Skip to content

An ultra-fast and robust parser, formatter, code optimizer, and linter for the JS ecosystem

License

Notifications You must be signed in to change notification settings

srijan-paul/jam

Repository files navigation

Jam

A high-performance JavaScript toolchain built from the ground up. Work in progress!

Goals

  • Faster than (or very close to) existing tools.
  • Low memory footprint.
  • Support JS, JSX, TypeScript, and CSS out of the box.
  • Support data flow analysis and call-graphs with an accessible API.
  • API for writing linting rules in Zig.
  • Expose a capable parsing and scoping library, such that a bundler, minifier, etc., can be built on top of it.
  • Custom JS plugins. (I plan to embed the Kiesel JS engine).

Roadmap

  • Phase 1:
    • A fast, 100% Spec compliant JavaScript parser.
    • JSX support (Under construction)
    • TypeScript support in the parser.
    • Port ESLint scope to Zig
    • Runtime for a linter, with Zig plugin support.
  • Alpha release
    • Simple linter with all the base rules from ESLint.
    • A prototype of a formatter
  • Beta release
    • Data flow analysis and taint checking

Local development

I've tried to keep the development process hassle-free. You need only a Zig compiler (and optionally an environment variable) to get going.

If you still face any issues, feel free to open an issue or reach out to me on discord (@injuly.), twitter (@ptrCast), or e-mail ([email protected]). I usually respond within a day.

NOTE: If you're willing to contribute, It's a good idea to copy the contents of ./pre-commit to your ./.git/hooks/pre-commit. This will ensure you didn't break any existing functionality before letting you commit changes.

Basic setup

  1. Ensure you have a master build of the zig compiler – to seamlessly switch between multiple zig versions, I recommend using zvm.
  2. Clone this project into your development machine.
  3. Run zig build run -- <path-to-file.js> to see a parsed AST for the given file.
  4. Run zig build test to run the unit tests.

Checking ECMAScript conformance

To avoid regressions and keep track of spec compliance, we use a results.json file, the format for which is further explained in the tests262 runner's README.

You'll need to set the JAM_TESTS_262_DIR environment variable to the path of a cloned tc39/test262-parser-tests repository:

git clone --depth 1 https://github.com/tc39/test262-parser-tests.git /tmp/test262-parser-tests
# `tools/ec262-tests` can find the tests if you set the environment variable.
export JAM_TESTS_262_DIR=/tmp/test262-parser-tests

To compare your changes with the existing test results, run zig build test262 -- compare ./tools/results.json. If it exits with a zero status code, you didn't break anything!

To update the test results, run zig build test262 > ./tools/results.json.

Currently, the format of the results.json file is roughly as follows:

{
  // % of test files that either: a) parsed incorrectly, or b) failed to parse.
  "fail_percent": 35.703479576399396,
  // % of test files that were parsed correctly.
  "pass_percent": 64.2965204236006,
  // number of test files that parsed but had an incorrect syntax tree.
  "unmatching_ast_count": 17,
  // results for individual test cases:
  "test_cases": {
    "2db5219f0ac5dd71.js": "parse_error",
    "c532e126a986c1d4.js": "pass",
    "d532e126a986c1d4.js": "ast_no_match",
    // ...goes on for a few thousand lines...

About

An ultra-fast and robust parser, formatter, code optimizer, and linter for the JS ecosystem

Topics

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published