es6ify

browserify v2 transform to compile JavaScript.next (ES6) to JavaScript.current (ES5) on the fly.

es6ify

browserify >=v2 transform to compile JavaScript.next (ES6) to JavaScript.current (ES5) on the fly.

browserify({ debug: true })
  .add(es6ify.runtime)
  .transform(es6ify)
  .require(require.resolve('./src/main.js'), { entry: true })
  .bundle()
  .pipe(fs.createWriteStream(bundlePath));

Find the full version of this example here.

npm install es6ify

Try it live

**Table of Contents** *generated with [DocToc](http://doctoc.herokuapp.com/)*

The traceur runtime exposed here so it can be included in the bundle via:

browserify.add(es6ify.runtime)

The runtime is quite large and not needed for all ES6 features and therefore not added to the bundle by default. See this comment for details.

Source:

Allows to override traceur compiler defaults.

In order to support async functions (async/await) do:

es6ify.traceurOverrides = { asyncFunctions: true }

Source:

The es6ify transform to be used with browserify.

browserify().transform(es6ify)

Source:

function that returns a TransformStream when called with a file

Type function

Compile function, exposed to be used from other libraries, not needed when using es6ify as a transform.

Name Type Description
file string

name of the file that is being compiled to ES5

src string

source of the file being compiled to ES5

Source:

compiled source

Type string

Configurable es6ify transform function that allows specifying the filePattern of files to be compiled.

Name Type Argument Description
filePattern string <optional>

(default: `/.js$/) pattern of files that will be es6ified

Source:

function that returns a TransformStream when called with a file

Type function

generated with docme

The default file pattern includes all JavaScript files, but you may override it in order to only transform files coming from a certain directory, with a specific file name and/or extension, etc.

By configuring the regex to exclude ES5 files, you can optimize the performance of the transform. However transforming ES5 JavaScript will work since it is a subset of ES6.

browserify({ debug: true })
  .add(require('es6ify').runtime)
   // compile all .js files except the ones coming from node_modules 
  .transform(require('es6ify').configure(/^(?!.*node_modules)+.+\.js$/))
  .require(require.resolve('./src/main.js'), { entry: true })
  .bundle()
  .pipe(fs.createWriteStream(bundlePath));

Some features supported by traceur are still experimental: either nonstandard, proposed but not yet standardized, or just too slow to use for most code. Therefore Traceur disables them by default. They can be enabled by overriding these options.

For instance to support the async functions (async/await) feature you'd do the following.

var es6ify = require('es6ify');
es6ify.traceurOverrides = { asyncFunctions: true };
browserify({ debug: true })
  .add(es6ify.runtime)
  .require(require.resolve('./src/main.js'), { entry: true })
  .bundle()
  .pipe(fs.createWriteStream(bundlePath));

When es6ify is run on a development server to help generate the browserify bundle on the fly, it makes sense to only recompile ES6 files that changed. Therefore es6ify caches previously compiled files and just pulls them from there if no changes were made to the file.

es6ify instructs the traceur transpiler to generate source maps. It then inlines all original sources and adds the resulting source map base64 encoded to the bottom of the transformed content. This allows debugging the original ES6 source when using the debug flag with browserify.

If the debug flag is not set, these source maps will be removed by browserify and thus will not be contained inside your production bundle.

var log = msg => console.log(msg);

full example

class Character {
  constructor(x, y, name) {
    this.x = x;
    this.y = y;
  }
  attack(character) {
    console.log('attacking', character);
  }
}
 
class Monster extends Character {
  constructor(x, y, name) {
    super(x, y);
    this.name = name;
    this.health_ = 100;
  }
 
  attack(character) {
    super.attack(character);
  }
 
  get isAlive() { return this.health > 0; }
  get health() { return this.health_; }
  set health(value) {
    if (value < 0) throw new Error('Health must be non-negative.');
    this.health_ = value;
  }
}

full example

function logDeveloper(namecodes = 'JavaScript'livesIn = 'USA') {
  console.log('name: %s, codes: %s, lives in: %s', name, codes, livesIn);
};

full example

var [a, [b], c, d] = ['hello', ['', 'junk'], ['world']];
console.log(+ b + c); // hello, world 

full example

for (let element of [1, 2, 3]) {
  console.log('element:', element);
}

full example

var object = {
  prop: 42,
  // No need for function 
  method() {
    return this.prop;
  }
};
var foo = 'foo';
var bar = 'bar';
var obj = { foo, bar };
var x = 5, y = 10;
console.log(`${x} + ${y} = ${ x + y}`)
// 5 + 10 = 15 
function printList(listname, ...items) {
  console.log('list %s has the following items', listname);
  items.forEach(function (item) { console.log(item); });
};

full example

function add(xy) {
  console.log('%d + %d = %d', x, y, x + y);
}
var numbers = [5, 10]
add(...numbers);
// 5 + 10 = 15 
};

full example

// A binary tree class. 
function Tree(leftlabelright) {
  this.left = left;
  this.label = label;
  this.right = right;
}
 
// A recursive generator that iterates the Tree labels in-order. 
function* inorder(t) {
  if (t) {
    yield* inorder(t.left);
    yield t.label;
    yield* inorder(t.right);
  }
}
 
// Make a tree 
function make(array) {
  // Leaf node: 
  if (array.length == 1) return new Tree(null, array[0], null);
  return new Tree(make(array[0]), array[1], make(array[2]));
}
 
 
let tree = make([[['a'], 'b', ['c']], 'd', [['e'], 'f', ['g']]]);
console.log('generating tree labels in order:');
 
// Iterate over it 
for (let node of inorder(tree)) {
  console.log(node); // a, b, c, d, ... 
}

full example

{
  let tmp = 5;
}
console.log(typeof tmp === ''); // true 

NOTE: Traceur has a pretty bad bug that makes the above code not work correctly for now: google/traceur-compiler#1358.

Imports and exports are converted to commonjs style require and module.exports statements to seamlessly integrate with browserify.