- GETTING INVOLVED
- NEW FEATURES
- BRANCH LAYOUT
- STANDARD WORKFLOW
- APPROVAL WORKFLOW
- RELEASE WORKFLOW
- EMERGENCY BUG WORKFLOW (for immediate release)
- PROJECT WORKFLOW
- THE "PU" BRANCH
- BRANCH ARCHIVAL
- TESTS, TESTS, TESTS
- BACKWARDS COMPATIBILITY
- COPYRIGHT AND LICENSE
Moose::Manual::Contributing - How to get involved in Moose
Moose is an open project, and we are always willing to accept bug fixes, more tests, and documentation patches. Commit bits are given out freely, and the "STANDARD WORKFLOW" is very simple. The general gist is: clone the Git repository, create a new topic branch, hack away, then find a committer to review your changes.
Note that this document applies to both Moose and Class::MOP development.
Moose already has a fairly large feature set, and we are currently not looking to add any major new features to it. If you have an idea for a new feature in Moose, you are encouraged to create a MooseX module first.
At this stage, no new features will even be considered for addition into the core without first being vetted as a MooseX module, unless it is absolutely 100% impossible to implement the feature outside the core.
If you think it is 100% impossible, please come discuss it with us on IRC or via e-mail. Your feature may need a small hook in the core, or a refactoring of some core modules, and we are definitely open to that.
Moose was built from the ground up with the idea of being highly extensible, and quite often the feature requests we see can be implemented through small extensions. Try it, it's much easier than you might think.
As Moose has matured, some structure has emerged in the process.
- Contributors - people creating a topic or branch
If you have commit access, you can create a topic on the main Moose.git repository. If you don't have a commit bit, give us your SSH key or create your own clone of the git://git.moose.perl.org/Moose.git repository.
The relevant repository URIs are:
- Core Committers - people reviewing and merging a branch
These people have worked with the Moose codebase for a while.
They've been responsible for large features or branches and can help review your changes and apply them to the master branch using the basic "APPROVAL WORKFLOW".
They are also fairly well versed in Git, in order to merge the branches with no mistakes (especially when the merge fails), and to provide advice to contributors.
- Cabal - people who can release moose
These people are the ones who have co-maint on Moose itself and can create a release. They're listed under "CABAL" in Moose in the Moose documentation. They merge from Master to Stable.
The repository is divided into several branches to make maintenance easier for everyone involved. The branches below are ordered by level of stability.
- Stable (refs/heads/stable)
The branch from which releases are cut. When making a new release, the release manager merges from master to stable. The stable branch is only updated by someone from the Cabal during a release.
- Master (refs/heads/master)
The branch for new development. This branch is merged into and branched from.
- Branches (refs/heads/*)
Large community branches for big development "projects".
- Topics (refs/heads/topic/*)
Small personal branches that have been published for review, but can get freely rebased. Targeted features that may span a handful of commits.
Any change or bugfix should be created in a topic branch.
# update your copy of master git checkout master git pull --rebase # create a new topic branch git checkout -b topic/my-feature origin/master # hack, commit, feel free to break fast forward git commit --amend # allowed git rebase --interactive # allowed git push --force origin topic/my_feature # allowed
Then ask for a review/approval (see "APPROVAL WORKFLOW"), and merge to master. If it merges cleanly and nobody has any objections, then it can be pushed to master.
If it doesn't merge as a fast forward, the author of the branch needs to run
git remote update git rebase origin/master # or merge
and bring the branch up to date, so that it can be merged as a fast forward into master.
No actual merging (as in a human resolving conflicts) should be done when merging into master, only from master into other branches.
Before a merge, a topic branch can be cleaned up by the author.
This can be done using interactive rebase to combine commits, etc, or even
git merge --squash to make the whole topic into a single commit.
Structuring changes like this makes it easier to apply git revert at a later date, and encourages a clean and descriptive history that documents what the author was trying to do, without the various hangups that happened while they were trying to do it (commits like "oops forgot that file" are not only unnecessary noise, they also make running things like git bisect or git revert harder).
However, by far the biggest benefit is that the number of commits that go into master is eventually reduced, and they are simple and coherent, making it much easier for people maintaining branches to stay up to date.
All large changes should be documented in Moose::Manual::Delta.
Moose is an open project but it is also an increasingly important one. Many modules depend on Moose being stable. Therefore, we have a basic set of criteria for reviewing and merging branches. What follows is a set of rough guidelines that ensures all new code is properly vetted before it is merged to the master branch.
It should be noted that if you want your specific branch to be approved, it is your responsibility to follow this process and advocate for your branch. The preferred way is to send a request to the mailing list for review/approval, this allows us to better keep track of the branches awaiting approval and those which have been approved.
- Small bug fixes, doc patches and additional passing tests.
These items don't really require approval beyond one of the core contributors just doing a simple review.
- Larger bug fixes, doc additions and TODO or failing tests.
Larger bug fixes should be reviewed by at least one cabal member and should be tested using the xt/author/test-my-dependents.t test.
New documentation is always welcome, but should also be reviewed by a cabal member for accuracy.
TODO tests are basically feature requests, see our "NEW FEATURES" section for more information on that. If your feature needs core support, create a topic/ branch using the "STANDARD WORKFLOW" and start hacking away.
Failing tests are basically bug reports. You should find a core contributor and/or cabal member to see if it is a real bug, then submit the bug and your test to the RT queue. Source control is not a bug reporting tool.
- New user-facing features.
Anything that creates a new user-visible feature needs to be approved by more than one cabal member.
Make sure you have reviewed "NEW FEATURES" to be sure that you are following the guidelines. Do not be surprised if a new feature is rejected for the core.
- New internals features.
New features for Moose internals are less restrictive than user facing features, but still require approval by at least one cabal member.
Ideally you will have run the test-my-dependents.t script to be sure you are not breaking any MooseX module or causing any other unforeseen havoc. If you do this (rather than make us do it), it will only help to hasten your branch's approval.
- Backwards incompatible changes.
Anything that breaks backwards compatibility must be discussed by the cabal and agreed to by a majority of the members.
We have a policy for what we see as sane "BACKWARDS COMPATIBILITY" for Moose. If your changes break back-compat, you must be ready to discuss and defend your change.
git checkout master # edit for final version bumping, changelogging, etc # prepare release (test suite etc) perl-reversion -bump make manifest git commit git checkout stable git merge master # must be a fast forward git push both shipit # does not ship the tarball, but does everything else cpan-upload ~/shipit-dist/Moose-X.YZ.tar.gz
Development releases are made without merging into the stable branch.
Moose (and Class::MOP) releases fall into two categories, each with their own level of release preparation. A minor release is one which does not include any API changes, deprecations, and so on. In that case, it is sufficient to simply test the release candidate against a few different different Perls. Testing should be done against at least two recent major version of Perl (5.8.8 and 5.10.1, for example). If you have more versions available, you are encouraged to test them all. However, we do not put a lot of effort into supporting older 5.8.x releases.
For major releases which include an API change or deprecation, you should run the xt/author/test-my-dependents.t test. This tests a long list of MooseX and other Moose-using modules from CPAN. In order to run this script, you must arrange to have the new version of Moose and/or Class::MOP in Perl's include path. You can use
prove -b and
prove -I, install the module, or fiddle with the
PERL5LIB environment variable, whatever makes you happy.
This test downloads each module from CPAN, runs its tests, and logs failures and warnings to a set of files named test-mydeps-$$-*.log. If there are failures or warnings, please work with the authors of the modules in question to fix them. If the module author simply isn't available or does not want to fix the bug, it is okay to make a release.
Regardless of whether or not a new module is available, any breakages should be noted in the conflicts list in the distribution's Makefile.PL.
Both Class::MOP and Moose have a .shipit file you can use to make sure the release goes smoothly. You are strongly encouraged to use this instead of doing the final release steps by hand.
Anyone can create the necessary fix by branching off of the stable branch:
git remote update git checkout -b topic/my-emergency-fix origin/stable # hack git commit
Then a cabal member merges into stable:
git checkout stable git merge topic/my-emergency-fix git push # release git checkout master git merge stable
For longer lasting branches, we use a subversion style branch layout, where master is routinely merged into the branch. Rebasing is allowed as long as all the branch contributors are using
git pull --rebase properly.
rebase --interactive, etc. are not allowed, and should only be done in topic branches. Committing to master is still done with the same review process as a topic branch, and the branch must merge as a fast forward.
This is pretty much the way we're doing branches for large-ish things right now.
Obviously there is no technical limitation on the number of branches. You can freely create topic branches off of project branches, or sub projects inside larger projects freely. Such branches should incorporate the name of the branch they were made off so that people don't accidentally assume they should be merged into master:
git checkout -b my-project--topic/foo my-project
(unfortunately Git will not allow
my-project/foo as a branch name if
my-project is a valid ref).
To make things easier for longer lived branches (whether topics or projects), the 'pu' branch is basically what happens if you merge all of the branches and topics together with master.
We can update this as necessary (e.g. on a weekly basis if there is merit), notifying the authors of the respective branches if their branches did not merge (and why).
To update 'pu':
git checkout pu git remote update git reset --hard origin/master git merge @all_the_branches
If the merge is clean, 'pu' is updated with
If the merge is not clean, the offending branch is removed from
@all_the_branches, with a small note of the conflict, and we try again.
The authors of the failed branches should be told to try to merge their branch into 'pu', to see how their branch interacts with other branches.
'pu' is probably broken most of the time, but lets us know how the different branches interact.
Merged branches should be deleted.
Failed branches may be kept, but consider moving to refs/attic/ (e.g. http://danns.co.uk/node/295) to keep git branch -l current.
Branches that have not been worked on for a long time will be moved to refs/abandoned/ periodically, but feel free to move the branch back to refs/topic/ if you want to start working on it again.
If you write any code for Moose or Class::MOP, you must add tests for that code. If you do not write tests then we cannot guarantee your change will not be removed or altered at a later date, as there is nothing to confirm this is desired behavior.
If your code change/addition is deep within the bowels of Moose/Class::MOP and your test exercises this feature in a non-obvious way, please add some comments either near the code in question or in the test so that others know.
We also greatly appreciate documentation to go with your changes, and an entry in the Changes file. Make sure to give yourself credit!
Change is inevitable, and Moose is not immune to this. We do our best to maintain backwards compatibility, but we do not want the code base to become overburdened by this. This is not to say that we will be frivolous with our changes, quite the opposite, just that we are not afraid of change and will do our best to keep it as painless as possible for the end user.
The rule is that if you do something that is not backwards compatible, you must do at least one deprecation cycle (more if it is larger change). For really larger or radical changes dev releases may be needed as well (the Cabal will decide on this on a case-per-case basis).
Our policy with deprecation is that each deprecation should go through several stages. First, we simply add a deprecation notice the documentation in Changes and Moose::Manual::Delta. In a future release, we then make the deprecated feature warn loudly and often so that users will have time to fix their usages. Finally, the feature is removed in a later release.
All backwards incompatible changes must be documented in Moose::Manual::Delta. Make sure to document any useful tips or workarounds for the change in that document.
Stevan Little <email@example.com>
Chris (perigrin) Prather
Yuval (nothingmuch) Kogman
Copyright 2009 by Infinity Interactive, Inc.
This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself.