| :linkattrs: |
| = Use Gerrit to Be a Rockstar Programmer |
| |
| == Overview |
| |
| The term _rockstar_ is often used to describe those talented programmers who |
| seem to work faster and better than everyone else, much like a composer who |
| seems to effortlessly churn out fantastic music. However, just as the |
| spontaneity of masterful music is a fantasy, so is the development of |
| exceptional code. |
| |
| The process of composing and then recording music is painstaking — the artist |
| records portions of a composition over and over, changing each take until one |
| song is completed by combining those many takes into a cohesive whole. The end |
| result is the recording of the best performance of the best version of the |
| song. |
| |
| Consider Queen’s six-minute long Bohemian Rhapsody, which took three weeks to |
| record. Some segments were overdubbed 180 times! |
| |
| Software engineering is much the same. Changes that seem logical and |
| straightforward in retrospect actually required many revisions and many hours |
| of work before they were ready to be merged into a code base. A single |
| conceptual code change (_fix bug 123_) often requires numerous iterations |
| before it can be finalized. Programmers typically: |
| |
| * Fix compilation errors |
| * Factor out a method, to avoid duplicate code |
| * Use a better algorithm, to make it faster |
| * Handle error conditions, to make it more robust |
| * Add tests, to prevent a bug from regressing |
| * Adapt tests, to reflect changed behavior |
| * Polish code, to make it easier to read |
| * Improve the commit message, to explain why a change was made |
| |
| In fact, first drafts of code changes are best kept out of project history. Not |
| just because rockstar programmers want to hide sloppy first attempts at making |
| something work. It's more that keeping intermediate states hampers effective |
| use of version control. Git works best when one commit corresponds to one |
| functional change, as is required for: |
| |
| * git revert |
| |
| * git cherry-pick |
| |
| * link:https://www.kernel.org/pub/software/scm/git/docs/git-bisect-lk2009.html[git bisect,role=external,window=_blank] |
| |
| |
| [[amending]] |
| == Amending commits |
| |
| Git provides a mechanism to continually update a commit until it’s perfect: use |
| `git commit --amend` to remake (re-record) a code change. After you update a |
| commit in this way, your branch then points to the new commit. However, the |
| older (imperfect) revision is not lost. It can be found via the `git reflog`. |
| |
| |
| [[review]] |
| == Code review |
| |
| At least two well-known open source projects insist on these practices: |
| |
| * link:http://git-scm.com/[Git,role=external,window=_blank] |
| * link:http://www.kernel.org/category/about.html[Linux Kernel,role=external,window=_blank] |
| |
| However, contributors to these projects don’t refine and polish their changes |
| in private until they’re perfect. Instead, polishing code is part of a review |
| process — the contributor offers their change to the project for other |
| developers to evaluate and critique. This process is called _code review_ and |
| results in numerous benefits: |
| |
| * Code reviews mean that every change effectively has shared authorship |
| |
| * Developers share knowledge in two directions: Reviewers learn from the patch |
| author how the new code they will have to maintain works, and the patch |
| author learns from reviewers about best practices used in the project. |
| |
| * Code review encourages more people to read the code contained in a given |
| change. As a result, there are more opportunities to find bugs and suggest |
| improvements. |
| |
| * The more people who read the code, the more bugs can be identified. Since |
| code review occurs before code is submitted, bugs are squashed during the |
| earliest stage of the software development lifecycle. |
| |
| * The review process provides a mechanism to enforce team and company policies. |
| For example, _all tests shall pass on all platforms_ or _at least two people |
| shall sign off on code in production_. |
| |
| Many successful software companies, including Google, use code review as a |
| standard, integral stage in the software development process. |
| |
| |
| [[web]] |
| == Web-based code review |
| |
| To review work, the Git and Linux Kernel projects send patches via email. |
| |
| Code Review (Gerrit) adds a modern web interface to this workflow. Rather than |
| send patches and comments via email, Gerrit users push commits to Gerrit where |
| diffs are displayed on a web page. Reviewers can post comments directly on the |
| diff. If a change must be reworked, users can push a new, amended revision of |
| the same change. Reviewers can then check if the new revision addresses the |
| original concerns. If not, the process is repeated. |
| |
| |
| [[magic]] |
| == Gerrit’s magic |
| |
| When you push a change to Gerrit, how does Gerrit detect that the commit amends |
| a previous change? Gerrit can’t use the SHA-1, since that value changes when |
| `git commit --amend` is called. Fortunately, upon amending a commit, the commit |
| message is retained by default. |
| |
| This is where Gerrit's solution lies: Gerrit identifies a conceptual change |
| with a footer in the commit message. Each commit message footer contains a |
| Change-Id message hook, which uniquely identifies a change across all its |
| drafts. For example: |
| |
| `Change-Id: I9e29f5469142cc7fce9e90b0b09f5d2186ff0990` |
| |
| Thus, if the Change-Id remains the same as commits are amended, Gerrit detects |
| that each new version refers to the same conceptual change. The Gerrit web |
| interface groups versions so that reviewers can see how your change evolves |
| during the code review. |
| |
| To Gerrit, the identifier can be random. |
| |
| Gerrit provides a client-side link:cmd-hook-commit-msg.html[message hook] to |
| automatically add to commit messages when necessary. |
