An extensible linter for the TypeScript language.
TSLint supports:
- custom lint rules
- custom formatters (failure reporters)
- inline disabling / enabling of rules
- configuration presets (
tslint:latest
,tslint-react
, etc.) & composition - integration with msbuild, grunt, gulp, atom, eclipse, emacs, sublime, vim, visual studio, vscode, webstorm, and more
npm install -g tslint typescript
npm install tslint typescript
typescript
is a peer dependency of tslint
. This allows you to update the compiler independently from the
linter. This also means that tslint
will have to use the same version of tsc
used to actually compile your sources.
Breaking changes in the latest dev release of typescript@next
might break something in the linter if we haven't built against that release yet. If this happens to you, you can try:
- picking up
tslint@next
, which may have some bugfixes not released intslint@latest
(see release notes here). - rolling back
typescript
to a known working version.
Please ensure that the TypeScript source files compile correctly before running the linter.
TSLint is configured via a file named tslint.json
. This file is loaded from the current path, or the user's home directory, in that order.
The configuration file specifies which rules are enabled and their options. These configurations may extend other ones via the "extends"
field in tslint.json
.
{
/*
* Possible values:
* - the name of a built-in config
* - the name of an NPM module which has a "main" file that exports a config object
* - a relative path to a JSON file
*/
"extends": "tslint:latest",
"rules": {
/*
* Any rules specified here will override those from the base config we are extending
*/
"no-parameter-properties": true
},
"rulesDirectory": [
/*
* A list of relative or absolute paths to directories that contain custom rules.
* See the Custom Rules documentation below for more details.
*/
]
}
Built-in configs include tslint:latest
and tslint:recommended
. You may inspect their source here.
tslint:recommended
is a stable, somewhat opinionated set of rules which we encourage for general TypeScript programming. This configuration follows semver, so it will not have breaking changes across minor or patch releases.
tslint:latest
extends tslint:recommended
and is continuously updated to include configuration for the latest rules in every TSLint release. Using this config may introduce breaking changes across minor releases as new rules are enabled which cause lint failures in your code. When TSLint reaches a major version bump, tslint:recommended
will be updated to be identical to tslint:latest
.
See the core rules list below for descriptions of all the rules.
usage: tslint [options] file ...
Options:
-c, --config configuration file
--force return status code 0 even if there are lint errors
-h, --help display detailed help
-i, --init generate a tslint.json config file in the current working directory
-o, --out output file
-r, --rules-dir rules directory
-s, --formatters-dir formatters directory
-e, --exclude exclude globs from path expansion
-t, --format output format (prose, json, verbose, pmd, msbuild, checkstyle) [default: "prose"]
--test test that tslint produces the correct output for the specified directory
--project path to tsconfig.json file
--type-check enable type checking when linting a project
-v, --version current version
tslint accepts the following command-line options:
-c, --config:
The location of the configuration file that tslint will use to
determine which rules are activated and what options to provide
to the rules. If no option is specified, the config file named
tslint.json is used, so long as it exists in the path.
The format of the file is { rules: { /* rules list */ } },
where /* rules list */ is a key: value comma-separated list of
rulename: rule-options pairs. Rule-options can be either a
boolean true/false value denoting whether the rule is used or not,
or a list [boolean, ...] where the boolean provides the same role
as in the non-list case, and the rest of the list are options passed
to the rule that will determine what it checks for (such as number
of characters for the max-line-length rule, or what functions to ban
for the ban rule).
-e, --exclude:
A filename or glob which indicates files to exclude from linting.
This option can be supplied multiple times if you need multiple
globs to indicate which files to exclude.
--force:
Return status code 0 even if there are any lint errors.
Useful while running as npm script.
-i, --init:
Generates a tslint.json config file in the current working directory.
-o, --out:
A filename to output the results to. By default, tslint outputs to
stdout, which is usually the console where you're running it from.
-r, --rules-dir:
An additional rules directory, for user-created rules.
tslint will always check its default rules directory, in
node_modules/tslint/lib/rules, before checking the user-provided
rules directory, so rules in the user-provided rules directory
with the same name as the base rules will not be loaded.
-s, --formatters-dir:
An additional formatters directory, for user-created formatters.
Formatters are files that will format the tslint output, before
writing it to stdout or the file passed in --out. The default
directory, node_modules/tslint/build/formatters, will always be
checked first, so user-created formatters with the same names
as the base formatters will not be loaded.
-t, --format:
The formatter to use to format the results of the linter before
outputting it to stdout or the file passed in --out. The core
formatters are prose (human readable), json (machine readable)
and verbose. prose is the default if this option is not used.
Other built-in options include pmd, msbuild, checkstyle, and vso.
Additional formatters can be added and used if the --formatters-dir
option is set.
--test:
Runs tslint on the specified directory and checks if tslint's output matches
the expected output in .lint files. Automatically loads the tslint.json file in the
specified directory as the configuration file for the tests. See the
full tslint documentation for more details on how this can be used to test custom rules.
--project:
The location of a tsconfig.json file that will be used to determine which
files will be linted.
--type-check
Enables the type checker when running linting rules. --project must be
specified in order to enable type checking.
-v, --version:
The current version of tslint.
-h, --help:
Prints this help message.
const Linter = require("tslint");
const fs = require("fs");
const fileName = "Specify file name";
const configuration = {
rules: {
"variable-name": true,
"quotemark": [true, "double"]
}
};
const options = {
formatter: "json",
configuration: configuration,
rulesDirectory: "customRules/",
formattersDirectory: "customFormatters/"
};
const fileContents = fs.readFileSync(fileName, "utf8");
const linter = new Linter(fileName, fileContents, options);
const result = linter.lint();
To enable rules that work with the type checker, a TypeScript program object must be passed to the linter when using the programmatic API. Helper functions are provided to create a program from a tsconfig.json
file. A project directory can be specified if project files do not lie in the same directory as the tsconfig.json
file.
const program = Linter.createProgram("tsconfig.json", "projectDir/");
const files = Linter.getFileNames(program);
const results = files.map(file => {
const fileContents = program.getSourceFile(file).getFullText();
const linter = new Linter(file, fileContents, options, program);
return result.lint();
});
When using the CLI, the --project
flag will automatically create a program from the specified tsconfig.json
file. Adding --type-check
then enables rules that require the type checker.
[See the TSLint website for a list of core rules included in the tslint
package.]
(http://palantir.github.io/tslint/rules/)
Formatters are used to format the results of the linter before outputting it to stdout or the configured output file. The core formatters are:
- prose: human readable (default)
- json: machine readable
- verbose: human readable (includes rule names)
- pmd
- msbuild
- checkstyle
- vso
You may enable/disable TSLint or a subset of rules within certain lines of a file with the following comment rule flags:
/* tslint:disable */
- Disable all rules for the rest of the file/* tslint:enable */
- Enable all rules for the rest of the file/* tslint:disable:rule1 rule2 rule3... */
- Disable the listed rules for the rest of the file/* tslint:enable:rule1 rule2 rule3... */
- Enable the listed rules for the rest of the file// tslint:disable-next-line
- Disables all rules for the following linesomeCode(); // tslint:disable-line
- Disables all rules for the current line// tslint:disable-next-line:rule1 rule2 rule3...
- Disables the listed rules for the next line- etc.
Rules flags enable or disable rules as they are parsed. Disabling an already disabled rule or enabling an already enabled rule has no effect.
For example, imagine the directive /* tslint:disable */
on the first line of a file, /* tslint:enable:ban class-name */
on the 10th line and /* tslint:enable */
on the 20th. No rules will be checked between the 1st and 10th lines, only the ban
and class-name
rules will be checked between the 10th and 20th, and all rules will be checked for the remainder of the file.
- tslint-react - Lint rules related to React & JSX.
If we don't have all the rules you're looking for, you can either write your own custom rules or use custom rules that others have developed. The repos below are a good source of custom rules:
- ESLint rules for TSLint - Improve your TSLint with the missing ESLint Rules
- tslint-microsoft-contrib - A set of TSLint rules used on some Microsoft projects
- codelyzer - A set of tslint rules for static code analysis of Angular 2 TypeScript projects
- vrsource-tslint-rules
TSLint ships with a set of core rules that can be configured. However, users are also allowed to write their own rules, which allows them to enforce specific behavior not covered by the core of TSLint. TSLint's internal rules are itself written to be pluggable, so adding a new rule is as simple as creating a new rule file named by convention. New rules can be written in either TypeScript or JavaScript; if written in TypeScript, the code must be compiled to JavaScript before invoking TSLint.
Rule names are always camel-cased and must contain the suffix Rule
. Let us take the example of how to write a new rule to forbid all import statements (you know, for science). Let us name the rule file noImportsRule.ts
. Rules can be referenced in tslint.json
in their kebab-case forms, so "no-imports": true
would turn on the rule.
Now, let us first write the rule in TypeScript. A few things to note:
- We import
tslint/lib/lint
to get the wholeLint
namespace instead of just theLinter
class. - The exported class must always be named
Rule
and extend fromLint.Rules.AbstractRule
.
import * as ts from "typescript";
import * as Lint from "tslint/lib/lint";
export class Rule extends Lint.Rules.AbstractRule {
public static FAILURE_STRING = "import statement forbidden";
public apply(sourceFile: ts.SourceFile): Lint.RuleFailure[] {
return this.applyWithWalker(new NoImportsWalker(sourceFile, this.getOptions()));
}
}
// The walker takes care of all the work.
class NoImportsWalker extends Lint.RuleWalker {
public visitImportDeclaration(node: ts.ImportDeclaration) {
// create a failure at the current position
this.addFailure(this.createFailure(node.getStart(), node.getWidth(), Rule.FAILURE_STRING));
// call the base version of this visitor to actually parse this node
super.visitImportDeclaration(node);
}
}
Given a walker, TypeScript's parser visits the AST using the visitor pattern. So the rule walkers only need to override the appropriate visitor methods to enforce its checks. For reference, the base walker can be found in syntaxWalker.ts.
We still need to hook up this new rule to TSLint. First make sure to compile noImportsRule.ts
:
tsc -m commonjs --noImplicitAny noImportsRule.ts node_modules/tslint/lib/tslint.d.ts
Then, if using the CLI, provide the directory that contains this rule as an option to --rules-dir
. If using TSLint as a library or via grunt-tslint
, the options
hash must contain "rulesDirectory": "..."
. If you run the linter, you'll see that we have now successfully banned all import statements via TSLint!
Final notes:
- Core rules cannot be overwritten with a custom implementation.
- Custom rules can also take in options just like core rules (retrieved via
this.getOptions()
).
Just like rules, additional formatters can also be supplied to TSLint via --formatters-dir
on the CLI or formattersDirectory
option on the library or grunt-tslint
. Writing a new formatter is simpler than writing a new rule, as shown in the JSON formatter's code.
import * as ts from "typescript";
import * as Lint from "tslint/lib/lint";
export class Formatter extends Lint.Formatters.AbstractFormatter {
public format(failures: Lint.RuleFailure[]): string {
var failuresJSON = failures.map((failure: Lint.RuleFailure) => failure.toJson());
return JSON.stringify(failuresJSON);
}
}
Such custom formatters can also be written in JavaScript. Formatter files are always named with the suffix Formatter
and the exported class within the file must be named Formatter
. A formatter is referenced from TSLint without its suffix.
git clone [email protected]:palantir/tslint.git
npm install
grunt
The next
branch of this repo tracks the latest TypeScript compiler
nightly release as a peerDependency
. This allows you to develop the linter and its rules against the latest features of the
language. Releases from this branch are published to npm with the next
dist-tag, so you may install the latest dev
version of TSLint via npm install tslint@next
.
- Bump the version number in
package.json
andsrc/tslintMulti.ts
- Add release notes in
CHANGELOG.md
- Run
grunt
to build the latest sources - Commit with message
Prepare release <version>
- Run
npm publish
- Create a git tag for the new release and push it (see existing tags here)