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Thus, move it forward, and avoid doing a useless serialization pass (which was needed earlier as that was the way we would find module ids in the residual program via the visitor). |
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flow-typed/npm | ||
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test | ||
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CONTRIBUTING.md | ||
LICENSE | ||
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webpack.config.js |
Prepack
Prepack is a partial evaluator for JavaScript. Prepack rewrites a JavaScript bundle, resulting in JavaScript code that executes more efficiently. For initialization-heavy code, Prepack works best in an environment where JavaScript parsing is effectively cached.
How it works
Prepack fully evaluates the initialization code in a JavaScript bundle and persists the resulting initialized heap as straightforward JavaScript code that efficiently rebuilds the heap without creating any temporary objects or values. The code for any functions that are referenced by the initialization code and are reachable from the initialized heap is retained in the residual program. Prepack may speculatively partially evaluate such residual functions, in particular residual module factory functions.
Examples
Hello World
(function () {
function hello() { return 'hello'; }
function world() { return 'world'; }
global.s = hello() + ' ' + world();
})();
becomes
(function () {
s = "hello world";
})();
Fibonacci
(function () {
function fibonacci(x) {
return x <= 1 ? x : fibonacci(x - 1) + fibonacci(x - 2);
}
global.x = fibonacci(23);
})();
becomes
(function () {
x = 28657;
})();
Module Initialization
(function () {
let moduleTable = {};
function define(id, f) { moduleTable[id] = f; }
function require(id) {
let x = moduleTable[id];
return x instanceof Function ? (moduleTable[id] = x()) : x;
}
global.require = require;
define("one", function() { return 1; }, "one");
define("two", function() { return require("one") + require("one"); });
define("three", function() { return require("two") + require("one"); });
define("four", function() { return require("three") + require("one"); });
})();
three = require("three");
becomes
(function () {
function _2() {
return 3 + 1;
}
var _1 = {
one: 1,
two: 2,
three: 3,
four: _2
};
function _0(id) {
let x = _1[id];
return x instanceof Function ? _1[id] = x() : x;
}
require = _0;
three = 3;
})();
Note how most computations have been pre-initialized. However, the function that computes four (_2
) remains in the residual program.
(TODO: Partially evaluating functions in the residual program, that 3 + 1
looks a bit silly.)
Environment Interactions and Branching
(function(){
function fib(x) { return x <= 1 ? x : fib(x - 1) + fib(x - 2); }
let x = Date.now();
if (x === 0) x = fib(10);
global.result = x;
})();
becomes
(function () {
var _0 = Date.now();
if (typeof _0 !== "number") {
throw new Error("Prepack model invariant violation");
}
result = _0 === 0 ? 55 : _0;
})();
Status
- test262 status on master branch
- code coverage report for serialization tests
- To see the status for a pull request, look for the message All checks have passed or All checks have failed. Click on Show all checks, Details, Artifacts, and then test262-status.txt or coverage-report-sourcemapped/index.html.
Roadmap
- [ALMOST DONE] ECMAScript 5 JavaScript interpreter: At its core, Prepack comes with a full-blown almost standards-compliant (ECMAScript 5) JavaScript interpreter --- written in JavaScript and typed with Flow.
- [ONGOING] On top of this foundation, Prepack can not only execute a JavaScript program concrete, but also symbolically. When Prepack comes across a JavaScript built-in function or language construct that doesn't support symbolic execution yet, Prepack terminates symbolic execution by throwing a special exception. We keep expanding the subset of the language and built-in functions which Prepack can execute symbolically.
- [ONGOING, low priority] ECMAScript 6 support
- [FUTURE] The JavaScript analysis framework of Prepack should be useful to implement other tools, including automated test generation by symbolic execution, taint tracking, and error finding.
How to get the code
- Clone repository and make it your current directory.
git submodule init
git submodule update --recursive --remote
- Get npm and node, then do
npm install
How to build, lint, type check
- Get the code
npm run build
You can later runnpm run watch
in the background to just compile changed files on the fly.npm run lint
npm run flow
How to run tests
- Get the code
- Make sure the code is built, either by running
npm run build
ornpm run watch
npm test
You can run individual test suites as follows.
npm run test-serializer
This tests the interpreter and serializer. All tests should pass.npm run test-test262
This tests conformance against the test262 suite. Not all will pass, increasing conformance is work in progress.
How to run the interpreter
- Get the code
- Make sure the code is built, either by running
npm run build
ornpm run watch
npm run repl
This starts an interactive interpreter session.
How to run Prepack
-
Get the code
-
Make sure the code is built, either by running
npm run build
ornpm run watch
. -
Have a JavaScript file handy that you want to prepack, for example:
echo "function hello() { return 'hello'; } function world() { return 'world'; } s = hello() + ' ' + world();" >/tmp/sample.js
-
npm run prepack /tmp/sample.js
Try--help
for more options.
How to validate changes
Instead of building, linting, type checking, testing separately, the following does everything together:
npm run validate
How to contribute
For more information about contributing pull requests and issues, see our Contribution Guidelines.
License
Prepack is BSD-licensed. We also provide an additional patent grant.