Most build tools and release systems require you to hardcode a version number into a file in your source repository. This results in commit messages like "Bumping version number". Even if you don't have to do this manually, your release plugin probably modifies your build file and commits the new version.
Git already contains tags with a version number pointing to a
specific commit, illustrating that power of this with the git describe
command that creates a version number based on the amount of change since the
previous tag (e.g. v0.1.0-22-g26f678e).
Git also contains branches for specific stages of development or maintenance for a specific subset of versions.
With this much information available, there's little the user should have to provide to get the next version number. And it certainly doesn't need to be hardcoded anywhere.
Semantic versioning is the best answer to this question so far. It specifies a pretty stringent meaning for what a consumer of an API should expect based on the difference between two versions numbers.
Additionally, it describes methods for encoding pre-release and build-metadata and how those should be sorted by tools.
With that specification and some conventions related to encoding your stage of development into the pre-release information, you can end up with a very easy to understand versioning scheme.
For example, this API's scheme includes 3 stages:
- final (e.g. 1.0.0) the fully-tested version ready for end-user consumption
- rc (e.g. 1.1.0-rc.1) release candidates, versions believed to be ready for release after final testing
- beta (e.g. 1.1.0-beta.4) versions containing a significant piece of functionality on the road to the next version
Reckon is two things:
- an API to infer your next version from a Git repository
- applications of that API in various tools (initially, just Gradle)
Two schemes are provided to manage pre-release information.
- Stages for a more structured approach which is a subset of SemVer.
- Snapshots for the classic Maven approach to pre-release versions.
There are three types of stages:
Type | Scheme | Example | Description |
---|---|---|---|
final | <major>.<minor>.<patch> |
1.2.3 |
A version ready for end-user consumption |
significant | <major>.<minor>.<patch>-<stage>.<num> |
1.3.0-rc.1 |
A version indicating an important stage has been reached on the way to the next final release (e.g. alpha, beta, rc, milestone) |
insignificant | <major>.<minor>.<patch>-<stage>.<num>.<commits>+<hash or timestamp> |
1.3.0-rc.1.8+3bb4161 |
A general build in-between significant releases. |
<major>
a postive integer incremented when incompatible API changes are made<minor>
a positive integer incremented when functionality is added while preserving backwards-compatibility<patch>
a positive integer incremented when fixes are made that preserve backwards-compatibility<stage>
an alphabetical identifier indicating a level of maturity on the way to a final release. They should make logical sense to a human, but alphabetical order must be the indicator of maturity to ensure they sort correctly. (e.g. milestone, rc, snapshot would not make sense because snapshot would sort after rc)<num>
a positive integer incremented when a significant release is made<commits>
a positive integer indicating the number of commits since the last final release was made<hash or timestamp>
if the repo is clean, an abbreviated commit hash of the current HEAD, otherwise a UTC timestamp
NOTE: This approach is tuned to ensure it sorts correctly both with SemVer rules and Gradle's built in version sorting (which are subtly different).
The version format is intentionally not configurable.
Reckon can alternately use SNAPSHOT versions instead of the stage concept.
Type | Scheme | Example | Description |
---|---|---|---|
final | <major>.<minor>.<patch> |
1.2.3 |
A version ready for end-user consumption |
snapshot | <major>.<minor>.<patch>-SNAPSHOT |
1.3.0-SNAPSHOT |
An intermediate version before the final release is ready. |
NOTE: Check the Release Notes for details on compatibility and changes.
plugins {
id 'org.ajoberstar.reckon' version '<version>'
}
reckon {
scopeFromProp()
stageFromProp('milestone', 'rc', 'final')
// alternative to stageFromProp
// snapshotFromProp()
}
NOTE: Reckon overrides the project.version
property in Gradle
Execute Gradle providing the properties, as needed:
reckon.scope
- one ofmajor
,minor
, orpatch
(defaults tominor
) to specify which component of the previous release should be incrementedreckon.stage
- (if you used
stageFromProp
) one of the values passed tostageFromProp
(defaults to the first alphabetically) to specify what phase of development you are in - (if you used
snapshotFromProp
) eithersnapshot
orfinal
(defaults tosnapshot
) to specify what phase of development you are in
- (if you used
reckon.snapshot
- deprecated (if you usedsnapshotFromProp
) one oftrue
orfalse
(defaults totrue
) to determine whether a snapshot should be made
When Gradle executes, the version will be inferred as soon as something tries to access it. This will be output to the console (as below).
./gradlew build -Preckon.scope=minor -Preckon.stage=milestone
Reckoned version 1.3.0-milestone.1
...
Reckon's Gradle plugin also provides two tasks:
reckonTagCreate
- Tags the currentHEAD
with the inferred version (the tag name will be the literal version, without av
prefix).reckonTagPush
(depends onreckonTagCreate
) - Pushes the tag to your branches upstream remote.
./gradlew reckonTagPush
It's suggested you add dependencies to these tasks to ensure your project is in the right state before tagging it. For example:
reckonTagCreate.dependsOn check
See How Reckon Works, which includes examples of how reckon will behave in various scenarios.
Contributions are very welcome and are accepted through pull requests.
Smaller changes can come directly as a PR, but larger or more complex ones should be discussed in an issue first to flesh out the approach.
If you're interested in implementing a feature on the issues backlog, add a comment to make sure it's not already in progress and for any needed discussion.
Thanks to everyone who contributed to previous iterations of this library and to Zafar Khaja for the very helpful jsemver library.