Code Transformation
Jest runs the code in your project as JavaScript, but if you use some syntax not supported by Node out of the box (such as JSX, TypeScript, Vue templates) then you'll need to transform that code into plain JavaScript, similar to what you would do when building for browsers.
Jest supports this via the transform
configuration option.
A transformer is a module that provides a method for transforming source files. For example, if you wanted to be able to use a new language feature in your modules or tests that aren't yet supported by Node, you might plug in a code preprocessor that would transpile a future version of JavaScript to a current one.
Jest will cache the result of a transformation and attempt to invalidate that result based on a number of factors, such as the source of the file being transformed and changing configuration.
Defaults
Jest ships with one transformer out of the box – babel-jest
. It will load your project's Babel configuration and transform any file matching the /\.[jt]sx?$/
RegExp (in other words, any .js
, .jsx
, .ts
or .tsx
file). In addition, babel-jest
will inject the Babel plugin necessary for mock hoisting talked about in ES Module mocking.
By default, babel-jest
includes babel-preset-jest
. You can disable this behavior by specifying excludeJestPreset: true
to babel-jest
. Note that this will also stop hoisting jest.mock
, which may break your tests.
"transform": {
"\\.[jt]sx?$": ["babel-jest", { "excludeJestPreset": true }],
}
Remember to include the default babel-jest
transformer explicitly, if you wish to use it alongside with additional code preprocessors:
"transform": {
"\\.[jt]sx?$": "babel-jest",
"\\.css$": "some-css-transformer",
}
Writing custom transformers
You can write your own transformer. The API of a transformer is as follows:
interface TransformOptions<TransformerConfig = unknown> {
supportsDynamicImport: boolean;
supportsExportNamespaceFrom: boolean;
/**
* The value is:
* - `false` if Jest runs without Node ESM flag `--experimental-vm-modules`
* - `true` if the file extension is defined in [extensionsToTreatAsEsm](Configuration.md#extensionstotreatasesm-arraystring)
* and Jest runs with Node ESM flag `--experimental-vm-modules`
*
* See more at https://jestjs.io/docs/next/ecmascript-modules
*/
supportsStaticESM: boolean;
supportsTopLevelAwait: boolean;
instrument: boolean;
/** Cached file system which is used by `jest-runtime` to improve performance. */
cacheFS: Map<string, string>;
/** Jest configuration of currently running project. */
config: ProjectConfig;
/** Stringified version of the `config` - useful in cache busting. */
configString: string;
/** Transformer configuration passed through `transform` option by the user. */
transformerConfig: TransformerConfig;
}
type TransformedSource = {
code: string;
map?: RawSourceMap | string | null;
};
interface SyncTransformer<TransformerConfig = unknown> {
canInstrument?: boolean;
getCacheKey?: (
sourceText: string,
sourcePath: string,
options: TransformOptions<TransformerConfig>,
) => string;
getCacheKeyAsync?: (
sourceText: string,
sourcePath: string,
options: TransformOptions<TransformerConfig>,
) => Promise<string>;
process: (
sourceText: string,
sourcePath: string,
options: TransformOptions<TransformerConfig>,
) => TransformedSource;
processAsync?: (
sourceText: string,
sourcePath: string,
options: TransformOptions<TransformerConfig>,
) => Promise<TransformedSource>;
}
interface AsyncTransformer<TransformerConfig = unknown> {
canInstrument?: boolean;
getCacheKey?: (
sourceText: string,
sourcePath: string,
options: TransformOptions<TransformerConfig>,
) => string;
getCacheKeyAsync?: (
sourceText: string,
sourcePath: string,
options: TransformOptions<TransformerConfig>,
) => Promise<string>;
process?: (
sourceText: string,
sourcePath: string,
options: TransformOptions<TransformerConfig>,
) => TransformedSource;
processAsync: (
sourceText: string,
sourcePath: string,
options: TransformOptions<TransformerConfig>,
) => Promise<TransformedSource>;
}
type Transformer<TransformerConfig = unknown> =
| SyncTransformer<TransformerConfig>
| AsyncTransformer<TransformerConfig>;
type TransformerCreator<
X extends Transformer<TransformerConfig>,
TransformerConfig = unknown,
> = (transformerConfig?: TransformerConfig) => X;
type TransformerFactory<X extends Transformer> = {
createTransformer: TransformerCreator<X>;
};
The definitions above were trimmed down for brevity. Full code can be found in Jest repo on GitHub (remember to choose the right tag/commit for your version of Jest).
There are a couple of ways you can import code into Jest - using Common JS (require
) or ECMAScript Modules (import
- which exists in static and dynamic versions). Jest passes files through code transformation on demand (for instance when a require
or import
is evaluated). This process, also known as "transpilation", might happen synchronously (in the case of require
), or asynchronously (in the case of import
or import()
, the latter of which also works from Common JS modules). For this reason, the interface exposes both pairs of methods for asynchronous and synchronous processes: process{Async}
and getCacheKey{Async}
. The latter is called to figure out if we need to call process{Async}
at all.
Asynchronous transpilation can fall back to the synchronous process
call if processAsync
is unimplemented, but synchronous transpilation cannot use the asynchronous processAsync
call. If your codebase is ESM only, implementing the async variants are sufficient. Otherwise, if any code is loaded through require
(including createRequire
from within ESM), then you need to implement the synchronous process
variant.
Be aware that node_modules
is not transpiled with default config, the transformIgnorePatterns
setting must be modified in order to do so.
Semi-related to this are the supports flags we pass (see CallerTransformOptions
above), but those should be used within the transform to figure out if it should return ESM or CJS, and has no direct bearing on sync vs async
Though not required, we highly recommend implementing getCacheKey
as well, so we do not waste resources transpiling when we could have read its previous result from disk. You can use @jest/create-cache-key-function
to help implement it.
Instead of having your custom transformer implement the Transformer
interface directly, you can choose to export createTransformer
, a factory function to dynamically create transformers. This is to allow having a transformer config in your jest config.
ECMAScript module support is indicated by the passed in supports*
options. Specifically supportsDynamicImport: true
means the transformer can return import()
expressions, which is supported by both ESM and CJS. If supportsStaticESM: true
it means top level import
statements are supported and the code will be interpreted as ESM and not CJS. See Node's docs for details on the differences.
Make sure process{Async}
method returns source map alongside with transformed code, so it is possible to report line information accurately in code coverage and test errors. Inline source maps also work but are slower.
During the development of a transformer it can be useful to run Jest with --no-cache
to frequently delete cache.
Examples
TypeScript with type checking
While babel-jest
by default will transpile TypeScript files, Babel will not verify the types. If you want that you can use ts-jest
.
Transforming images to their path
Importing images is a way to include them in your browser bundle, but they are not valid JavaScript. One way of handling it in Jest is to replace the imported value with its filename.
const path = require('path');
module.exports = {
process(sourceText, sourcePath, options) {
return {
code: `module.exports = ${JSON.stringify(path.basename(sourcePath))};`,
};
},
};
module.exports = {
transform: {
'\\.(jpg|jpeg|png|gif|eot|otf|webp|svg|ttf|woff|woff2|mp4|webm|wav|mp3|m4a|aac|oga)$':
'<rootDir>/fileTransformer.js',
},
};