This section explains how the community can contribute code to Django via pull requests. If you’re interested in how core developers handle them, see Committing code.
Below, we are going to show how to create a GitHub pull request containing the changes for Trac ticket #xxxxx. By creating a fully-ready pull request you will make the committers’ job easier, meaning that your work is more likely to be merged into Django.
You could also upload a traditional patch to Trac, but it’s less practical for reviews.
Django uses Git for its source control. You can download Git, but it’s often easier to install with your operating system’s package manager.
Django’s Git repository is hosted on GitHub, and it is recommended that you also work using GitHub.
After installing Git the first thing you should do is setup your name and email:
$ git config --global user.name "Your Real Name"
$ git config --global user.email "you@email.com"
Note that user.name should be your real name, not your GitHub nick. GitHub should know the email you use in the user.email field, as this will be used to associate your commits with your GitHub account.
When you have created your GitHub account, with the nick “github_nick”, and forked Django’s repository, create a local copy of your fork:
git clone git@github.com:github_nick/django.git
This will create a new directory “django”, containing a clone of your GitHub repository.
Your GitHub repository will be called “origin” in Git.
You should also setup django/django as an “upstream” remote (that is, tell git that the reference Django repository was the source of your fork of it):
git remote add upstream git@github.com:django/django.git
git fetch upstream
You can add other remotes similarly, for example:
git remote add akaariai git@github.com:akaariai/django.git
When working on a ticket create a new branch for the work, and base that work on upstream/master:
git checkout -b ticket_xxxxx upstream/master
The -b flag creates a new branch for you locally. Don’t hesitate to create new branches even for the smallest things - that’s what they are there for.
If instead you were working for a fix on the 1.4 branch, you would do:
git checkout -b ticket_xxxxx_1_4 upstream/stable/1.4.x
Assume the work is carried on ticket_xxxxx branch. Make some changes and commit them:
git commit
When writing the commit message, follow the commit message guidelines to ease the work of the committer. If you’re uncomfortable with English, try at least to describe precisely what the commit does.
If you need to do additional work on your branch, commit as often as necessary:
git commit -m 'Added two more tests for edge cases'
You can publish your work on GitHub just by doing:
git push origin ticket_xxxxx
When you go to your GitHub page you will notice a new branch has been created.
If you are working on a Trac ticket, you should mention in the ticket that your work is available from branch ticket_xxxxx of your github repo. Include a link to your branch.
Note that the above branch is called a “topic branch” in Git parlance. You are free to rewrite the history of this branch, by using git rebase for example. Other people shouldn’t base their work on such a branch, because their clone would become corrupt when you edit commits.
There are also “public branches”. These are branches other people are supposed to fork, so the history of these branches should never change. Good examples of public branches are the master and stable/A.B.x branches in the django/django repository.
When you think your work is ready to be pulled into Django, you should create a pull request at GitHub. A good pull request means:
The test suite must pass and the documentation must build without warnings.
Once you have created your pull request, you should add a comment in the related Trac ticket explaining what you’ve done. In particular you should note the environment in which you ran the tests, for instance: “all tests pass under SQLite and MySQL”.
Pull requests at GitHub have only two states: open and closed. The committer who will deal with your pull request has only two options: merge it or close it. For this reason, it isn’t useful to make a pull request until the code is ready for merging – or sufficiently close that a committer will finish it himself.
In the example above you created two commits, the “Fixed ticket_xxxxx” commit and “Added two more tests” commit.
We do not want to have the entire history of your working process in your repository. Your commit “Added two more tests” would be unhelpful noise. Instead, we would rather only have one commit containing all your work.
To rework the history of your branch you can squash the commits into one by using interactive rebase:
git rebase -i HEAD~2
The HEAD~2 above is shorthand for two latest commits. The above command will open an editor showing the two commits, prefixed with the word “pick”.
Change the second line to “squash” instead. This will keep the first commit, and squash the second commit into the first one. Save and quit the editor. A second editor window should open, so you can reword the commit message for the commit now that it includes both your steps.
You can also use the “edit” option in rebase. This way you can change a single commit, for example to fix a typo in a docstring:
git rebase -i HEAD~3
# Choose edit, pick, pick for the commits
# Now you are able to rework the commit (use git add normally to add changes)
# When finished, commit work with "--amend" and continue
git commit --amend
# reword the commit message if needed
git rebase --continue
# The second and third commits should be applied.
If your topic branch is already published at GitHub, for example if you’re making minor changes to take into account a review, you will need to force- push the changes:
git push -f origin ticket_xxxxx
Note that this will rewrite history of ticket_xxxxx - if you check the commit hashes before and after the operation at GitHub you will notice that the commit hashes do not match any more. This is acceptable, as the branch is merely a topic branch, and nobody should be basing their work on it.
When upstream (django/django) has changed, you should rebase your work. To do this, use:
git fetch upstream
git rebase
The work is automatically rebased using the branch you forked on, in the example case using upstream/master.
The rebase command removes all your local commits temporarily, applies the upstream commits, and then applies your local commits again on the work.
If there are merge conflicts you will need to resolve them and then use git rebase --continue. At any point you can use git rebase --abort to return to the original state.
Note that you want to rebase on upstream, not merge the upstream.
The reason for this is that by rebasing, your commits will always be on top of the upstream’s work, not mixed in with the changes in the upstream. This way your branch will contain only commits related to its topic, which makes squashing easier.
It is unusual to get any non-trivial amount of code into core without changes requested by reviewers. In this case, it is often a good idea to add the changes as one incremental commit to your work. This allows the reviewer to easily check what changes you have done.
In this case, do the changes required by the reviewer. Commit as often as necessary. Before publishing the changes, rebase your work. If you added two commits, you would run:
git rebase -i HEAD~2
Squash the second commit into the first. Write a commit message along the lines of:
Made changes asked in review by <reviewer>
- Fixed whitespace errors in foobar
- Reworded the docstring of bar()
Finally push your work back to your GitHub repository. Since you didn’t touch the public commits during the rebase, you should not need to force-push:
git push origin ticket_xxxxx
Your pull request should now contain the new commit too.
Note that the committer is likely to squash the review commit into the previous commit when committing the code.
Dec 23, 2012