✂️ Knip
Knip finds unused files, dependencies and exports in your JavaScript and TypeScript projects. Less code leads to
improved performance, less maintenance and easier refactorings.
export const myVar = true;
ESLint handles files in isolation, so the export
keyword "blocks" further analysis. Unused files and dependencies will
also not be detected. You could think of Knip as going (far!) beyond the no-unused-vars
rule of ESLint. Knip lints the
project as a whole (or parts of it).
It's only human to forget removing things that you no longer use. But how do you find out? Where to even start finding
things that can be removed?
The dots don't connect themselves. This is where Knip comes in:
Knip really shines in larger projects. A little bit of configuration will pay off, I promise. A comparison with similar
tools answers the question why another unused file/dependency/export finder?
Knip is a fresh take on keeping your projects clean & tidy!
“An orange cow with scissors, Van Gogh style” - generated
with OpenAI
Roadmap
Please report any false positives by opening an issue in this repo. Bonus points for adding a public repository or
opening a pull request with a directory and example files in test/fixtures
. Correctness and bug fixes have priority
over new features:
Upcoming Features
Installation
npm install -D knip
Knip supports LTS versions of Node.js, and currently requires at least Node.js v16.17 or v18.6. Knip is cutting edge!
Usage
Create a configuration file, let's give it the default name knip.json
with these contents:
{
"entryFiles": ["src/index.ts"],
"projectFiles": ["src/**/*.ts", "!**/*.spec.ts"]
}
The entryFiles
target the starting point(s) to resolve production code dependencies. The projectFiles
should contain
all files it should match them against, including potentially unused files.
Then run the checks:
npx knip
This will analyze the project and output unused files, exports, types and duplicate exports.
How It Works
Knip works by creating two sets of files:
- Production code is the set of files resolved from the
entryFiles
. - They are matched against the set of
projectFiles
. - The subset of project files that is not production code will be reported as unused files (in red).
- Then the production code (in blue) will be analyzed for unused exports.
Options
❯ npx knip
knip [options]
Options:
-c/--config [file] Configuration file path (default: ./knip.json or package.json#knip)
-t/--tsConfig [file] TypeScript configuration path (default: ./tsconfig.json)
--dir Working directory (default: current working directory)
--include Report only listed issue type(s) (see below)
--exclude Exclude issue type(s) from report (see below)
--ignore Ignore files matching this glob pattern (can be set multiple times)
--no-gitignore Don't use .gitignore
--dev Include `devDependencies` in report(s)
--include-entry-files Report unused exports and types for entry files
--no-progress Don't show dynamic progress updates
--max-issues Maximum number of issues before non-zero exit code (default: 0)
--reporter Select reporter: symbols, compact, codeowners, json (default: symbols)
--reporter-options Pass extra options to the reporter (as JSON string, see example)
--debug Show debug output
--debug-level Set verbosity of debug output (default: 1, max: 2)
--performance Measure running time of expensive functions and display stats table
Issue types: files, dependencies, unlisted, exports, nsExports, types, nsTypes, duplicates
Examples:
$ knip
$ knip --dir packages/client --include files
$ knip -c ./knip.js --reporter compact
$ knip --ignore 'lib/**/*.ts' --ignore build
$ knip --reporter codeowners --reporter-options '{"path":".github/CODEOWNERS"}'
More info: https://github.com/webpro/knip
Reading the report
After analyzing all the files resolved from the entryFiles
against the projectFiles
, the report contains the
following types of issues:
files
- Unused files: did not find references to this filedependencies
- Unused dependencies: did not find references to this dependencyunlisted
- Unlisted dependencies: imported dependencies, but not listed in package.json (1)exports
- Unused exports: did not find references to this exported variablensExports
- Unused exports in namespaces: did not find direct references to this exported variable (2)types
- Unused types: did not find references to this exported typensTypes
- Unused types in namespaces: did not find direct references to this exported variable (2)duplicates
- Duplicate exports: the same thing is exported more than once with different names
Notes:
- This includes dependencies that could not be resolved. For instance, what does
unresolved/dir/module
mean?
- To target something in the (missing)
node_modules/unresolved
package? - Target a local module that should have a relative path?
- It does not match any
paths
entry in tsconfig.json#compilerOptions
.
- The variable or type is not referenced directly, and has become a member of a namespace. That's why Knip is not sure
whether this export can be removed, so please look into it.
You can --include
or --exclude
any of the types to slice & dice the report to your needs. Alternatively, they can be
added to the configuration (e.g. "exclude": ["dependencies"]
).
Now what?
As always, make sure to backup 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
. - Unused exports and types: remove the
export
keyword in front of unused exports. Then you (or tools such as
TypeScript language services in VS Code and/or ESLint) 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 to export only once, make sure to import that everywhere.
🔁 Repeat the process to reveal new unused files and exports. Sometimes it's so liberating to remove things!
Performance
🚀 Knip finds issues of type files
, dependencies
, unlisted
and duplicates
very fast. Finding unused exports
requires deeper analysis (exports
, nsExports
, types
, nsTypes
). The following example commands do the same:
knip --include files --include dependencies
knip --include files,dependencies
Use --performance
to see where most of the time is spent.
Configuration
Libraries versus Applications
Libraries and applications are identical when it comes to files and dependencies: whatever is unused should be removed.
Yet libraries usually have exports meant to be used by other libraries or applications. Such public variables and types
in libraries can be marked with the JSDoc @public
tag:
export const merge = function () {};
Knip does not report public exports and types as unused.
Production versus non-production code
Feels like you're getting too many false positives? Let's talk about entryFiles
and projectFiles
.
Production code
The default configuration for Knip is very strict and targets production code. Non-production files such as tests should
not be part of the entryFiles
and projectFiles
. Here's why: test and other non-production files often import
production files, which will prevent the production files from being reported as unused. For best results:
- Include only production entry files to the
entryFiles
. - Include only and all production files to the
projectFiles
. - If necessary, add globs to exclude non-production files from the
projectFiles
(using negation pattern).
This will ensure Knip understands what production code can be removed.
Non-production code
Non-production code includes files such as unit tests, end-to-end tests, tooling, scripts, Storybook stories, etc. Think
of it the same way as the convention to split dependencies
and devDependencies
in package.json
.
To analyze the project as a whole:
- Include both production entry files and test files to the
entryFiles
. - Include all production files to the
projectFiles
. - If necessary, add globs for non-production files to the
projectFiles
. - Set
dev: true
in the configuration or add --dev
as a command line flag (to add devDependencies
).
Here's an example:
{
"dev": true,
"entryFiles": ["src/index.ts", "src/**/*.spec.ts", "src/**/*.e2e.ts"],
"projectFiles": ["src/**/*.ts"]
}
Now use -c knip.dev.json
to find unused files, dependencies and exports for the project as a whole.
An alternative way to store dev
configuration is in this example package.json
:
{
"name": "my-package",
"scripts": {
"knip": "knip"
},
"knip": {
"entryFiles": ["src/index.ts"],
"projectFiles": ["src/**/*.ts", "!**/*.spec.ts"],
"dev": {
"entryFiles": ["src/index.ts", "src/**/*.spec.ts", "src/**/*.e2e.ts"],
"projectFiles": ["src/**/*.ts"]
}
}
}
Using the --dev
flag will now switch to the non-production analysis.
Depending on the complexity of the project, be aware that it might require some fine-tuning on your end.
Zero-config
Knip can work without any configuration. Then an existing tsconfig.json
file is required. Since entryFiles
and
projectFiles
are now the same, Knip is unable to report unused files.
More configuration examples
Monorepos
Separate packages
In repos with multiple (publishable) packages, the --dir
option comes in handy. With similar package structures, the
packages can be configured using globs:
{
"packages/*": {
"entryFiles": ["src/index.ts"],
"projectFiles": ["src/**/*.{ts,tsx}", "!**/*.spec.{ts,tsx}"]
}
}
Packages can also be explicitly configured per package directory.
To analyze the packages separately, using the matching pattern from the configuration file:
knip --dir packages/client
knip --dir packages/services
Connected projects
Let's take another example Nx project configuration using Next.js, Jest and Storybook, which has multiple apps and libs.
They are not published separately and don't have their own package.json
.
This configuration file can also be a JavaScript file, which allows to add logic and/or comments (e.g. knip.js
):
const entryFiles = ['apps/**/pages/**/*.{js,ts,tsx}'];
const projectFiles = [
'{apps,libs}/**/*.{ts,tsx}',
'!**/next.config.js',
'!**/apps/**/public/**',
'!**/apps/**/next-env.d.ts'
'!**/jest.config.ts',
'!**/*.spec.{ts,tsx}',
'!**/.storybook/**',
'!**/*.stories.tsx',
];
module.exports = { entryFiles, projectFiles };
This should give good results about unused files, dependencies and exports for the monorepo. After the first run, the
configuration can be tweaked further to the project structure.
Reporters
Knip provides the following built-in reporters:
Custom Reporters
When the provided built-in reporters are not quite sufficient, a custom reporter can be implemented.
Pass --reporter ./my-reporter
, with the default export of that module having this interface:
type Reporter = (options: ReporterOptions) => void;
type ReporterOptions = {
report: Report;
issues: Issues;
cwd: string;
workingDir: string;
isDev: boolean;
options: string;
};
The data can then be used to write issues to stdout
, a JSON or CSV file, or sent to a service, anything really!
JSON
The json
reporter output is meant to be consumed by other tools. It reports in JSON format as an array with one object
per file like this:
[
{
"file": "package.json",
"owners": ["@org/admin"],
"files": false,
"dependencies": ["jquery", "moment"],
"devDependencies": [],
"unlisted": [],
"exports": [],
"types": [],
"duplicates": []
},
{
"file": "src/Registration.tsx",
"owners": ["@org/owner"],
"files": true,
"dependencies": [],
"devDependencies": [],
"unlisted": ["react"],
"exports": ["lowercaseFirstLetter", "RegistrationBox"],
"types": ["RegistrationServices", "RegistrationAction"],
"duplicates": ["Registration", "default"]
}
]
The keys match the known issue types.
Usage Ideas
Use tools like miller or jtbl to consume the JSON and render a table in the terminal.
Table
$ npx knip --reporter json | mlr --ijson --opprint --no-auto-flatten cat
file owners files unlisted exports types duplicates
src/Registration.tsx @org/owner true react lowercaseFirstLetter, RegistrationBox RegistrationServices, RegistrationAction Registration, default
src/ProductsList.tsx @org/team false - - ProductDetail -
Markdown Table
$ npx knip --reporter json | mlr --ijson --omd --no-auto-flatten cat
| file | owners | files | duplicates |
| --- | --- | --- | --- |
| src/Registration.tsx | @org/owner | true | Registration, default |
| src/ProductsList.tsx | @org/team | false | |
Include specific issue types and/or replace the cat
command with put
for clean output:
npx knip --include files,duplicates --reporter json | mlr --ijson --opprint --no-auto-flatten put 'for (e in $*) { if(is_array($[e])) { $[e] = joinv($[e], ", ") } }'
npx knip --reporter json | mlr --ijson --omd --no-auto-flatten put 'for (e in $*) { if(is_array($[e])) { $[e] = joinv($[e], ", ") } }'
More Output Examples
Symbol (default)
The default reporter shows the sorted symbols first:
$ knip
--- UNUSED FILES (2)
src/chat/helpers.ts
src/components/SideBar.tsx
--- UNUSED DEPENDENCIES (1)
moment
--- UNLISTED DEPENDENCIES (1)
react
--- UNUSED EXPORTS (5)
lowercaseFirstLetter src/common/src/string/index.ts
RegistrationBox src/components/Registration.tsx
clamp src/css.ts
restoreSession src/services/authentication.ts
PREFIX src/services/authentication.ts
--- UNUSED TYPES (4)
enum RegistrationServices src/components/Registration/registrationMachine.ts
type RegistrationAction src/components/Registration/registrationMachine.ts
type ComponentProps src/components/Registration.tsx
interface ProductDetail src/types/Product.ts
--- DUPLICATE EXPORTS (2)
Registration, default src/components/Registration.tsx
ProductsList, default src/components/Products.tsx
Compact
The compact reporter shows the sorted files first, and then a list of symbols:
$ knip --reporter compact
--- UNUSED FILES (2)
src/chat/helpers.ts
src/components/SideBar.tsx
--- UNUSED DEPENDENCIES (1)
moment
--- UNLISTED DEPENDENCIES (1)
react
--- UNUSED EXPORTS (4)
src/common/src/string/index.ts: lowercaseFirstLetter
src/components/Registration.tsx: RegistrationBox
src/css.ts: clamp
src/services/authentication.ts: restoreSession, PREFIX
--- UNUSED TYPES (3)
src/components/Registration/registrationMachine.ts: RegistrationServices, RegistrationAction
src/components/Registration.tsx: ComponentProps
src/types/Product.ts: ProductDetail
--- DUPLICATE EXPORTS (2)
src/components/Registration.tsx: Registration, default
src/components/Products.tsx: ProductsList, default
Code Owners
The codeowners
reporter is like compact
, but shows the sorted code owners (according to .github/CODEOWNERS
) first:
$ knip --reporter codeowners
--- UNUSED FILES (2)
@org/team src/chat/helpers.ts
@org/owner src/components/SideBar.tsx
--- UNUSED DEPENDENCIES (1)
@org/admin moment
--- UNLISTED DEPENDENCIES (1)
@org/owner src/components/Registration.tsx react
--- UNUSED EXPORTS (4)
@org/team src/common/src/string/index.ts: lowercaseFirstLetter
@org/owner src/components/Registration.tsx: RegistrationBox
@org/owner src/css.ts: clamp
@org/owner src/services/authentication.ts: restoreSession, PREFIX
--- UNUSED TYPES (3)
@org/owner src/components/Registration/registrationMachine.ts: RegistrationServices, RegistrationAction
@org/owner src/components/Registration.tsx: ComponentProps
@org/owner src/types/Product.ts: ProductDetail
--- DUPLICATE EXPORTS (2)
@org/owner src/components/Registration.tsx: Registration, default
@org/owner src/components/Products.tsx: ProductsList, default
The owner of package.json
is considered the owner of unused (dev) dependencies.
Use --reporter-options '{"path":".github/CODEOWNERS"}'
to pass another location for the code owners file.
Really, another unused file/dependency/export finder?
There are already some great packages available if you want to find unused dependencies OR unused exports.
Although I love the Unix philosophy, here 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?
Comparison
This table is a work in progress, but here's a first impression. Based on their docs (please report any mistakes):
✅ = Supported, ❌ = Not supported, - = Out of scope
Monorepos
Knip wants to support monorepos properly, the first steps in this direction are implemented.
Custom dependency resolvers
Using a string like "plugin:cypress/recommended"
in the extends
property of a .eslintrc.json
in a package
directory of a monorepo is nice for DX. But Knip will need some help to find it and to understand this resolves to the
eslint-plugin-cypress
dependency. Or see it is not listed in package.json
. Or that the dependency is still listed,
but no longer in use. Many popular projects reference plugins in similar ways, such as Babel, Webpack and Storybook.
Big compliments to depcheck which already does this! They call this "specials". This is on Knip's roadmap,
as well, with the additional ambition to also find used dependencies that are not listed in package.json
.
unimported is strict in this regard and works based on production files and dependencies
, so does not have custom
dependency resolvers which are usually only needed for devDependencies
.
TypeScript language services
TypeScript language services could play a major role in most of the "unused" areas, as they have an overview of the
project as a whole. This powers things in VS Code like "Find references" or the "Module "./some" declares 'Thing'
locally, but it is not exported" message. I think features like "duplicate exports" or "custom dependency resolvers" are
userland territory, much like code linters.
Knip?!
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! ✂️