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Setup | Running linting/tests | Writing tests | Debugging code | Internals

---

Contributing

Contributions are always welcome, no matter how large or small! Before contributing, please read the code of conduct.

If you want an already configured online IDE to contribute to Babel, you can use Gitpod!

Not sure where to start?

  • If you aren't just making a documentation change, you'll probably want to learn a bit about a few topics.
    • ASTs (Abstract Syntax Tree): The Babel AST spec is a bit different from ESTree. The differences are listed here.
    • Check out /doc for information about Babel's internals
    • Check out the Babel Plugin Handbook - core plugins are written the same way as any other plugin!
    • Check out AST Explorer to learn more about ASTs or make your own plugin in the browser
  • When you feel ready to jump into the Babel source code, a good place to start is to look for issues tagged with help wanted and/or good first issue.
  • Follow along with what we are working on by joining our Slack (you can sign up here for an invite), following our announcements on Twitter, and reading (or participating!) in our meeting notes.
  • Check out our website and the repo
  • You can contribute by triaging issues which may include reproducing bug reports or asking for vital information, such as version numbers or reproduction instructions. If you would like to start triaging issues, one easy way to get started is to subscribe to babel on CodeTriage. Open Source Helpers

Chat

Feel free to check out the #discussion/#development channels on our Slack (you can sign up here for an invite). Some of us are always online to chat!

Developing

Node: Check that Node is installed with version ^12.20 || >= 14.13. You can check this with node -v.

Yarn: Make sure that Yarn 1 is installed with version >= 1.19.0.

Make: If you are running Windows 10, you'll need to do one of the following:

  • Run the commands inside WSL 2.
  • Using make normally (make or ./make), it will automatically call the cross-platform Makefile.mjs. (There may be a small part of the function not implemented.)

Setup

Fork the babel repository to your GitHub Account.

Then, run:

$ git clone https://github.com/<your-github-username>/babel
$ cd babel
$ make bootstrap

Then you can either run:

$ make build

to build Babel once or:

$ make watch

to have Babel build itself and incrementally build files on change.

You can access the built files for individual packages from packages/<package-name>/lib.

If you wish to build a copy of Babel for distribution, then run:

$ make build-dist

Develop compiling to CommonJS or to ECMAScript modules

Babel can currently be compiled both to CJS and to ESM. You can toggle between those two modes by running one of the following commands:

make use-esm
make use-cjs

Note that they need to recompile the whole monorepo, so please make sure to stop any running make watch process before running them.

If you never run a make use-* (or if you delete the .module-type file that they generate), our build process defaults to CJS.

Running linting/tests

Lint

# ~6 sec on a MacBook Pro (Mid 2015)
$ make lint
  • You can run eslint's autofix via:
$ make fix

Tests + lint for all packages (slow) via:

# ~46 sec on a MacBook Pro (Mid 2015)
$ make test

All tests:

# ~40 sec on a MacBook Pro (Mid 2015)
$ make test-only

Run tests for a specific package

When working on an issue, you will most likely want to focus on a particular packages. Using TEST_ONLY will only run tests for that specific package.

$ TEST_ONLY=babel-cli make test
More options TEST_ONLY will also match substrings of the package name:
# Run tests for the @babel/plugin-transform-classes package.
$ TEST_ONLY=babel-plugin-transform-classes make test

Or you can use Yarn:

$ yarn jest babel-cli

Run a subset of tests

Use the TEST_GREP variable to run a subset of tests by name:

$ TEST_GREP=transformation make test

Substitute spaces for hyphens and forward slashes when targeting specific test names:

For example, for the following path:

packages/babel-plugin-transform-arrow-functions/test/fixtures/arrow-functions/destructuring-parameters

You can use:

$ TEST_GREP="arrow functions destructuring parameters" make test

Or you can directly use Yarn:

$ yarn jest -t "arrow functions destructuring parameters"

Run test with Node debugger

To enable the Node.js debugger, set the TEST_DEBUG environment variable:

$ TEST_DEBUG=true make test
More options

You can also run jest directly, but you must remember to include --runInBand or -i or you may not hit breakpoints with the chrome debugger.

yarn run --inspect-brk jest -i packages/package-to-test

You can combine TEST_DEBUG with TEST_GREP or TEST_ONLY to debug a subset of tests. If you plan to stay long in the debugger (which you'll likely do!), you may increase the test timeout by editing test/testSetupFile.js.

To overwrite any test fixtures when fixing a bug or anything, add the env variable OVERWRITE=true

$ OVERWRITE=true TEST_ONLY=babel-plugin-transform-classes make test-only

Test coverage

To test the code coverage, use:

make test-cov

Troubleshooting Tests

In case you're not able to reproduce an error on CI locally, it may be due to

  • Node Version: Travis CI runs the tests against all major node versions. If your tests use JavaScript features unsupported by lower versions of node, then use minNodeVersion option in options.json.
  • Timeout: Check the CI log and if the only errors are timeout errors and you are sure that it's not related to the changes you made, ask someone in the slack channel to trigger rebuild on the CI build and it might be resolved

In case you're locally getting errors which are not on the CI, it may be due to

  • Updates in Dependencies: Make sure you run make bootstrap before you run make build or make watch before you run the tests.

Writing tests

Most packages in /packages have a test folder, however some tests might be in other packages or in /packages/babel-core.

@babel/plugin-x

All the Babel plugins (and other packages) that have a /test/fixtures are written in a similar way.

For example, in @babel/plugin-transform-exponentiation-operator/test:

  • There is an index.js file. It imports our test helper. (You don't have to worry about this).

  • There can be multiple folders under /fixtures

    • There is an options.json file whose function is similar to a .babelrc file, allowing you to pass in the plugins and settings you need for your tests.
    • For this test, we only need the relevant plugin, so it's just { "plugins": ["@babel/plugin-transform-exponentiation-operator"] }.
    • If necessary, you can have an options.json with different options in each subfolder.
  • In each subfolder, you can organize your directory structure by categories of tests. (Example: these folders can be named after the feature you are testing or can reference the issue number they fix)

  • Generally, there are two kinds of tests for plugins   - The first is a simple test of the input and output produced by running Babel on some code. We do this by creating an input.js file and an output.js file. This kind of test only works in sub-subdirectories of /fixtures, i.e. /fixtures/exponentiation-operator/binary/input.js and not /fixtures/exponentiation-operator/input.js.

    • If you need to expect an error, you can ignore creating the output.js file and pass a new throws key to the options.json that contains the error string that is created.
    • The second and preferred type is a test that actually evaluates the produced code and asserts that certain properties are true or false. We do this by creating an exec.js file.

In a fixture test, you simply write out the code you want to transform in input.js.

// input.js
2 ** 2;

and the expected output after transforming it with your options.json in output.js.

// output.js
Math.pow(2, 2);

In an exec.js test, we run or check that the code actually does what it's supposed to do rather than just check the static output.

// exec.js
expect(2 ** 3).toBe(8);
expect(3 * 2 ** 3).toBe(24);
options.json settings

Other than normal Babel options, options.json can contain other properties to configure the test behavior:

  • throws (string)

    If you need to check for an error that is thrown you can add to the options.json

    // options.json example
    {
      "plugins": [
        [
          "@babel/plugin-proposal-object-rest-spread",
          { "useBuiltIns": "invalidOption" }
        ]
      ],
      "throws": "@babel/plugin-proposal-object-rest-spread currently only accepts a boolean option for useBuiltIns (defaults to false)"
    }
  • minNodeVersion (string)

    If the test requires a minimum Node version, you can add minNodeVersion (must be in semver format).

    // options.json example
    {
      "minNodeVersion": "5.0.0"
    }
  • externalHelpers (boolean)

    By default, all the tests run with the @babel/plugin-external-helpers enabled. You can disable this behavior with

    // options.json example
    {
      "externalHelpers": false
    }

@babel/parser (babylon)

Writing tests for the babel parser is very similar to the other packages. Inside the packages/babel-parser/test/fixtures folder are categories/groupings of test fixtures (es2015, flow, etc.). To add a test, create a folder under one of these groupings (or create a new one) with a descriptive name, and add the following:

  • Create an input.js file that contains the code you want the babel parser to parse.

  • Add an output.json file with the expected parser output. For added convenience, if there is no output.json present, the test runner will generate one for you.

After writing tests for @babel/parser, just build it by running:

$ make build

Then, to run the tests, use:

$ TEST_ONLY=babel-parser make test-only

Bootstrapping expected output

For both @babel/plugin-x and @babel/parser, you can easily generate an output.js/output.json automatically by just providing input.js and running the tests as you usually would.

// Example
- packages
  - babel-parser
    - test
      - fixtures
        - comments
          - basic
            - block-trailing-comment
              - input.js
              - output.json (will be generated if not created)

Editor setup

We have JSON Schema definitions so that your editor can provide autocomplete for options.json files in fixtures:

  • ./packages/babel-helper-fixtures/data/schema.json for plugins/presets tests
  • ./packages/babel-parser/test/schema.json for parser tests

If you use VS Code you can copy the contents of .vscode/settings.example.json into .vscode/settings.json to make it use the JSON Schema definitions. Other editors have different options to load JSON Schema files.

Debugging code

A common approach to debugging JavaScript code is to walk through the code using the Chrome DevTools debugger. For illustration purposes, we are going to assume that we need to get a better understanding of Generator.generate(), which is responsible for generating code for a given AST. To get a better understanding of what is actually going on for this particular piece of code, we are going to make use of breakpoints.

generate() {
+ debugger; // breakpoint
  return super.generate(this.ast);
}

To include the changes, we have to make sure to build Babel:

$ make build

Next, we need to execute Generator.generate(), which can be achieved by running a test case in the @babel/generator package. For example, we can run the test case that tests the generation of class declarations:

$ TEST_DEBUG=true TEST_GREP=ClassDeclaration make test-only

./scripts/test.sh
Debugger listening on port 9229.
To start debugging, open the following URL in Chrome:
    chrome-devtools://devtools/remote/serve_file/@60cd6e859b9f557d2312f5bf532f6aec5f284980/inspector.html?experiments=true&v8only=true&ws=127.0.0.1:9229/3cdaebd2-be88-4e7b-a94b-432950ab72d0

To start the debugging in Chrome DevTools, open the given URL. The debugger starts at the first executed line of code, which is Mocha's first line by default. Click Resume script execution Resume script execution button. to jump to the set breakpoint. Note that the code shown in Chrome DevTools is compiled code and therefore differs.

Creating a new plugin (spec-new)

Example: babel#11640

  • Create a new PR that describes the proposed AST shape in ESTree (ex: Decimal AST). The new AST should follow ESTree's design philosophy.

  • After the ESTree PR is accepted, update ast/spec.md. Note that there are differences between Babel AST and ESTree. In these cases, consistency with current Babel AST outweighs alignment to ESTree. Otherwise it should follow ESTree.

  • Implement parser plugins based on the new AST. The parser plugin name should be the unprefixed slug of the TC39 proposal URL in camelcase, i.e. exportDefaultFrom from https://github.com/tc39/proposal-export-default-from.

    • Use the this.expectPlugin("pluginName") check within @babel/parser to ensure your new plugin code only runs when that flag is turned on (not default behavior), and a friendly error is thrown if users forget to enable a plugin. You can also supply an array pair to require certain configuration options, e.g., this.expectPlugin(["pluginName", { configOption: value }]).
    • Add failing/passing tests according to spec behavior
    • Add @babel/syntax-new-syntax package. You can copy packages/babel-plugin-syntax-decimal and replace decimal to new-syntax.
    • Add @babel/syntax-new-syntax to @babel/standalone.
      • Add @babel/syntax-new-syntax to package.json
      • Add @babel/syntax-new-syntax to pluginsConfig.json, run make build-standalone.
      • Add @babel/syntax-new-syntax to src/preset-stage-x.
    • Add "newSyntax" to parser typings
  • Implement generator support in packages/babel-generator/src/generators. The generator converts AST to source code.

  • If this feature can be transpiled, start working on the Babel transform.

Internals