doc/devel/development_workflow.rst
.. highlight:: bash
.. redirect-from:: /devel/gitwash/development_workflow .. redirect-from:: /devel/gitwash/maintainer_workflow
.. _development-workflow:
#################### Development workflow ####################
To keep your work well organized, with readable history, and in turn make it easier for project maintainers (that might be you) to see what you've done, and why you did it, we recommend the following:
main branch!upstream/main, and start a new feature branch from that.bugfix-for-issue-14 or refactor-database-code.discourse <https://discourse.matplotlib.org>__.main branch.After :ref:setting up a development environment <installing_for_devs>, the typical
workflow is:
#. Fetch all changes from upstream/main::
git fetch upstream/main
#. Start a new feature branch from upstream/main::
git checkout -b my-feature upstream/main
#. When you're done editing, e.g., lib/matplotlib/collections.py, record your changes in Git::
git add lib/matplotlib/collections.py
git commit -m 'a commit message'
#. Push the changes to your GitHub fork::
git push -u origin my-feature
.. _update-mirror-main:
main branchFirst make sure you have followed :ref:installing_for_devs.
From time to time you should fetch the upstream changes from GitHub::
git fetch upstream
This will pull down any commits you don't have, and set the remote branches to point to the right commit.
.. _make-feature-branch:
When you are ready to make some changes to the code, you should start a new branch. Branches that are for a collection of related edits are often called 'feature branches'. Making a new branch for each set of related changes will make it easier for someone reviewing your branch to see what you are doing.
Choose an informative name for the branch to remind yourself and the rest of us
what the changes in the branch are for. For example add-ability-to-fly, or
bugfix-for-issue-42.
The process for creating a new feature branch is::
# Update the main branch
git fetch upstream
# Make new feature branch starting at current main
git branch my-new-feature upstream/main
git checkout my-new-feature
If you started making changes on your local main branch, you can convert the
branch to a feature branch by renaming it::
git branch -m <newname>
Generally, you will want to keep your feature branches on your public GitHub
fork of Matplotlib. To do this, you git push this new branch up to your
GitHub repo. Generally, if you followed the instructions in these pages, and by
default, git will have a link to your fork of the GitHub repo, called
origin. You push up to your own fork with::
git push origin my-new-feature
.. _edit-flow:
#. Make some changes
#. Save the changes
#. See which files have changed with git status.
You'll see a listing like this one:
.. code-block:: none
# On branch ny-new-feature
# Changed but not updated:
# (use "git add <file>..." to update what will be committed)
# (use "git checkout -- <file>..." to discard changes in working directory)
#
# modified: README
#
# Untracked files:
# (use "git add <file>..." to include in what will be committed)
#
# INSTALL
no changes added to commit (use "git add" and/or "git commit -a")
#. Check what the actual changes are with git diff.
#. Add any new files to version control git add new_file_name.
#. To commit all modified files into the local copy of your repo, type:
.. code-block:: bash
git commit -am 'A commit message'
Note the -am options to commit. The m flag signals that you are
going to type a message on the command line. The a flag stages every
file that has been modified, except files listed in .gitignore. For more
information, see why the -a flag?_ and the
git commit <https://git-scm.com/docs/git-commit>_ manual page.
#. To push the changes up to your forked repo on GitHub, do a git push.
.. _why the -a flag?: http://gitready.com/beginner/2009/01/18/the-staging-area.html
When you are ready to ask for someone to review your code and consider a merge,
submit your Pull Request (PR) <https://docs.github.com/pull-requests>_.
Go to the web page of your fork of the Matplotlib repo, and click
Compare & pull request to send your changes to the maintainers for review.
The base repository is matplotlib/matplotlib and the base branch is
generally main.
Enter a title for the set of changes with some explanation of what you've done. Mention anything you'd like particular attention for - such as a complicated change or some code you are not happy with.
If you don't think your request is ready to be merged, just say so in your pull request message and use the "Draft PR" feature of GitHub. This is a good way of getting some preliminary code review.
For more guidance on the mechanics of making a pull request, see GitHub's
pull request tutorial <https://docs.github.com/en/pull-requests/collaborating-with-pull-requests/proposing-changes-to-your-work-with-pull-requests/creating-a-pull-request-from-a-fork>_.
.. _update-pull-request:
When updating your pull request after making revisions, instead of adding new commits, please consider amending your initial commit(s) to keep the commit history clean.
You can achieve this by using
.. code-block:: bash
git commit -a --amend --no-edit
git push [your-remote-repo] [your-branch] --force-with-lease
.. tip:: Instead of typing your branch name every time, you only need to type the following once to link the remote branch to the local branch::
git push --set-upstream origin my-new-feature
From now on git will know that ``my-new-feature`` is related to the
``my-new-feature`` branch in the GitHub repo. After this, you will be able to
push your changes with::
git push
To see a graphical representation of the repository branches and commits::
gitk --all
To see a linear list of commits for this branch::
git log
.. _recovering-from-mess-up:
Sometimes, you mess up merges or rebases. Luckily, in git it is relatively straightforward to recover from such mistakes.
If you mess up during a rebase::
git rebase --abort
If you notice you messed up after the rebase::
git reset --hard tmp
If you forgot to make a backup branch::
git reflog show cool-feature
8630830 cool-feature@{0}: commit: BUG: io: close file handles immediately 278dd2a cool-feature@{1}: rebase finished: refs/heads/my-feature-branch onto 11ee694744f2552d 26aa21a cool-feature@{2}: commit: BUG: lib: make seek_gzip_factory not leak gzip obj ...
git reset --hard cool-feature@{2}
.. _rewriting-commit-history:
.. note::
Do this only for your own feature branches.
Is there an embarrassing typo in a commit you made? Or perhaps you made several false starts you don't want posterity to see.
This can be done via interactive rebasing.
Suppose that the commit history looks like this::
git log --oneline
eadc391 Fix some remaining bugs
a815645 Modify it so that it works
2dec1ac Fix a few bugs + disable
13d7934 First implementation
6ad92e5 * masked is now an instance of a new object, MaskedConstant
29001ed Add pre-nep for a copule of structured_array_extensions.
...
and 6ad92e5 is the last commit in the cool-feature branch. Suppose we
want to make the following changes:
13d7934 to something more sensible.2dec1ac, a815645, eadc391 into a single one.We do as follows::
# make a backup of the current state
git branch tmp HEAD
# interactive rebase
git rebase -i 6ad92e5
This will open an editor with the following text in it::
pick 13d7934 First implementation
pick 2dec1ac Fix a few bugs + disable
pick a815645 Modify it so that it works
pick eadc391 Fix some remaining bugs
# Rebase 6ad92e5..eadc391 onto 6ad92e5
#
# Commands:
# p, pick = use commit
# r, reword = use commit, but edit the commit message
# e, edit = use commit, but stop for amending
# s, squash = use commit, but meld into previous commit
# f, fixup = like "squash", but discard this commit's log message
#
# If you remove a line here THAT COMMIT WILL BE LOST.
# However, if you remove everything, the rebase will be aborted.
#
To achieve what we want, we will make the following changes to it::
r 13d7934 First implementation
pick 2dec1ac Fix a few bugs + disable
f a815645 Modify it so that it works
f eadc391 Fix some remaining bugs
This means that (i) we want to edit the commit message for
13d7934, and (ii) collapse the last three commits into one. Now we
save and quit the editor.
Git will then immediately bring up an editor for editing the commit message. After revising it, we get the output::
[detached HEAD 721fc64] FOO: First implementation
2 files changed, 199 insertions(+), 66 deletions(-)
[detached HEAD 0f22701] Fix a few bugs + disable
1 files changed, 79 insertions(+), 61 deletions(-)
Successfully rebased and updated refs/heads/my-feature-branch.
and now, the history looks like this::
0f22701 Fix a few bugs + disable
721fc64 ENH: Sophisticated feature
6ad92e5 * masked is now an instance of a new object, MaskedConstant
If it went wrong, recovery is again possible as explained :ref:above <recovering-from-mess-up>.
If you have not yet pushed this branch to github, you can carry on as normal,
however if you have already pushed this commit see :ref:force-push for how
to replace your already published commits with the new ones.
.. _rebase-on-main:
upstream/mainLet's say you thought of some work you'd like to do. You
:ref:update-mirror-main and :ref:make-feature-branch called
cool-feature. At this stage, main is at some commit, let's call it E.
Now you make some new commits on your cool-feature branch, let's call them
A, B, C. Maybe your changes take a while, or you come back to them after a
while. In the meantime, main has progressed from commit E to commit (say) G:
.. code-block:: none
A---B---C cool-feature
/
D---E---F---G main
At this stage you consider merging main into your feature branch, and you
remember that this page sternly advises you not to do that, because the
history will get messy. Most of the time, you can just ask for a review without
worrying about whether main has got a little ahead; however sometimes, the changes in
main might affect your changes, and you need to harmonize them. In this
situation you may prefer to do a rebase.
rebase takes your changes (A, B, C) and replays them as if they had been
made to the current state of main. In other words, in this case, it takes
the changes represented by A, B, C and replays them on top of G. After the
rebase, your history will look like this:
.. code-block:: none
A'--B'--C' cool-feature
/
D---E---F---G main
See rebase without tears_ for more detail.
.. _rebase without tears: https://matthew-brett.github.io/pydagogue/rebase_without_tears.html
To do a rebase on upstream/main::
# Fetch changes from upstream/main
git fetch upstream
# go to the feature branch
git checkout cool-feature
# make a backup in case you mess up
git branch tmp cool-feature
# rebase cool-feature onto main
git rebase --onto upstream/main upstream/main cool-feature
In this situation, where you are already on branch cool-feature, the last
command can be written more succinctly as::
git rebase upstream/main
When all looks good, you can delete your backup branch::
git branch -D tmp
If it doesn't look good you may need to have a look at
:ref:recovering-from-mess-up.
If you have made changes to files that have also changed in main, this may
generate merge conflicts that you need to resolve - see the git rebase_ man
page for some instructions at the end of the "Description" section. There is
some related help on merging in the git user manual - see resolving a merge_.
.. _git rebase: https://git-scm.com/docs/git-rebase .. _resolving a merge: https://schacon.github.io/git/user-manual.html#resolving-a-merge
If you have not yet pushed this branch to github, you can carry on as normal,
however if you have already pushed this commit see :ref:force-push for how
to replace your already published commits with the new ones.
.. _force-push:
If you have in some way re-written already pushed history (e.g. via
:ref:rewriting-commit-history or :ref:rebase-on-main) leaving you with
a git history that looks something like
.. code-block:: none
A'--E cool-feature
/
D---A---B---C origin/cool-feature
where you have pushed the commits A,B,C to your fork on GitHub (under the
remote name origin) but now have the commits A' and E on your local
branch cool-feature. If you try to push the new commits to GitHub, it will
fail and show an error that looks like ::
$ git push Pushing to github.com:origin/matplotlib.git To github.com:origin/matplotlib.git ! [rejected] cool_feature -> cool_feature (non-fast-forward) error: failed to push some refs to 'github.com:origin/matplotlib.git' hint: Updates were rejected because the tip of your current branch is behind hint: its remote counterpart. Integrate the remote changes (e.g. hint: 'git pull ...') before pushing again. hint: See the 'Note about fast-forwards' in 'git push --help' for details.
If this push had succeeded, the commits A, B, and C would no
longer be referenced by any branch and they would be discarded:
.. code-block:: none
D---A'---E cool-feature, origin/cool-feature
By default git push helpfully tries to protect you from accidentally
discarding commits by rejecting the push to the remote. When this happens,
GitHub also adds the helpful suggestion to pull the remote changes and then try
pushing again. In some cases, such as if you and a colleague are both
committing and pushing to the same branch, this is a correct course of action.
However, in the case of having intentionally re-written history, we want to discard the commits on the remote and replace them with the new-and-improved versions from our local branch. In this case, what we want to do is ::
$ git push --force-with-lease
which tells git you are aware of the risks and want to do the push anyway. We
recommend using --force-with-lease over the --force flag. The
--force will do the push no matter what, whereas --force-with-lease
will only do the push if the remote branch is where the local git client
thought it was.
Be judicious with force-pushing. It is effectively re-writing published history, and if anyone has fetched the old commits, it will have a different view of history which can cause confusion.
.. _automated-tests:
Whenever a pull request is created or updated, various automated test tools will run on all supported platforms and versions of Python.
tox_ is not used in the automated testing. It is supported for testing locally.
.. _tox: https://tox.readthedocs.io/
Codecov and CodeQL are currently for information only. Their failure is not necessarily a blocker.
Make sure the Linting, GitHub Actions, AppVeyor, CircleCI, and Azure pipelines are passing before merging. All checks are listed at the bottom of the GitHub page of your pull request.
.. list-table:: :header-rows: 1 :stub-columns: 1 :widths: 20 20 60
* - Name
- Check
- Tips for finding cause of failure
* - Linting
- :ref:`code style <code-style>`
- Errors are displayed as annotations on the pull request diff.
* - | Mypy
| Stubtest
- :ref:`static type hints <type-hints>`
- Errors are displayed as annotations on the pull request diff.
* - CircleCI
- :ref:`documentation build <writing-rest-pages>`
- Search the CircleCI log for ``WARNING``.
* - | GitHub Actions
| AppVeyor
| Azure pipelines
- :ref:`tests <testing>`
- | Search the log for ``FAILURES``. Subsequent section should contain information
on failed tests.
|
| On Azure, find the images as *artifacts* of the Azure job:
| 1. Click *Details* on the check on the GitHub PR page.
| 2. Click *View more details on Azure Pipelines* to go to Azure.
| 3. On the overview page *artifacts* are listed in the section *Related*.
If you know only a subset of CI checks need to be run, you can skip unneeded CI checks on individual commits by including the following strings in the commit message:
.. list-table:: :header-rows: 1 :stub-columns: 1 :widths: 25 20 55
* - String
- Effect
- Notes
* - ``[ci doc]``
- Only run documentation checks.
- | For when you have only changed documentation.
| ``[ci doc]`` is applied automatically when the changes are only to files in
``doc/**/`` or ``galleries/**/``
* - ``[skip doc]``
- Skip documentation checks.
- For when you didn't change documentation.
* - ``[skip appveyor]``
- Skip AppVeyor run.
- Substring must be in first line of commit message.
* - ``[skip azp]``
- Skip Azure Pipelines.
-
* - ``[skip actions]``
- Skip GitHub Actions.
-
* - ``[skip ci]``
- Skip all CI checks.
- Use only for changes where documentation checks and unit tests do not apply.
[skip actions] and [skip ci] only skip Github Actions CI workflows that are
triggered on on: push and on: pull_request events. For more information,
see Skipping workflow runs_.
.. _Skipping workflow runs: https://docs.github.com/en/actions/managing-workflow-runs/skipping-workflow-runs