Knip finds unused files, dependencies and exports in your JavaScript and TypeScript projects. Less code and dependencies lead to improved performance, less maintenance and easier refactorings.
export const myVar = true;
This is where ESLint stops: it handles files in isolation, so it does not know whether myVar
is used somewhere else.
This is where Knip starts: it lints the project as a whole and finds unused exports, files and dependencies.
It's only human to forget to remove things that you no longer use. But how do you find out? Where do you start finding things that can be removed?
The dots don't connect themselves. This is where Knip comes in:
- Finds unused files, dependencies and exports
- Finds used dependencies not listed in
package.json
- Built-in support for workspaces (monorepos)
- Growing list of built-in plugins
- Use compilers to include other file types (e.g.
.mdx
,.vue
,.svelte
) - Finds binaries and dependencies in npm scripts, and a lot more locations
- Finds unused members of classes and enums
- Finds duplicate exports
- Supports any combination of JavaScript and TypeScript
- Features multiple reporters and supports custom reporters
- Run Knip as part of your CI environment to detect issues and prevent regressions
Knip shines in both small and large projects. It's a fresh take on keeping your projects clean & tidy!
“An orange cow with scissors, Van Gogh style” - generated with OpenAI
npm install -D knip
Knip supports LTS versions of Node.js, and currently requires at least Node.js v16.17 or v18.6.
Knip has good defaults and you can run it without any configuration. Here's the default:
{
"entry": ["index.{js,ts}", "src/index.{js,ts}"],
"project": ["**/*.{js,ts}"]
}
Well, almost, this is the full list of default extensions: js
, mjs
, cjs
, jsx
, ts
, mts
, cts
and tsx
.
Knip looks for entry files at those default locations, but also in other places:
- The
main
,bin
andexports
fields ofpackage.json
. - Plugins such as for Next.js, Remix, Gatsby or Svelte add entry files.
- The
scripts
in package.json or other scripts may provide entry files. - Knip does this for each workspace it finds.
In other words, Knip looks in many places and you may not need much configuration. In a perfectly boring world where
everything is according to defaults you don't even need a knip.json
file.
Larger projects tend to have more things customized, and therefore probably get more out of Knip with a configuration
file. Let's say you are using .ts
files exclusively and have all source files only in the src
directory:
{
"$schema": "https://unpkg.com/knip@2/schema.json",
"entry": ["src/index.ts"],
"project": ["src/**/*.ts"]
}
The entry
files target the starting point(s) to resolve the rest of the imported code. The project
files should
contain all files to match against the files resolved from the entry files, including potentially unused files.
Places where Knip looks for configuration (ordered by priority):
knip.json
knip.jsonc
.knip.json
.knip.jsonc
knip.ts
knip.js
package.json#knip
So you can use a dynamic knip.ts
with TypeScript if you prefer:
import type { KnipConfig } from 'knip';
const config: KnipConfig = {
entry: ['src/index.ts'],
project: ['src/**/*.ts'],
};
export default config;
Then run the checks with npx knip
. Or first add this script to package.json
:
{
"scripts": {
"knip": "knip"
}
}
Use npm run knip
to analyze the project and output unused files, dependencies and exports. Knip works just fine with
yarn
or pnpm
as well.
Using workspaces in a monorepo? Please see workspaces for more details about configuring them.
$ npx knip --help
✂️ Find unused files, dependencies and exports in your JavaScript and TypeScript projects
Usage: knip [options]
Options:
-c, --config [file] Configuration file path (default: [.]knip.json[c], knip.js, knip.ts or package.json#knip)
-t, --tsConfig [file] TypeScript configuration path (default: tsconfig.json)
--production Analyze only production source files (e.g. no tests, devDependencies, exported types)
--strict Consider only direct dependencies of workspace (not devDependencies, not other workspaces)
--workspace Analyze a single workspace (default: analyze all configured workspaces)
--no-gitignore Don't use .gitignore
--include Report only provided issue type(s), can be comma-separated or repeated (1)
--exclude Exclude provided issue type(s) from report, can be comma-separated or repeated (1)
--dependencies Shortcut for --include dependencies,unlisted,unresolved
--exports Shortcut for --include exports,nsExports,classMembers,types,nsTypes,enumMembers,duplicates
--no-progress Don't show dynamic progress updates
--reporter Select reporter: symbols, compact, codeowners, json (default: symbols)
--reporter-options Pass extra options to the reporter (as JSON string, see example)
--no-exit-code Always exit with code zero (0)
--max-issues Maximum number of issues before non-zero exit code (default: 0)
--debug Show debug output
--debug-file-filter Filter for files in debug output (regex as string)
--performance Measure count and running time of expensive functions and display stats table
--h, --help Print this help text
--V, version Print version
(1) Issue types: files, dependencies, unlisted, unresolved, exports, nsExports, classMembers, types, nsTypes, enumMembers, duplicates
Examples:
$ knip
$ knip --production
$ knip --workspace packages/client --include files,dependencies
$ knip -c ./config/knip.json --reporter compact
$ knip --reporter codeowners --reporter-options '{"path":".github/CODEOWNERS"}'
$ knip --debug --debug-file-filter '(specific|particular)-module'
More documentation and bug reports: https://github.com/webpro/knip
Here's an example run using the default reporter:
This example shows more output related to unused and unlisted dependencies:
The report contains the following types of issues:
- Unused files: did not find references to this file
- Unused dependencies: did not find references to this dependency
- Unused devDependencies: did not find references to this dependency
- Unlisted dependencies: used dependencies, but not listed in package.json (1)
- Unresolved imports: import specifiers that could not be resolved
- Unused exports: did not find references to this exported variable
- Unused exports in namespaces: did not find direct references to this exported variable (2)
- Unused exported types: did not find references to this exported type
- Unused exported types in namespaces: did not find direct references to this exported variable (2)
- Unused exported enum members: did not find references to this member of the exported enum
- Unused exported class members: did not find references to this member of the exported class
- Duplicate exports: the same thing is exported more than once
When an issue type has zero issues, it is not shown.
Getting too many reported issues and false positives? Read more about handling issues.
(1) If an unlisted dependency is prefixed with bin:
it means a binary is missing. This often equals the package
name, but not always (e.g. tsc
of typescript
or webpack
from webpack-cli
).
(2) The variable or type is not referenced directly and has become a member of a namespace. Knip can't find a reference to it, so you can probably remove it.
You can --include
or --exclude
any of the reported issue types to slice & dice the report to your needs.
Alternatively, they can be added to the configuration (e.g. "exclude": ["dependencies"]
).
Use --include
to report only specific issue types (the following example commands do the same):
knip --include files --include dependencies
knip --include files,dependencies
Use --exclude
to ignore reports you're not interested in:
knip --include files --exclude classMembers,enumMembers
Use --dependencies
or --exports
as shortcuts to combine groups of related types.
There are a few ways to tell Knip to ignore certain packages, binaries, dependencies and workspaces. Some examples:
{
"ignore": ["**/*.d.ts", "**/fixtures"],
"ignoreBinaries": ["zip", "docker-compose"],
"ignoreDependencies": ["hidden-package"],
"ignoreWorkspaces": ["packages/ignore", "packages/examples/**"]
}
These can also be configured per workspace (except for ignoreWorkspaces
).
This is the fun part! Knip, knip, knip ✂️
As always, make sure to back up files or use Git before deleting files or making changes. Run tests to verify results.
- Unused files can be removed.
- Unused dependencies can be removed from
package.json
. - Unlisted dependencies should be added to
package.json
. - Unresolved imports should be reviewed.
- Unused exports and types: remove the
export
keyword in front of unused exports. Then you can see whether the variable or type is used within the same file. If this is not the case, it can be removed. - Duplicate exports can be removed so they're exported only once.
🔁 Repeat the process to reveal new unused files and exports. Sometimes it's so liberating to remove things!
Getting too many reported issues and false positives? Read more about handling issues.
Workspaces are handled out-of-the-box by Knip. Every workspace is part of the analysis.
Workspaces are sometimes also referred to as package-based monorepos, or as packages in a monorepo. Knip uses the term
workspace exclusively to indicate a directory that has a package.json
.
Here's an example knip.json
configuration with some custom entry
and project
patterns:
{
"workspaces": {
".": {
"entry": "scripts/*.js",
"project": "scripts/**/*.js"
},
"packages/*": {
"entry": "{index,cli}.ts",
"project": "**/*.ts"
},
"packages/my-lib": {
"entry": "main.js"
}
}
}
It might be useful to run Knip first with no or little configuration to see where it needs custom entry
and/or
project
files. Each workspace has the same default configuration.
The root workspace is named "."
under workspaces
(like in the example).
Knip supports workspaces as defined in three possible locations:
- In the
workspaces
array inpackage.json
(npm, Yarn, Lerna). - In the
workspaces.packages
array inpackage.json
(legacy). - In the
packages
array inpnpm-workspace.yaml
(pnpm).
Extra "workspaces" not configured as a workspace in the root package.json
can be configured as well, Knip is happy to
analyze unused dependencies and exports from any directory with a package.json
.
The ignore
, ignoreBinaries
and ignoreDependencies
options are available inside workspace configurations.
Here's some example output when running Knip in a workspace:
Use --debug
to get more verbose output.
Plugins tell Knip where to look for configuration and entry files, and if necessary have a custom dependency finder. Knip plugins are automatically activated, you don't need to install or configure anything.
To explain what they do, here's a quick example from a .eslintrc.json
configuration file (for ESLint):
{
"extends": ["airbnb"],
"plugins": ["prettier"]
}
Knip's ESLint plugin reads .eslintrc.json
and will return eslint-config-airbnb
and eslint-plugin-prettier
from
this example to Knip, so it can tell you whether package.json
is out of sync. In a nutshell, this is how plugins work.
This is especially useful over time when such configuration files change (and they will)!
Knip contains a growing list of plugins:
- Ava
- Babel
- Capacitor
- Changesets
- Commitizen
- commitlint
- cspell
- Cypress
- ESLint
- Gatsby
- GitHub Actions
- husky
- Jest
- Lefthook
- lint-staged
- markdownlint
- Mocha
- Next.js
- npm-package-json-lint
- Nx
- nyc
- Playwright
- PostCSS
- Prettier
- Release It
- Remark
- Remix
- Rollup
- Semantic Release
- Sentry
- Storybook
- Stryker
- Svelte
- Tailwind
- TypeDoc
- TypeScript
- Vite
- Vitest
- Webpack
Plugins are automatically activated. Each plugin is automatically enabled based on simple heuristics. Most of them check
whether one of a few dependencies is listed in package.json
. Once enabled, they add a set of config
files for
themselves and/or entry
files for Knip to analyze.
config
files are given to the plugin's dependency finderentry
files are given to Knip to include with the analysis of the rest of the source code
See each plugin's documentation for its default values.
Plugins usually include config
files. They are handled by the plugin's custom dependency finder, which returns all
dependencies referenced in the files it is given. Knip handles the rest to determine which of those dependencies are
unused or missing.
Other configuration files use require
or import
statements to use dependencies, so they don't need special handing
and can be analyzed like any other source file. That's why these configuration files are also used as entry
files.
Usually, no custom configuration is required for plugins, but if your project uses custom file locations then Knip
allows you to override any defaults. Let's take Cypress for example. By default it uses cypress.config.js
, but your
project uses config/cypress.js
. Also, the default pattern for test files is cypress/e2e/**/*.cy.js
, but your project
has them at e2e-tests/*.spec.ts
. Here's how to configure this:
{
"cypress": {
"entry": ["config/cypress.js", "e2e-tests/*.spec.js"]
}
}
Some repositories have a single package.json
, but consist of multiple projects with configuration files across the
repository (such as the Nx "intregrated repo" style). Let's assume some of these projects are apps and have their
own Cypress configuration and test files. In that case, we could configure the Cypress plugin like this:
{
"cypress": {
"entry": ["apps/**/cypress.config.ts", "apps/**/cypress/e2e/*.spec.ts"]
}
}
In case a plugin causes issues, it can be disabled by using false
as its value (e.g. "webpack": false
).
Getting false positives because a plugin is missing? Want to help out? Please read more at writing a plugin. This guide also contains more details if you want to learn more about plugins and why they are useful.
Knip v2 introduces compilers that allow to include files that are not JavaScript or TypeScript in the process of finding
unused or missing dependencies. For instance, .mdx
, .vue
and .svelte
files come to mind.
Currently, this is only supported by using knip.js
or knip.ts
. Provide a compilers
object in the configuration
where each key represents the extension and the value is a function that takes the contents of these files as input and
returns JavaScript or TypeScript as output. Here is an example that compiles .mdx
files to JavaScript so these files
and their imports and exports become part of the analysis:
import { compileSync } from 'mdx-js/mdx';
export default {
compilers: {
mdx: compileSync,
},
};
Read Compilers for more details and examples.
The default mode for Knip is holistic and targets all project code, including configuration files and tests. Test files usually import production files. This prevents the production files or their exports from being reported as unused, while sometimes both of them can be removed. This is why Knip has a "production mode".
To tell Knip what is production code, add an exclamation mark behind each pattern!
that is meant for production and
use the --production
flag. Here's an example:
{
"entry": ["src/index.ts!", "build/script.js"],
"project": ["src/**/*.ts!", "build/*.js"]
}
Here's what's included in production mode analysis:
- Only
entry
andproject
patterns suffixed with!
. - Only production
entry
file patterns exported by plugins (such as Next.js and Gatsby). - Only the
start
andpostinstall
scripts (e.g. not thetest
or other npm scripts inpackage.json
). - Only unused
exports
,nsExports
andclassMembers
are reported (nottypes
,nsTypes
,enumMembers
).
Additionally, the --strict
flag can be used to:
- Consider
dependencies
(notdevDependencies
) when finding unused or unlisted dependencies. - Include
peerDependencies
when finding unused or unlisted dependencies. - Ignore type-only imports (
import type {}
). - Verify each workspace is self-contained: have their own
dependencies
(and not use packages of ancestor workspaces).
Plugins also have this distinction. For instance, Next.js entry files for pages (pages/**/*.tsx
) and Remix routes
(app/routes/**/*.tsx
) are production code, while Jest and Storybook entry files (e.g. *.spec.ts
or *.stories.js
)
are not. All of this is handled automatically by Knip and its plugins.
Tools like TypeScript, Webpack and Babel support import aliases in various ways. Knip automatically includes
compilerOptions.paths
from the TypeScript configuration, but does not (yet) automatically find other types of import
aliases. They can be configured manually:
{
"$schema": "https://unpkg.com/knip@2/schema.json",
"paths": {
"@lib": ["./lib/index.ts"],
"@lib/*": ["./lib/*"]
}
}
Each workspace can also have its own paths
configured. Note that Knip paths
follow the TypeScript semantics:
- Path values are an array of relative paths.
- Paths without an
*
are exact matches.
Knip provides the following built-in reporters:
- codeowners
- compact
- json
- symbol
When the provided built-in reporters are not sufficient, a custom reporter can be implemented.
Pass --reporter ./my-reporter
from the command line. The data can then be used to write issues to stdout
, a JSON or
CSV file, or sent to a service.
Find more details and ideas in custom reporters.
Sometimes a file that's not an entry file has one or more exports that are public and should not be reported as unused.
Such variables and types can be marked with the JSDoc @public
tag:
/**
* Merge two objects.
*
* @public
*/
export const merge = function () {};
/** @public */
export const split = function () {};
Knip does not report public exports and types as unused.
How to handle a long list of reported issues? Seeing too many false positives? Read more about handling issues describing potential causes for false positives, and how to handle them.
This table is an ongoing comparison. Based on their docs (please report any mistakes):
Feature | knip | depcheck | unimported | ts-unused-exports | ts-prune |
---|---|---|---|---|---|
Unused files | ✅ | - | ✅ | - | - |
Unused dependencies | ✅ | ✅ | ✅ | - | - |
Unlisted dependencies | ✅ | ✅ | ✅ | - | - |
Plugins | ✅ | ✅ | ❌ | - | - |
Compilers | ✅ | - | - | - | - |
Unused exports | ✅ | - | - | ✅ | ✅ |
Unused class members | ✅ | - | - | - | - |
Unused enum members | ✅ | - | - | - | - |
Duplicate exports | ✅ | - | - | ❌ | ❌ |
Search namespaces | ✅ | - | - | ✅ | ❌ |
Custom reporters | ✅ | - | - | - | - |
JavaScript support | ✅ | ✅ | ✅ | - | - |
Configure entry files | ✅ | ❌ | ✅ | ❌ | ❌ |
Workspaces | ✅ | ❌ | ❌ | - | - |
ESLint plugin available | - | - | - | ✅ | - |
✅ = Supported, ❌ = Not supported, - = Out of scope
The following commands are similar:
depcheck
knip --dependencies
The following commands are similar:
unimported
knip --production --dependencies --include files
Also see production mode.
The following commands are similar:
ts-unused-exports
knip --include exports,types,nsExports,nsTypes
knip --exports # Adds unused enum and class members
The following commands are similar:
ts-prune
knip --include exports,types
knip --exports # Adds unused exports/types in namespaces and unused enum/class members
Many thanks to some of the early adopters of Knip:
- Block Protocol
- Cursor
- DeepmergeTS
- eslint-plugin-functional
- freeCodeCamp.org
- is-immutable-type
- release-it
- Template TypeScript Node Package
Knip is Dutch for a "cut". A Dutch expression is "to be geknipt for something", which means to be perfectly suited for the job. I'm motivated to make Knip perfectly suited for the job of cutting projects to perfection! ✂️
As listed above, there are already some great packages available if you want to find unused dependencies OR unused exports. I love the Unix philosophy ("do one thing well"). But looking at what Knip does, I believe it's efficient to handle multiple concerns in a single tool. When building a dependency graph of the project, an abstract syntax tree for each file, and traversing all of this, why not collect the various issues in one go?
Special thanks to the wonderful people who have contributed to this project: