Developing a Merge Request#
Select the integration branch#
Integration branches are permanent branches in a repository that developers can contribute to. PETSc has two integration branches: release
and main
. Feature branches are temporary branches created by developers to add or change a feature branch. A new feature branch is the basis for each
merge request.
release
#
The release
branch contains the latest PETSc release including bug-fixes.
Bug-fixes, along with most documentation fixes, should start from release
.
$ git fetch
$ git checkout -b yourname/fix-component-name origin/release
Bug-fix updates, about every month, (e.g. 3.17.1) are tagged on release
(e.g. v3.17.1).
main
#
The main
branch contains everything in the release branch as well as new features that have passed all testing
and will be in the next release (e.g. version 3.18). Users developing software based
on recently-added features in PETSc should follow main
.
New features should start from main
.
$ git fetch
$ git checkout -b yourname/fix-component-name origin/main
Start a new feature branch#
Determine the appropriate integration_branch to start from,
main
orrelease
(for documentation and bug fixes only).Create and switch to a new feature branch:
$ git fetch $ git checkout -b <loginname>/<affected-package>-<short-description> origin/main # or origin/release
For example, Barry’s new feature branch on removing CPP in
snes/
will use$ git checkout -b barry/snes-removecpp origin/main
Use all lowercase and no additional underscores in the branch name.
Develop your code#
Write code and tests.
For any new features or API changes you introduced add information on them to
doc/changes/dev.rst
.Inspect changes and stage code using standard Git commands, e.g.
$ git status $ git add file1 file2 $ git commit
Commit code with good commit message, for example
$ git commit
ComponentName: one-line explanation of commit After a blank line, write a more detailed explanation of the commit. Many tools do not auto-wrap this part, so wrap paragraph text at a reasonable length. Commit messages are meant for other people to read, possibly months or years later, so describe the rationale for the change in a manner that will make sense later, and which will be provide helpful search terms. Use the imperative, e.g. "Fix bug", not "Fixed bug". If any interfaces have changed, the commit should fix occurrences in PETSc itself and the message should state its impact on users. We have defined several standard commit message tags you should use; this makes it easy to search for specific types of contributions. Multiple tags may be used in the same commit message. /spend 1h or 30m If other people contributed significantly to a commit, perhaps by reporting bugs or by writing an initial version of the patch, acknowledge them using tags at the end of the commit message. Reported-by: Helpful User <[email protected]> Based-on-patch-by: Original Idea <[email protected]> Thanks-to: Incremental Improver <[email protected]> If work is done for a particular well defined funding source or project you should label the commit with one or more of the tags Funded-by: My funding source Project: My project name
Push the feature branch to the remote repository as desired:
% git push -u origin barry/snes-removecpp
Test your branch#
Include tests which cover any changes to the source code.
Run the full test suite on your machine.
$ make alltests TIMEOUT=600
Run the source checkers on your machine.
$ make checkbadSource $ make clangformat $ make lint
Maintain a clean commit history#
If your contribution can be logically decomposed into 2 or more separate contributions, submit them in sequence with different branches and merge requests instead of all at once.
Often a branch’s commit history does not present a logical series of changes.
Extra commits from bug-fixes or tiny improvements may accumulate. One commit may contain multiple orthogonal changes.
The order of changes may be incorrect. Branches without a clean commit history will often break git bisect
.
Ideally, each commit in an MR will pass the PETSc CI testing, while presenting a small-as-possible set of very closely related changes.
Use different commits for:
fixing formatting and spelling mistakes,
fixing a bug,
adding a new feature,
adding another new feature.
Rewriting history can be done in several ways; the easiest is often with the interactive rebase
command, which allows one to combine (“squash”), rearrange, and edit commits.
It is better to clean up your commits regularly than to wait until you have a large number of them.
For example, if you have made three commits and the most recent two are fixes for the first, you could use
$ git rebase -i HEAD~3
If the branch has already been pushed, the rewritten branch is not compatible with the remote copy of the branch. You must force push your changes with
$ git push -f origin branch-name
to update the remote branch with your copy. This must be done with extreme care and only if you know someone else has not changed the remote copy of the branch,
otherwise you will lose those changes. Never do a git pull
immediately after you rebase since that will merge the old branch (from GitLab) into your local one and create a mess [2].
You can use git log
to see the recent changes to your branch and help determine what commits should be rearranged, combined, or split.
You may also find it helpful to use an additional tool such as
git-gui, lazygit, or various GUI tools.
Rebase your branch against the integration branch#
You may also need to occasionally rebase your branch onto to the latest version of your integration branch [1], if the integration branch has had relevant changes since you started working on your feature branch.
$ git fetch origin # assume origin --> PETSc upstream
$ git checkout myname/component-feature
$ git branch myname/component-feature-backup-1 # optional
$ git rebase origin/main # or origin/release
Note that this type of rebasing is different than the rebase -i
process for organizing your commits in a coherent manner.
Footnotes