. Anyone with access rights can
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push changes to these directly to master. For major changes it is
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still recommended to create a MR so other people can comment on it.
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The second group consists of merges that don't change any
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functionality, fixes to the CI system and bug fixes that have added
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regression tests (see below) and don't change existing
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functionality. Once successfully reviewed anyone with merge rights can
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merge these to master.
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The final kind of merges are those that add new functionality or
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change existing functionality in a backwards incompatible way. These
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require the approval of the project lead.
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In a simplified list form the split would look like the following:
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- members with commit access can do:
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- documentation changes (directly to master if warranted)
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- bug fixes that don't change functionality
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- refactorings
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- new dependency types
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- new tool support (e.g. a new Doxygen-kind of tool)
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- support for new compilers to existing languages
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- project leader decision is needed for:
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- new modules
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- new functions in the Meson language
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- syntax changes for Meson files
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- changes breaking backwards compatibility
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- support for new languages
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## Strategy for merging pull requests to trunk
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Meson's merge strategy should fulfill the following guidelines:
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- preserve as much history as possible
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- have as little junk in the repo as possible
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- everything in the "master lineage" should always pass all tests
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These goals are slightly contradictory so the correct thing to do
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often requires some judgement on part of the person doing the
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merge. Github provides three different merge options, The rules of
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thumb for choosing between them goes like this:
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- single commit pull requests should always be rebased
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- a pull request with one commit and one "fixup" commit (such as
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testing something to see if it passes CI) should be squashed
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- large branches with many commits should be merged with a merge
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commit, especially if one of the commits does not pass all tests
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(which happens in e.g. large and difficult refactorings)
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If in doubt, ask for guidance on IRC.
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## Tests
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All new features must come with automatic tests that thoroughly prove
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that the feature is working as expected. Similarly bug fixes must come
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with a unit test that demonstrates the bug, proves that it has been
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fixed and prevents the feature from breaking in the future.
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Sometimes it is difficult to create a unit test for a given bug. If
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this is the case, note this in your pull request. We may permit bug
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fix merge requests in these cases. This is done on a case by case
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basis. Sometimes it may be easier to write the test than convince the
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maintainers that one is not needed. Exercise judgment and ask for help
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in problematic cases.
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The tests are split into two different parts: unit tests and full
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project tests. To run all tests, execute `./run_tests.py`. Unit tests
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can be run with `./run_unittests.py` and project tests with
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`./run_project_tests.py`.
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Each project test is a standalone project that can be compiled on its
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own. They are all in `test cases` subdirectory. The simplest way to
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run a single project test is to do something like `./meson.py test\
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cases/common/1\ trivial builddir`. The one exception to this is `test
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cases/unit` directory discussed below.
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The test cases in the `common` subdirectory are meant to be run always
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for all backends. They should only depend on C and C++, without any
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external dependencies such as libraries. Tests that require those are
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in the `test cases/frameworks` directory. If there is a need for an
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external program in the common directory, such as a code generator, it
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should be implemented as a Python script. The goal of test projects is
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also to provide sample projects that end users can use as a base for
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their own projects.
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All project tests follow the same pattern: they are compiled, tests
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are run and finally install is run. Passing means that building and
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tests succeed and installed files match the `installed_files.txt` file
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in the test's source root. Any tests that require more thorough
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analysis, such as checking that certain compiler arguments can be
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found in the command line or that the generated pkg-config files
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actually work should be done with a unit test.
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Projects needed by unit tests are in the `test cases/unit`
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subdirectory. They are not run as part of `./run_project_tests.py`.
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### Skipping integration tests
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Meson uses several continuous integration testing systems that have slightly
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different interfaces for indicating a commit should be skipped.
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Continuous integration systems currently used:
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- [Travis-CI](https://docs.travis-ci.com/user/customizing-the-build#skipping-a-build)
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allows `[skip ci]` anywhere in the commit messages.
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- [Azure Pipelines](https://docs.microsoft.com/en-us/azure/devops/pipelines/scripts/git-commands?view=vsts&tabs=yaml#how-do-i-avoid-triggering-a-ci-build-when-the-script-pushes)
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allows `***NO_CI***` in the commit message.
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- [Sider](https://sider.review)
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runs Flake8 ([see below](#python-coding-style))
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To promote consistent naming policy, use:
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- `[skip ci]` in the commit title if you want to disable all integration tests
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## Documentation
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The `docs` directory contains the full documentation that will be used
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to generate [the Meson web site](http://mesonbuild.com). Every change
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in functionality must change the documentation pages. In most cases
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this means updating the reference documentation page but bigger
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changes might need changes in other documentation, too.
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All new functionality needs to have a mention in the release
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notes. These features should be written in standalone files in the
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`docs/markdown/snippets` directory. The release manager will combine
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them into one page when doing the release.
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[Integration tests should be disabled](#skipping-integration-tests) for
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documentation-only commits by putting `[skip ci]` into commit title.
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Reviewers should ask contributors to put `[skip ci]` into the title because
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tests are run again after merge for `master`.
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## Python Coding style
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Meson follows the basic Python coding style. Additional rules are the
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following:
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- indent 4 spaces, no tabs ever
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- indent meson.build files with two spaces
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- try to keep the code as simple as possible
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- contact the mailing list before embarking on large scale projects
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to avoid wasted effort
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Meson uses Flake8 for style guide enforcement. The Flake8 options for
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the project are contained in .flake8.
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To run Flake8 on your local clone of Meson:
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```console
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$ python3 -m pip install flake8
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$ cd meson
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$ flake8
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```
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To run it automatically before committing:
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```console
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$ flake8 --install-hook=git
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$ git config --bool flake8.strict true
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```
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## C/C++ coding style
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Meson has a bunch of test code in several languages. The rules for
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those are simple.
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- indent 4 spaces, no tabs ever
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- brace always on the same line as if/for/else/function definition
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## External dependencies
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The goal of Meson is to be as easily usable as possible. The user
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experience should be "get Python3 and Ninja, run", even on
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Windows. Unfortunately this means that we can't have dependencies on
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projects outside of Python's standard library. This applies only to
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core functionality, though. For additional helper programs etc the use
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of external dependencies may be ok. If you feel that you are dealing
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with this kind of case, please contact the developers first with your
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use case.
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## Turing completeness
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The main design principle of Meson is that the definition language is
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not Turing complete. Any change that would make Meson Turing complete
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is automatically rejected. In practice this means that defining your
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own functions inside `meson.build` files and generalised loops will
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not be added to the language.
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## Do I need to sign a CLA in order to contribute?
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No you don't. All contributions are welcome.
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## No lingering state
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Meson operates in much the same way as functional programming
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languages. It has inputs, which include `meson.build` files, values of
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options, compilers and so on. These are passed to a function, which
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generates output build definition. This function is pure, which means that:
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- for any given input the output is always the same
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- running Meson twice in a row _always_ produce the same output in both runs
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The latter one is important, because it enforces that there is no way
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for "secret state" to pass between consecutive invocations of
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Meson. This is the reason why, for example, there is no `set_option`
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function even though there is a `get_option` one.
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If this were not the case, we could never know if the build output is
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"stable". For example suppose there were a `set_option` function and a
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boolean variable `flipflop`. Then you could do this:
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```meson
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set_option('flipflop', not get_option('flipflop'))
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```
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This piece of code would never converge. Every Meson run would change
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the value of the option and thus the output you get out of this build
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definition would be random.
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Meson does not permit this by forbidding these sorts of covert channels.
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There is one exception to this rule. Users can call into external
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commands with `run_command`. If the output of that command does not
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behave like a pure function, this problem arises. Meson does not try
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to guard against this case, it is the responsibility of the user to
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make sure the commands they run behave like pure functions.
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## Environment variables
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Environment variables are like global variables, except that they are
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also hidden by default. Envvars should be avoided whenever possible,
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all functionality should be exposed in better ways such as command
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line switches.
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## Random design points that fit nowhere else
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- All features should follow the 90/9/1 rule. 90% of all use cases
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should be easy, 9% should be possible and it is totally fine to not
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support the final 1% if it would make things too complicated.
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- Any build directory will have at most two toolchains: one native and
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one cross.
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- Prefer specific solutions to generic frameworks. Solve the end
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user's problems rather than providing them tools to do it
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themselves.
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- Never use features of the Unix shell (or Windows shell for that
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matter). Doing things like forwaring output with `>` or invoking
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multiple commands with `&&` are not permitted. Whenever these sorts
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of requirements show up, write an internal Python script with the
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desired functionality and use that instead.
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