Skip to content
/ webpack Public
forked from webpack/webpack

A bundler for javascript and friends. Packs many modules into a few bundled assets. Code Splitting allows to load parts for the application on demand. Through "loaders," modules can be CommonJs, AMD, ES6 modules, CSS, Images, JSON, Coffeescript, LESS, ... and your custom stuff.

License

Notifications You must be signed in to change notification settings

BkSouX/webpack

 
 

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

webpack

NPM version Gitter chat Downloads

NPM

build Build Status Appveyor Status Coverage Status

dependencies Dependency Status devDependency Status peerDependency Status

donation gratipay donate button Donate to sokra

BADGINATOR

documentation

Introduction

webpack is a bundler for modules. The main purpose is to bundle JavaScript files for usage in a browser, yet it is also capable of transforming, bundling, or packaging just about any resource or asset.

TL; DR

  • Bundles both CommonJS and AMD modules (even combined).
  • Can create a single bundle or multiple chunks that are asynchronously loaded at runtime (to reduce initial loading time).
  • Dependencies are resolved during compilation reducing the runtime size.
  • Loaders can preprocess files while compiling, e.g. coffeescript to JavaScript, handlebars strings to compiled functions, images to Base64, etc.
  • Highly modular plugin system to do whatever else your application requires.

Getting Started

Check out webpack's documentation for quick Getting Started guide, in-depth usage, tutorials and resources.

Installation

project: npm install webpack --save-dev

global: npm install webpack -g

Usage: https://webpack.github.io/docs/tutorials/getting-started/

Examples

Take a look at the examples folder.

Features

Plugins

webpack has a rich plugin interface. Most of the features within webpack itself use this plugin interface. This makes webpack very flexible.

Performance

webpack uses async I/O and has multiple caching levels. This makes webpack fast and incredibly fast on incremental compilations.

Loaders

webpack enables use of loaders to preprocess files. This allows you to bundle any static resource way beyond JavaScript. You can easily write your own loaders using node.js.

Loaders are activated by using loadername! prefixes in require() statements, or are automatically applied via regex from your webpack configuration.

Please see Using Loaders for more information.

basic

  • json: Loads file as JSON
  • raw: Loads raw content of a file (as utf-8)
  • val: Executes code as module and consider exports as JavaScript code
  • script: Executes a JavaScript file once in global context (like in script tag), requires are not parsed.

packaging

  • file: Emits the file into the output folder and returns the (relative) url.
  • url: The url loader works like the file loader, but can return a Data Url if the file is smaller than a limit.
  • image: Compresses your images. Ideal to use together with file or url.
  • svgo-loader: Compresses SVG images using svgo library
  • baggage: Automatically require any resources related to the required one
  • polymer-loader: Process HTML & CSS with preprocessor of choice and require() Web Components like first-class modules.

dialects

templating

  • html: Exports HTML as string, require references to static resources.
  • jade: Loads jade template and returns a function
  • handlebars: Loads handlebars template and returns a function
  • ractive: Pre-compiles Ractive templates for interactive DOM manipulation
  • markdown: Compiles Markdown to HTML
  • ng-cache: Puts HTML partials in the Angular's $templateCache

styling

  • style: Add exports of a module as style to DOM
  • css: Loads css file with resolved imports and returns css code
  • cssnext: Loads and compiles a css file using cssnext
  • less: Loads and compiles a less file
  • sass: Loads and compiles a scss file
  • stylus: Loads and compiles a stylus file

misc

  • po: Loads a PO gettext file and returns JSON
  • mocha: Do tests with mocha in browser or node.js
  • eslint: PreLoader for linting code using ESLint.
  • jshint: PreLoader for linting code.
  • jscs: PreLoader for style checking.
  • injectable: Allow to inject dependencies into modules
  • transform: Use browserify transforms as loader.

For the full list of loaders, see list of loaders.

Module Format (AMD/CommonJS)

webpack supports both AMD and CommonJS module styles. It performs clever static analysis on the AST of your code. It even has an evaluation engine to evaluate simple expressions. This allows you to support most existing libraries out of the box.

Code Splitting

webpack allows you to split your codebase into multiple chunks. Chunks are loaded asynchronously at runtime. This reduces the initial loading time.

Code Splitting documentation

Optimizations

webpack can do many optimizations to reduce the output size of your JavaScript by deduplicating frequently used modules, minifying, and giving you full control of what is loaded initially and what is loaded at runtime through code splitting. It can also can make your code chunks cache friendly by using hashes.

Optimization documentation

A small example of what's possible

// webpack is a module bundler.
// This means webpack takes modules with dependencies
// and emits static assets representing those modules.

// Dependencies can be written in CommonJS
var commonjs = require("./commonjs");
// or in AMD
define(["amd-module", "../file"], function (amdModule, file) {
	// while previous constructs are sync,
	// this is async
	require(["big-module/big/file"], function (big) {
		 // For async dependencies, webpack splits
		 // your application into multiple "chunks".
		 // This part of your application is
		 // loaded on demand (code-splitting).
		var stuff = require("../my/stuff");
		// "../my/stuff" is also loaded on-demand
		//  because it's in the callback function
		//  of the AMD require.
	});
});


require("coffee!./cup.coffee");
// "Loaders" are used to preprocess files.
// They can be prefixed in the require call
// or configured in the configuration.
require("./cup");
// This does the same when you add ".coffee" to the extensions
// and configure the "coffee" loader for /\.coffee$/

function loadTemplate (name) {
	return require("./templates/" + name + ".jade");
	// Many expressions are supported in require calls.
	// A clever parser extracts information and concludes
	// that everything in "./templates" that matches
	// /\.jade$/ should be included in the bundle, as it
	// can be required.
}


// ...and you can combine everything.
function loadTemplateAsync (name, callback) {
	require(["bundle?lazy!./templates/" + name + ".jade"],
	  function (templateBundle) {
	          templateBundle(callback);
	});
}

Documentation

documentation

Changelog

changelog

Tests

You can run the Node tests with npm test.

You can run the browser tests:

cd test/browsertests
node build

and open tests.html in the browser.

Contribution

Most of the time, if webpack is not working correctly for you it is a simple configuration issue.

If you are still having difficulty after looking over your configuration carefully, please post a question to StackOverflow with the webpack tag. Questions that include your webpack.config.js and relevant files are more likely to receive responses.

If you have discovered a bug or have a feature suggestion, feel free to create an issue on Github.

If you create a loader or plugin, please consider open sourcing it, putting it on NPM and following the x-loader, x-plugin convention.

You are also welcome to correct any spelling mistakes or any language issues.

If you want to discuss something or just need help, here is our gitter.im room.

License

Copyright (c) 2012-2016 Tobias Koppers

MIT (http://opensource.org/licenses/mit-license.php)

Thanks to

(In chronological order)

  • @google for Google Web Toolkit (GWT), which aims to compile Java to JavaScript. It features a similar Code Splitting as webpack.
  • @medikoo for modules-webmake, which is a similar project. webpack was born because I wanted Code Splitting for modules-webpack. Interestingly the Code Splitting issue is still open (thanks also to @Phoscur for the discussion).
  • @substack for browserify, which is a similar project and source for many ideas.
  • @jrburke for require.js, which is a similar project and source for many ideas.
  • @defunctzombie for the browser-field spec, which makes modules available for node.js, browserify and webpack.
  • Every early webpack user, which contributed to webpack by writing issues or PRs. You influenced the direction...
  • @shama, @jhnns and @sokra for maintaining this project
  • Everyone who has written a loader for webpack. You are the ecosystem...
  • Everyone I forgot to mention here, but also influenced webpack.

Sponsor

This is a free-time project. The time I invest in it fluctuates. If you use webpack for a serious task, and you'd like me to invest more time on it, please donate. This project increases your income/productivity too. It makes development and applications faster and it reduces the required bandwidth.

Another way you can help fund Webpack is by buying the ebook "SurviveJS - Webpack", where around ~30% of the book's profit will go to me.

I'm very thankful for every dollar. If you leave your username or email, I may show my thanks by giving you extra support.

Dependencies

About

A bundler for javascript and friends. Packs many modules into a few bundled assets. Code Splitting allows to load parts for the application on demand. Through "loaders," modules can be CommonJs, AMD, ES6 modules, CSS, Images, JSON, Coffeescript, LESS, ... and your custom stuff.

Resources

License

Stars

Watchers

Forks

Packages

No packages published

Languages

  • JavaScript 99.3%
  • Other 0.7%