Implementation of ECMA-262 in JavaScript
npm install @engine262/engine262An implementation of ECMA-262 in JavaScript
Goals
- 100% Spec Compliance
- Introspection
- Ease of modification
Non-Goals
- Speed at the expense of any of the goals
This project is bound by a [Code of Conduct][COC].
Join us in #engine262:matrix.org.
While helping develop new features for JavaScript, I've found that one of the
most useful methods of finding what works and what doesn't is being able to
actually run code using the new feature. [Babel][] is fantastic for this, but
sometimes features just can't be nicely represented with it. Similarly,
implementing a feature in one of the engines is a large undertaking, involving
long compile times and annoying bugs with the optimizing compilers.
engine262 is a tool to allow JavaScript developers to have a playground where new
features can be quickly prototyped and explored. As an example, adding
[do expressions][] to this engine is as simple as the following diff:
``diff`
--- a/src/evaluator.mts
+++ b/src/evaluator.mts
@@ -232,6 +232,8 @@ export function* Evaluate(node) {
case 'GeneratorBody':
case 'AsyncGeneratorBody':
return yield* Evaluate_AnyFunctionBody(node);
+ case 'DoExpression':
+ return yield* Evaluate_Block(node.Block);
default:
throw new OutOfRange('Evaluate', node);
}
--- a/src/parser/ExpressionParser.mts
+++ b/src/parser/ExpressionParser.mts
@@ -579,6 +579,12 @@ export class ExpressionParser extends FunctionParser {
return this.parseRegularExpressionLiteral();
case Token.LPAREN:
return this.parseParenthesizedExpression();
+ case Token.DO: {
+ const node = this.startNode
+ this.next();
+ node.Block = this.parseBlock();
+ return this.finishNode(node, 'DoExpression');
+ }
default:
return this.unexpected();
}
This simplicity applies to many other proposals, such as [optional chaining][],
[pattern matching][], [the pipeline operator][], and more. This engine has also
been used to find bugs in ECMA-262 and [test262][], the test suite for
conforming JavaScript implementations.
To run engine262 itself, a engine with support for recent ECMAScript features
is needed. Additionally, the CLI (bin/engine262.js) and test262 runnertest/test262/test262.mts
() require a recent version of Node.js.
You can install it from npm.
`shell`
npm install @engine262/engine262
yarn install @engine262/engine262
pnpm install @engine262/engine262
If you install it globally, you can use the CLI like so:
$ engine262
Classic playground and Chrome Devtools style playground
#### --module/-m
Evaluate the file as a module.
#### --eval \
Evaluate the given string and exit.
#### --features=\
Run engine262 --list-features to see all ECMAScript features can be switched.
#### --no-test262
Do not expose $ and $262 global variable for test262 test suite.
#### --no-inspector
Do not start an inspector.
By default engine262 will start an inspector on ws://localhost:9229/ (like Node.js with --inspector). See the Node.js guide for connecting.
#### --no-preview
Do not enable the preview feature in the inspector.
See the example.
npm run build and npm run watch will build and watch the build.
npm run test:test262 will run the [test262][] test suite. Run npm run test:test262 -- --help to see the test runner options.
npm start start the engine262 CLI.
npm run inspector` start the website (debugging engine262 mainly happens here).
Many people and organizations have attempted to write a JavaScript interpreter
in JavaScript much like engine262, with different goals. Some of them are
included here for reference, though engine262 is not based on any of them.
-
-
-
[Babel]: https://babeljs.io/
[COC]: https://github.com/engine262/engine262/blob/master/CODE_OF_CONDUCT.md
[do expressions]: https://github.com/tc39/proposal-do-expressions
[optional chaining]: https://github.com/tc39/proposal-optional-chaining
[pattern matching]: https://github.com/tc39/proposal-pattern-matching
[test262]: https://github.com/tc39/test262
[the pipeline operator]: https://github.com/tc39/proposal-pipeline-operator
[NPM]: https://npmjs.com/@engine262/engine262