$ npm install lint-staged
Run linters against staged git files and don't let :poop: slip into your code base!
Linting makes more sense when run before committing your code. By doing so you can ensure no errors go into the repository and enforce code style. But running a lint process on a whole project is slow, and linting results can be irrelevant. Ultimately you only want to lint files that will be committed.
This project contains a script that will run arbitrary shell tasks with a list of staged files as an argument, filtered by a specified glob pattern.
dotnet-format
and lint-staged
If you've written one, please submit a PR with the link to it!
The fastest way to start using lint-staged is to run the following command in your terminal:
npx mrm@2 lint-staged
This command will install and configure husky and lint-staged depending on the code quality tools from your project's package.json
dependencies, so please make sure you install (npm install --save-dev
) and configure all code quality tools like Prettier and ESLint prior to that.
Don't forget to commit changes to package.json
and .husky
to share this setup with your team!
Now change a few files, git add
or git add --patch
some of them to your commit, and try to git commit
them.
See examples and configuration for more information.
See Releases.
v10.0.0
onwards any new modifications to originally staged files will be automatically added to the commit.
If your task previously contained a git add
step, please remove this.
The automatic behaviour ensures there are less race-conditions,
since trying to run multiple git operations at the same time usually results in an error.v10.0.0
onwards, lint-staged uses git stashes to improve speed and provide backups while running.
Since git stashes require at least an initial commit, you shouldn't run lint-staged in an empty repo.v10.0.0
onwards, lint-staged requires Node.js version 10.13.0 or later.v10.0.0
onwards, lint-staged will abort the commit if linter tasks undo all staged changes. To allow creating an empty commit, please use the --allow-empty
option.❯ npx lint-staged --help
Usage: lint-staged [options]
Options:
-V, --version output the version number
--allow-empty allow empty commits when tasks revert all staged changes
(default: false)
-c, --config [path] path to configuration file, or - to read from stdin
-d, --debug print additional debug information (default: false)
--no-reset do not reset changes in case of errors
-p, --concurrent <parallel tasks> the number of tasks to run concurrently, or false to run
tasks serially (default: true)
-q, --quiet disable lint-staged’s own console output (default: false)
-r, --relative pass relative filepaths to tasks (default: false)
-x, --shell [path] skip parsing of tasks for better shell support (default:
false)
-v, --verbose show task output even when tasks succeed; by default only
failed output is shown (default: false)
-h, --help display help for command
--allow-empty
: By default, when linter tasks undo all staged changes, lint-staged will exit with an error and abort the commit. Use this flag to allow creating empty git commits.--config [path]
: Manually specify a path to a config file or npm package name. Note: when used, lint-staged won't perform the config file search and will print an error if the specified file cannot be found. If '-' is provided as the filename then the config will be read from stdin, allowing piping in the config like cat my-config.json | npx lint-staged --config -
.--debug
: Run in debug mode. When set, it does the following:
$DEBUG
to lint-staged*
.verbose
renderer for listr
; this causes serial, uncoloured output to the terminal, instead of the default (beautified, dynamic) output.--concurrent [number | (true/false)]
: Controls the concurrency of tasks being run by lint-staged. NOTE: This does NOT affect the concurrency of subtasks (they will always be run sequentially). Possible values are:
false
: Run all tasks seriallytrue
(default) : Infinite concurrency. Runs as many tasks in parallel as possible.{number}
: Run the specified number of tasks in parallel, where 1
is equivalent to false
.--no-reset
: By default a backup stash will be created before running the tasks, and all task modifications will be reverted in case of an error. This option will disable creating the stash, and instead leave all modifications in the index when aborting the commit.--quiet
: Supress all CLI output, except from tasks.--relative
: Pass filepaths relative to process.cwd()
(where lint-staged
runs) to tasks. Default is false
.--shell
: By default linter commands will be parsed for speed and security. This has the side-effect that regular shell scripts might not work as expected. You can skip parsing of commands with this option. To use a specific shell, use a path like --shell "/bin/bash"
.--verbose
: Show task output even when tasks succeed. By default only failed output is shown.Starting with v3.1 you can now use different ways of configuring lint-staged:
lint-staged
object in your package.json
.lintstagedrc
file in JSON or YML format, or you can be explicit with the file extension:
.lintstagedrc.json
.lintstagedrc.yaml
.lintstagedrc.yml
lint-staged.config.js
, .lintstagedrc.js
, or .lintstagedrc.cjs
file in JS format--config
or -c
flagSee cosmiconfig for more details on what formats are supported.
Configuration should be an object where each value is a command to run and its key is a glob pattern to use for this command. This package uses micromatch for glob patterns.
package.json
example:{
"lint-staged": {
"*": "your-cmd"
}
}
.lintstagedrc
example{
"*": "your-cmd"
}
This config will execute your-cmd
with the list of currently staged files passed as arguments.
So, considering you did git add file1.ext file2.ext
, lint-staged will run the following command:
your-cmd file1.ext file2.ext
Linter commands work on a subset of all staged files, defined by a glob pattern. lint-staged uses micromatch for matching files with the following rules:
/
), micromatch's matchBase
option will enabled, so globs match a file's basename regardless of directory:
"*.js"
will match all JS files, like /test.js
and /foo/bar/test.js
"!(*test).js"
. will match all JS files, except those ending in test.js
, so foo.js
but not foo.test.js
/
), it will match for paths as well:
"./*.js"
will match all JS files in the git repo root, so /test.js
but not /foo/bar/test.js
"foo/**/\*.js"
will match all JS files inside the/foo
directory, so/foo/bar/test.js
but not/test.js
When matching, lint-staged will do the following
NOTE: lint-staged
will pass absolute paths to the linters to avoid any confusion in case they're executed in a different working directory (i.e. when your .git
directory isn't the same as your package.json
directory).
Also see How to use lint-staged
in a multi-package monorepo?
The concept of lint-staged
is to run configured linter tasks (or other tasks) on files that are staged in git. lint-staged
will always pass a list of all staged files to the task, and ignoring any files should be configured in the task itself.
Consider a project that uses prettier
to keep code format consistent across all files. The project also stores minified 3rd-party vendor libraries in the vendor/
directory. To keep prettier
from throwing errors on these files, the vendor directory should be added to prettier's ignore configuration, the .prettierignore
file. Running npx prettier .
will ignore the entire vendor directory, throwing no errors. When lint-staged
is added to the project and configured to run prettier, all modified and staged files in the vendor directory will be ignored by prettier, even though it receives them as input.
In advanced scenarios, where it is impossible to configure the linter task itself to ignore files, but some staged files should still be ignored by lint-staged
, it is possible to filter filepaths before passing them to tasks by using the function syntax. See Example: Ignore files from match.
Supported are any executables installed locally or globally via npm
as well as any executable from your $PATH.
Using globally installed scripts is discouraged, since lint-staged may not work for someone who doesn't have it installed.
lint-staged
uses execa to locate locally installed scripts. So in your .lintstagedrc
you can write:
{
"*.js": "eslint --fix"
}
Pass arguments to your commands separated by space as you would do in the shell. See examples below.
You can run multiple commands in a sequence on every glob. To do so, pass an array of commands instead of a single one. This is useful for running autoformatting tools like eslint --fix
or stylefmt
but can be used for any arbitrary sequences.
For example:
{
"*.js": ["eslint", "prettier --write"]
}
going to execute eslint
and if it exits with 0
code, it will execute prettier --write
on all staged *.js
files.
Writing the configuration file in JavaScript is the most powerful way to configure lint-staged (lint-staged.config.js
, similar, or passed via --config
). From the configuration file, you can export either a single function or an object.
If the exports
value is a function, it will receive an array of all staged filenames. You can then build your own matchers for the files and return a command string or an array of command strings. These strings are considered complete and should include the filename arguments, if wanted.
If the exports
value is an object, its keys should be glob matches (like in the normal non-js config format). The values can either be like in the normal config or individual functions like described above. Instead of receiving all matched files, the functions in the exported object will only receive the staged files matching the corresponding glob key.
The function can also be async:
(filenames: string[]) => string | string[] | Promise<string | string[]>
// lint-staged.config.js
const micromatch = require('micromatch')
module.exports = (allStagedFiles) => {
const shFiles = micromatch(allStagedFiles, ['**/src/**/*.sh'])
if (shFiles.length) {
return `printf '%s\n' "Script files aren't allowed in src directory" >&2`
}
const codeFiles = micromatch(allStagedFiles, ['**/*.js', '**/*.ts'])
const docFiles = micromatch(allStagedFiles, ['**/*.md'])
return [`eslint ${codeFiles.join(' ')}`, `mdl ${docFiles.join(' ')}`]
}
// .lintstagedrc.js
module.exports = {
'**/*.js?(x)': (filenames) => filenames.map((filename) => `prettier --write '${filename}'`),
}
tsc
on changes to TypeScript files, but do not pass any filename arguments// lint-staged.config.js
module.exports = {
'**/*.ts?(x)': () => 'tsc -p tsconfig.json --noEmit',
}
// .lintstagedrc.js
module.exports = {
'**/*.js?(x)': (filenames) =>
filenames.length > 10 ? 'eslint .' : `eslint ${filenames.join(' ')}`,
}
It's better to use the function-based configuration (seen above), if your use case is this.
// lint-staged.config.js
const micromatch = require('micromatch')
module.exports = {
'*': (allFiles) => {
const codeFiles = micromatch(allFiles, ['**/*.js', '**/*.ts'])
const docFiles = micromatch(allFiles, ['**/*.md'])
return [`eslint ${codeFiles.join(' ')}`, `mdl ${docFiles.join(' ')}`]
},
}
If for some reason you want to ignore files from the glob match, you can use micromatch.not()
:
// lint-staged.config.js
const micromatch = require('micromatch')
module.exports = {
'*.js': (files) => {
// from `files` filter those _NOT_ matching `*test.js`
const match = micromatch.not(files, '*test.js')
return `eslint ${match.join(' ')}`
},
}
Please note that for most cases, globs can achieve the same effect. For the above example, a matching glob would be !(*test).js
.
const path = require('path')
module.exports = {
'*.ts': (absolutePaths) => {
const cwd = process.cwd()
const relativePaths = absolutePaths.map((file) => path.relative(cwd, file))
return `ng lint myProjectName --files ${relativePaths.join(' ')}`
},
}
Tools like Prettier, ESLint/TSLint, or stylelint can reformat your code according to an appropriate config by running prettier --write
/eslint --fix
/tslint --fix
/stylelint --fix
. Lint-staged will automatically add any modifications to the commit as long as there are no errors.
{
"*.js": "prettier --write"
}
Prior to version 10, tasks had to manually include git add
as the final step. This behavior has been integrated into lint-staged itself in order to prevent race conditions with multiple tasks editing the same files. If lint-staged detects git add
in task configurations, it will show a warning in the console. Please remove git add
from your configuration after upgrading.
All examples assume you've already set up lint-staged in the package.json
file and husky in its own config file.
{
"name": "My project",
"version": "0.1.0",
"scripts": {
"my-custom-script": "linter --arg1 --arg2"
},
"lint-staged": {}
}
In .husky/pre-commit
#!/usr/bin/env sh
. "$(dirname "$0")/_/husky.sh"
npx lint-staged
Note: we don't pass a path as an argument for the runners. This is important since lint-staged will do this for you.
*.js
and *.jsx
running as a pre-commit hook{
"*.{js,jsx}": "eslint"
}
--fix
and add to commit{
"*.js": "eslint --fix"
}
This will run eslint --fix
and automatically add changes to the commit.
If you wish to reuse a npm script defined in your package.json:
{
"*.js": "npm run my-custom-script --"
}
The following is equivalent:
{
"*.js": "linter --arg1 --arg2"
}
Linting commands do not support the shell convention of expanding environment variables. To enable the convention yourself, use a tool like cross-env
.
For example, here is jest
running on all .js
files with the NODE_ENV
variable being set to "test"
:
{
"*.js": ["cross-env NODE_ENV=test jest --bail --findRelatedTests"]
}
prettier
for any format Prettier supports{
"*": "prettier --ignore-unknown --write"
}
prettier
for JavaScript, TypeScript, Markdown, HTML, or CSS{
"*.{js,jsx,ts,tsx,md,html,css}": "prettier --write"
}
{
"*.css": "stylelint",
"*.scss": "stylelint --syntax=scss"
}
{
"*.scss": ["postcss --config path/to/your/config --replace", "stylelint"]
}
{
"*.{png,jpeg,jpg,gif,svg}": "imagemin-lint-staged"
}
imagemin-lint-staged
</summary>
imagemin-lint-staged is a CLI tool designed for lint-staged usage with sensible defaults.
See more on this blog post for benefits of this approach.
{
"*.{js,jsx}": "flow focus-check"
}
lint-staged
via node?Yes!
const lintStaged = require('lint-staged')
try {
const success = await lintStaged()
console.log(success ? 'Linting was successful!' : 'Linting failed!')
} catch (e) {
// Failed to load configuration
console.error(e)
}
Parameters to lintStaged
are equivalent to their CLI counterparts:
const success = await lintStaged({
allowEmpty: false,
concurrent: true,
configPath: './path/to/configuration/file',
cwd: process.cwd(),
debug: false,
maxArgLength: null,
quiet: false,
relative: false,
reset: true,
shell: false
verbose: false
})
You can also pass config directly with config
option:
const success = await lintStaged({
allowEmpty: false,
concurrent: true,
config: { '*.js': 'eslint --fix' },
cwd: process.cwd(),
debug: false,
maxArgLength: null,
quiet: false,
relative: false,
reset: true,
shell: false,
verbose: false,
})
The maxArgLength
option configures chunking of tasks into multiple parts that are run one after the other. This is to avoid issues on Windows platforms where the maximum length of the command line argument string is limited to 8192 characters. Lint-staged might generate a very long argument string when there are many staged files. This option is set automatically from the cli, but not via the Node.js API by default.
Update: The latest version of JetBrains IDEs now support running hooks as you would expect.
When using the IDE's GUI to commit changes with the precommit
hook, you might see inconsistencies in the IDE and command line. This is known issue at JetBrains so if you want this fixed, please vote for it on YouTrack.
Until the issue is resolved in the IDE, you can use the following config to work around it:
husky v1.x
{
"husky": {
"hooks": {
"pre-commit": "lint-staged",
"post-commit": "git update-index --again"
}
}
}
husky v0.x
{
"scripts": {
"precommit": "lint-staged",
"postcommit": "git update-index --again"
}
}
Thanks to this comment for the fix!
lint-staged
in a multi-package monorepo?Starting with v5.0, lint-staged
automatically resolves the git root without any additional configuration. You configure lint-staged
as you normally would if your project root and git root were the same directory.
If you wish to use lint-staged
in a multi package monorepo, it is recommended to install husky
in the root package.json.
lerna
can be used to execute the precommit
script in all sub-packages.
Example repo: sudo-suhas/lint-staged-multi-pkg.
tl;dr: Yes, but the pattern should start with ../
.
By default, lint-staged
executes linters only on the files present inside the project folder(where lint-staged
is installed and run from).
So this question is relevant only when the project folder is a child folder inside the git repo.
In certain project setups, it might be desirable to bypass this restriction. See #425, #487 for more context.
lint-staged
provides an escape hatch for the same(>= v7.3.0
). For patterns that start with ../
, all the staged files are allowed to match against the pattern.
Note that patterns like *.js
, **/*.js
will still only match the project files and not any of the files in parent or sibling directories.
Example repo: sudo-suhas/lint-staged-django-react-demo.
.eslintignore
?ESLint throws out warning File ignored because of a matching ignore pattern. Use "--no-ignore" to override
warnings that breaks the linting process ( if you used --max-warnings=0
which is recommended ).
Based on the discussion from this issue, it was decided that using the outlined script is the best route to fix this.
So you can setup a .lintstagedrc.js
config file to do this:
const { CLIEngine } = require('eslint')
const cli = new CLIEngine({})
module.exports = {
'*.js': (files) =>
'eslint --max-warnings=0 ' + files.filter((file) => !cli.isPathIgnored(file)).join(' '),
}
In versions of ESLint > 7, isPathIgnored is an async function and now returns a promise. The code below can be used to reinstate the above functionality.
Since 10.5.3, any errors due to a bad ESLint config will come through to the console.
const { ESLint } = require('eslint')
const removeIgnoredFiles = async (files) => {
const eslint = new ESLint()
const isIgnored = await Promise.all(
files.map((file) => {
return eslint.isPathIgnored(file)
})
)
const filteredFiles = files.filter((_, i) => !isIgnored[i])
return filteredFiles.join(' ')
}
module.exports = {
'**/*.{ts,tsx,js,jsx}': async (files) => {
const filesToLint = await removeIgnoredFiles(files)
return [`eslint --max-warnings=0 ${filesToLint}`]
},
}
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