$ npm install tsd -g
Check TypeScript type definitions
npm install --save-dev tsd
This tool lets you write tests for your type definitions (i.e. your .d.ts
files) by creating files with the .test-d.ts
extension.
These .test-d.ts
files will not be executed, and not even compiled in the standard way. Instead, these files will be parsed for special constructs such as expectError<Foo>(bar)
and then statically analyzed against your type definitions.
The tsd
CLI will search for the main .d.ts
file in the current or specified directory, and test it with any .test-d.ts
files in either the same directory or a test sub-directory (default: test-d
):
[npx] tsd [path]
Use tsd --help
for usage information. See Order of Operations for more details on how tsd
finds and executes tests.
Note: the CLI is primarily used to test an entire project, not a specific file. For more specific configuration and advanced usage, see Configuration and Programmatic API.
Let's assume we wrote a index.d.ts
type definition for our concat module.
declare const concat: {
(value1: string, value2: string): string;
(value1: number, value2: number): string;
};
export default concat;
In order to test this definition, add a index.test-d.ts
file.
import concat from '.';
concat('foo', 'bar');
concat(1, 2);
Running npx tsd
as a command will verify that the type definition works correctly.
Let's add some extra assertions. We can assert the return type of our function call to match a certain type.
import {expectType} from 'tsd';
import concat from '.';
expectType<string>(concat('foo', 'bar'));
expectType<string>(concat(1, 2));
The tsd
command will succeed again.
We change our implementation and type definition to return a number
when both inputs are of type number
.
declare const concat: {
(value1: string, value2: string): string;
(value1: number, value2: number): number;
};
export default concat;
If we don't change the test file and we run the tsd
command again, the test will fail.
Type assertions are strict. This means that if you expect the type to be string | number
but the argument is of type string
, the tests will fail.
import {expectType} from 'tsd';
import concat from '.';
expectType<string>(concat('foo', 'bar'));
expectType<string | number>(concat('foo', 'bar'));
If we run tsd
, we will notice that it reports an error because the concat
method returns the type string
and not string | number
.
If you still want loose type assertion, you can use expectAssignable
for that.
import {expectType, expectAssignable} from 'tsd';
import concat from '.';
expectType<string>(concat('foo', 'bar'));
expectAssignable<string | number>(concat('foo', 'bar'));
await
If your method returns a Promise
, you can use top-level await
to resolve the value instead of wrapping it in an async
IIFE.
import {expectType, expectError} from 'tsd';
import concat from '.';
expectType<Promise<string>>(concat('foo', 'bar'));
expectType<string>(await concat('foo', 'bar'));
expectError(await concat(true, false));
When searching for .test-d.ts
files and executing them, tsd
does the following:
Locates the project's package.json
, which needs to be in the current or specified directory (e.g. /path/to/project
or process.cwd()
). Fails if none is found.
Finds a .d.ts
file, checking to see if one was specified manually or in the types
field of the package.json
. If neither is found, attempts to find one in the project directory named the same as the main
field of the package.json
or index.d.ts
. Fails if no .d.ts
file is found.
Finds .test-d.ts
and .test-d.tsx
files, which can either be in the project's root directory, a specific folder (by default /[project-root]/test-d
), or specified individually programatically or via the CLI. Fails if no test files are found.
Runs the .test-d.ts
files through the TypeScript compiler and statically analyzes them for errors.
Checks the errors against assertions and reports any mismatches.
Asserts that the type of expression
is identical to type T
.
Asserts that the type of expression
is not identical to type T
.
Asserts that the type of expression
is assignable to type T
.
Asserts that the type of expression
is not assignable to type T
.
Asserts that expression
throws an error. Will not ignore syntax errors.
Asserts that expression
is marked as @deprecated
.
Asserts that expression
is not marked as @deprecated
.
Prints the type of expression
as a warning.
Useful if you don't know the exact type of the expression passed to printType()
or the type is too complex to write out by hand.
Asserts that the type and return type of expression
is never
.
Useful for checking that all branches are covered.
Asserts that the documentation comment of expression
includes string literal type T
.
tsd
is designed to be used with as little configuration as possible. However, if you need a bit more control, a project's package.json
and the tsd
CLI offer a limited set of configurations.
For more advanced use cases (such as integrating tsd
with testing frameworks), see Programmatic API.
package.json
tsd
uses a project's package.json
to find types and test files as well as for some configuration. It must exist in the path given to tsd
.
For more information on how tsd
finds a package.json
, see Order of Operations.
When you have spread your tests over multiple files, you can store all those files in a test directory called test-d
. If you want to use another directory name, you can change it in your project's package.json
:
{
"name": "my-module",
"tsd": {
"directory": "my-test-dir"
}
}
Now you can put all your test files in the my-test-dir
directory.
By default, tsd
applies the following configuration:
{
"strict": true,
"jsx": "react",
"target": "es2020",
"lib": [
"es2020",
"dom",
"dom.iterable"
],
"module": "commonjs",
"esModuleInterop": true,
"noUnusedLocals": false,
// The following options are set and are not overridable.
// Set to `nodenext` if `module` is `nodenext`, `node16` if `module` is `node16` or `node` otherwise.
"moduleResolution": "node" | "node16" | "nodenext",
"skipLibCheck": false
}
These options will be overridden if a tsconfig.json
file is found in your project. You also have the possibility to provide a custom config by specifying it in package.json
:
{
"name": "my-module",
"tsd": {
"compilerOptions": {
"strict": false
}
}
}
Default options will apply if you don't override them explicitly. You can't override the moduleResolution
or skipLibCheck
options.
The tsd
CLI is designed to test a whole project at once, and as such only offers a couple of flags for configuration.
Alias: -t
Path to the type definition file you want to test. Same as typingsFile
.
Alias: -f
An array of test files with their path. Same as testFiles
.
You can use the programmatic API to retrieve the diagnostics and do something with them. This can be useful to run the tests with AVA, Jest or any other testing framework.
import tsd from 'tsd';
const diagnostics = await tsd();
console.log(diagnostics.length);
//=> 2
You can also make use of the CLI's formatter to generate the same formatting output when running tsd
programmatically.
import tsd, {formatter} from 'tsd';
const formattedDiagnostics = formatter(await tsd());
Retrieve the type definition diagnostics of the project.
Type: object
Type: string
Default: process.cwd()
Current working directory of the project to retrieve the diagnostics for.
Type: string
Default: The types
property in package.json
.
Path to the type definition file you want to test. This can be useful when using a test runner to test specific type definitions per test.
Type: string[]
Default: Finds files with .test-d.ts
or .test-d.tsx
extension.
An array of test files with their path. Uses globby under the hood so that you can fine tune test file discovery.
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