Writing a web application in React using the ECMAScript 6 (or ES.next) awesomeness and spiced up with Webpack has got to be very close to the perfect project for any web developer. This stack has been all the buzz lately (much like Star Wars 😎), but it comes with a caveat — the built output is gigantic!

Update: I’ve improved this config to be Webpack 2 + tree shaking compatible

Default Webpack Setup

Our example project is a React 0.14 web application utilizing ECMAScript 6 with a Babel 6 transpilation step through Webpack. You can simply clone the initial setup or run:

npm i react react-dom --save npm i babel babel-core babel-loader babel-preset-es2015 babel-preset-react webpack --save-dev

These are all the necessary basics. Make sure you also have Webpack installed globally, which comes with the useful Webpack CLI

npm -g i webpack

Now that you’re all set with dependencies, we’ll create the code for our Hello World application

import React from 'react';

import ReactDom from 'react-dom'; ReactDom.render((

<div>Hello</div>

), document.getElementById(‘root’));

index.js is the starting point of our hello world app

As for default Webpack configuration we’ll use the following code:

const path = require('path');

const webpack = require('webpack'); module.exports = {

devtool: 'eval',

entry: './index',

output: {

path: path.join(__dirname, 'dist'),

filename: 'bundle.js',

publicPath: '/static/',

}, module: {

loaders: [

{

test: /\.js$/,

loaders: ['babel']

}

],

},

};

webpack.config.js — Webpack default development configuration file

The Webpack configuration above is fairly standard and simple. It will transpile all JavaScript code with Babel and output it to the dist/bundle.js file.

Using the Webpack CLI, we will create our first build.

$> webpack --progress -p Hash: 765639c3ef5551b2b6da

Version: webpack 1.12.3

Time: 3028ms Asset Size Chunks Chunk Names

bundle.js 704 kB 0 [emitted] main

+ 159 hidden modules

Our Hello World build is staggering 704 kB in size! Yes, my sentiments exactly!

We just established our baseline — creating the simplest of React applications using ES 6 and building it with Webpack yields a huge JavaScript file. Our goal is to shrink that down as much as possible.

Production Configuration Update #1: Source Maps

Webpack is primarily a tool for developers. As such, it offers a wide variety of settings that help with debugging code. One such configuration option, devtool, determines how and where the app stores source maps.

It’s common to see devtool: ‘eval’ which is one of the fastest ways to build apps with most of the development code information bundled in the output. While that’s really nice for development purposes, we will want to get rid of any unnecessary data in a production build.

There are a few production-ready options to go with, and we’ll go with cheap-module-source-map (instead of eval) to minimize the output. Repeat the Webpack build to see how much we gained (or hopefully, lost).

$> webpack --progress -p Hash: a6ef587aedfce940104d

Version: webpack 1.12.3

Time: 5115ms Asset Size Chunks Chunk Names

bundle.js 189 kB 0 [emitted] main

bundle.js.map 170 bytes 0 [emitted] main

+ 159 hidden modules

Would you believe that we just shaved off 75% of the build output size? The newly created bundle.js is just 189kB (compared to the original 704kB). The newly introduced bundle.js.map source map file is minimal and should be omitted in production.

This was already a significant improvement, but we can do better. Let’s see how we can improve the file size even more.

Production Configuration Update #2: Node Environment

Part of the 189kB bundle consists of various test helpers, which is another thing you don’t need in your production build. We can get rid of those if we tell Webpack to use the production node environment.

To do that, we will have to define a custom Webpack plugin. Don’t worry, that’s much easier than it sounds:

plugins: [

new webpack.DefinePlugin({

'process.env': {

'NODE_ENV': JSON.stringify('production')

}

})

],

Here, we simply created a NODE_ENV key in the process.env object with value ‘“production”’ associated with it. Webpack’s build process will take this information and work out the magic all on it’s own. Let’s have a look.

$> webpack --progress -p Hash: 39d00df29c750675828d

Version: webpack 1.12.3

Time: 4974ms Asset Size Chunks Chunk Names

bundle.js 131 kB 0 [emitted] main

bundle.js.map 156 bytes 0 [emitted] main

+ 154 hidden modules

Wow, the new bundle is now 131 kB. It may not look as dramatic as the improvement we made in the previous step, but it’s still a phenomenal 30% decrease in size.

Just two simple configuration changes lead us to 82% savings in the output size.

Given that the original React 0.14.2 framework weighs in at 135 kB, Webpack did a fantastic job at reducing the size of our transpiled ES6 source code to just 131 kB.

Conclusion

Webpack is a terrific tool that helps developers on so many fronts. We just learnt that optimizing for production is painless and effective.

While we focused on React in the example above, surely this technique will prove fruitful in your Angular apps as well. Give Webpack a chance and let me know how it went.

Also if you have other optimization ideas to share, please do so in the comments.

Finally, special thanks to Espen Hovlandsdal who helped immensely with his Webpack tips and ideas.