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Automate versioning and CHANGELOG generation, with semver and conventional commit messages.
how it works:
- when you land commits on your
master
branch, select the Squash and Merge option. - add a title and body that follows the Conventional Commits Specification.
- when you're ready to release:
git checkout master; git pull origin master
- run
standard-version
git push --follow-tags origin master && npm publish
(or,docker push
,gem push
, etc.)
standard-version
does the following:
- bumps the version in metadata files (package.json, composer.json, etc).
- uses conventional-changelog to update CHANGELOG.md
- commits package.json (et al.) and CHANGELOG.md
- tags a new release
Install and add to devDependencies
:
npm i --save-dev standard-version
Add an npm run
script to your package.json:
{
"scripts": {
"release": "standard-version"
}
}
Now you can use npm run release
in place of npm version
.
This has the benefit of making your repo/package more portable, so that other developers can cut releases without having to globally install standard-version
on their machine.
Install globally (add to your PATH
):
npm i -g standard-version
Now you can use standard-version
in place of npm version
.
This has the benefit of allowing you to use standard-version
on any repo/package without adding a dev dependency to each one.
To generate your changelog for your first release, simply do:
# npm run script
npm run release -- --first-release
# or global bin
standard-version --first-release
This will tag a release without bumping the version in package.json (et al.).
When ready, push the git tag and npm publish
your first release. \o/
If you typically use npm version
to cut a new release, do this instead:
# npm run script
npm run release
# or global bin
standard-version
As long as your git commit messages are conventional and accurate, you no longer need to specify the semver type - and you get CHANGELOG generation for free! \o/
After you cut a release, you can push the new git tag and npm publish
(or npm publish --tag next
) when you're ready.
Use the flag --prerelease
to generate pre-releases:
Suppose the last version of your code is 1.0.0
, and your code to be committed has patched changes. Run:
# npm run script
npm run release -- --prerelease
you will get version 1.0.1-0
.
If you want to name the pre-release, you specify the name via --prerelease <name>
.
For example, suppose your pre-release should contain the alpha
prefix:
# npm run script
npm run release -- --prerelease alpha
this will tag the version 1.0.1-alpha.0
To forgo the automated version bump use --release-as
with the argument major
, minor
or patch
:
Suppose the last version of your code is 1.0.0
, you've only landed fix:
commits, but
you would like your next release to be a minor
. Simply do:
# npm run script
npm run release -- --release-as minor
# Or
npm run release -- --release-as 1.1.0
you will get version 1.1.0
rather than the auto generated version 1.0.1
.
NOTE: you can combine
--release-as
and--prerelease
to generate a release. This is useful when publishing experimental feature(s).
If you use git hooks, like pre-commit, to test your code before committing, you can prevent hooks from being verified during the commit step by passing the --no-verify
option:
# npm run script
npm run release -- --no-verify
# or global bin
standard-version --no-verify
If you have your GPG key set up, add the --sign
or -s
flag to your standard-version
command.
standard-version
supports lifecycle scripts. These allow you to execute your
own supplementary commands during the release. The following
hooks are available and execute in the order documented:
prerelease
: executed before anything happens. If theprerelease
script returns a non-zero exit code, versioning will be aborted, but it has no other effect on the process.prebump
/postbump
: executed before and after the version is bumped. If theprebump
script returns a version #, it will be used rather than the version calculated bystandard-version
.prechangelog
/postchangelog
: executes before and after the CHANGELOG is generated.precommit
/postcommit
: called before and after the commit step.pretag
/posttag
: called before and after the tagging step.
Simply add the following to your package.json to configure lifecycle scripts:
{
"standard-version": {
"scripts": {
"prebump": "echo 9.9.9"
}
}
}
As an example to change from using GitHub to track your items to using your projects Jira use a
postchangelog
script to replace the url fragment containing 'https://github.com/`myproject`/issues/'
with a link to your Jira - assuming you have already installed replace
{
"standard-version": {
"scripts": {
"postchangelog": "replace 'https://github.com/myproject/issues/' 'https://myjira/browse/' CHANGELOG.md"
}
}
}
You can skip any of the lifecycle steps (bump
, changelog
, commit
, tag
),
by adding the following to your package.json:
{
"standard-version": {
"skip": {
"changelog": true
}
}
}
If you want to commit generated artifacts in the release commit (e.g. #96), you can use the --commit-all
or -a
flag. You will need to stage the artifacts you want to commit, so your release
command could look like this:
"prerelease": "webpack -p --bail",
"release": "git add <file(s) to commit> && standard-version -a"
running standard-version
with the flag --dry-run
allows you to see what
commands would be run, without committing to git or updating files.
# npm run script
npm run release -- --dry-run
# or global bin
standard-version --dry-run
# npm run script
npm run release -- --help
# or global bin
standard-version --help
Use the silent
option to stop standard-version
from printing anything
to the console.
const standardVersion = require('standard-version')
// Options are the same as command line, except camelCase
// standardVersion returns a Promise
standardVersion({
noVerify: true,
infile: 'docs/CHANGELOG.md',
silent: true
}).then(() => {
// standard-version is done
}).catch(err => {
console.error(`standard-version failed with message: ${err.message}`)
})
patches:
git commit -a -m "fix(parsing): fixed a bug in our parser"
features:
git commit -a -m "feat(parser): we now have a parser \o/"
breaking changes:
git commit -a -m "feat(new-parser): introduces a new parsing library
BREAKING CHANGE: new library does not support foo-construct"
other changes:
You decide, e.g., docs, chore, etc.
git commit -a -m "docs: fixed up the docs a bit"
but wait, there's more!
Github usernames (@bcoe
) and issue references (#133) will be swapped out for the
appropriate URLs in your CHANGELOG.
Tell your users that you adhere to the Conventional Commits specification:
[![Conventional Commits](https://img.shields.io/badge/Conventional%20Commits-1.0.0-yellow.svg)](https://conventionalcommits.org)
semantic-release
is a fully automated library/system for versioning, changelog generation, git tagging, and publishing to the npm registry.
standard-version
is different because it handles the versioning, changelog generation, and git tagging for you without automatic pushing (to GitHub) or publishing (to an npm registry). Use of standard-version
only affects your local git repo - it doesn't affect remote resources at all. After you run standard-version
, you still have the ability to review things and correct mistakes if you want to.
They are both based on the same foundation of structured commit messages (using Angular format), but standard-version
is a good choice for folks who are not yet comfortable letting publishes go out automatically. In this way, you can view standard-version
as an incremental step to adopting semantic-release
.
We think they are both fantastic tools, and we encourage folks to use semantic-release
instead of standard-version
if it makes sense for them.
The instructions to squash commits when merging pull requests assumes that one PR equals, at most, one feature or fix.
If you have multiple features or fixes landing in a single PR and each commit uses a structured message, then you can do a standard merge when accepting the PR. This will preserve the commit history from your branch after the merge.
Although this will allow each commit to be included as separate entries in your CHANGELOG, the entries will not be able to reference the PR that pulled the changes in because the preserved commit messages do not include the PR number.
For this reason, we recommend keeping the scope of each PR to one general feature or fix. In practice, this allows you to use unstructured commit messages when committing each little change and then squash them into a single commit with a structured message (referencing the PR number) once they have been reviewed and accepted.
ISC