835 lines
22 KiB
Markdown
835 lines
22 KiB
Markdown
@title
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Webpack: an introduction
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@intro
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Create Angular applications with a Webpack based tooling.
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@description
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<style>
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h4 {font-size: 17px !important; text-transform: none !important;}
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.syntax { font-family: Consolas, 'Lucida Sans', Courier, sans-serif; color: black; font-size: 85%; }
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</style>
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[**Webpack**](https://webpack.github.io/) is a popular module bundler,
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a tool for bundling application source code in convenient _chunks_
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and for loading that code from a server into a browser.
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It's an excellent alternative to the *SystemJS* approach used elsewhere in the documentation.
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This guide offers a taste of Webpack and explains how to use it with Angular applications.
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{@a top}
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# Contents
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* [What is Webpack?](guide/webpack#what-is-webpack)
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* [Entries and outputs](guide/webpack#entries-outputs)
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* [Multiple bundles](guide/webpack#multiple-bundles)
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* [Loaders](guide/webpack#loaders)
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* [Plugins](guide/webpack#plugins)
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* [Configuring Webpack](guide/webpack#configure-webpack)
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* [Polyfills](guide/webpack#polyfills)
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* [Common configuration](guide/webpack#common-configuration)
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* [Inside `webpack.common.js`](guide/webpack#inside-webpack-commonjs)
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* [entry](guide/webpack#common-entries)
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* [resolve extension-less imports](guide/webpack#common-resolves)
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* [`module.rules`](guide/webpack#common-rules)
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* [Plugins](guide/webpack#plugins)
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* [`CommonsChunkPlugin`](guide/webpack#commons-chunk-plugin)
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* [`HtmlWebpackPlugin`](guide/webpack#html-webpack-plugin)
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* [Environment specific configuration](guide/webpack#environment-configuration)
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* [Development configuration](guide/webpack#development-configuration)
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* [Production configuration](guide/webpack#production-configuration)
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* [Test configuration](guide/webpack#test-configuration)
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* [Trying it out](guide/webpack#try)
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* [Highlights](guide/webpack#highlights)
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* [Conclusion](guide/webpack#conclusion)
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You can also <a href="/resources/zips/webpack/webpack.zip">download the final result.</a>
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{@a what-is-webpack}
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## What is Webpack?
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Webpack is a powerful module bundler.
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A _bundle_ is a JavaScript file that incorporates _assets_ that *belong* together and
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should be served to the client in a response to a single file request.
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A bundle can include JavaScript, CSS styles, HTML, and almost any other kind of file.
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Webpack roams over your application source code,
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looking for `import` statements, building a dependency graph, and emitting one or more _bundles_.
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With plugins and rules, Webpack can preprocess and minify different non-JavaScript files such as TypeScript, SASS, and LESS files.
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You determine what Webpack does and how it does it with a JavaScript configuration file, `webpack.config.js`.
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{@a entries-outputs}
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### Entries and outputs
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You supply Webpack with one or more *entry* files and let it find and incorporate the dependencies that radiate from those entries.
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The one entry point file in this example is the application's root file, `src/main.ts`:
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<code-example path="webpack/config/webpack.common.js" region="one-entry" title="webpack.config.js (single entry)" linenums="false">
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</code-example>
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Webpack inspects that file and traverses its `import` dependencies recursively.
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<code-example path="webpack/src/app/app.component.ts" region="component" title="src/main.ts" linenums="false">
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</code-example>
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It sees that you're importing `@angular/core` so it adds that to its dependency list for potential inclusion in the bundle.
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It opens the `@angular/core` file and follows _its_ network of `import` statements until it has built the complete dependency graph from `main.ts` down.
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Then it **outputs** these files to the `app.js` _bundle file_ designated in configuration:
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<div class='code-example'>
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<code-example name="webpack.config.js (single output)" language="javascript">
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output: {
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filename: 'app.js'
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}
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</code-example>
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</div>
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This `app.js` output bundle is a single JavaScript file that contains the application source and its dependencies.
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You'll load it later with a `<script>` tag in the `index.html`.
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{@a multiple-bundles}
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#### Multiple bundles
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You probably don't want one giant bundle of everything.
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It's preferable to separate the volatile application app code from comparatively stable vendor code modules.
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Change the configuration so that it has two entry points, `main.ts` and `vendor.ts`:
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<div class='code-example'>
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<code-example language="javascript">
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entry: {
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app: 'src/app.ts',
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vendor: 'src/vendor.ts'
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},
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output: {
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filename: '[name].js'
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}
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</code-example>
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</div>
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Webpack constructs two separate dependency graphs
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and emits *two* bundle files, one called `app.js` containing only the application code and
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another called `vendor.js` with all the vendor dependencies.
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<div class="l-sub-section">
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The `[name]` in the output name is a *placeholder* that a Webpack plugin replaces with the entry names,
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`app` and `vendor`. Plugins are [covered later](guide/webpack#commons-chunk-plugin) in the guide.
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</div>
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To tell Webpack what belongs in the vendor bundle,
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add a `vendor.ts` file that only imports the application's third-party modules:
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<code-example path="webpack/src/vendor.ts" title="src/vendor.ts" linenums="false">
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</code-example>
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{@a loaders}
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### Loaders
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Webpack can bundle any kind of file: JavaScript, TypeScript, CSS, SASS, LESS, images, HTML, fonts, whatever.
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Webpack _itself_ only understands JavaScript files.
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Teach it to transform non-JavaScript file into their JavaScript equivalents with *loaders*.
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Configure loaders for TypeScript and CSS as follows.
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<div class='code-example'>
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<code-example language="javascript">
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rules: [
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{
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test: /\.ts$/,
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loader: 'awesome-typescript-loader'
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},
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{
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test: /\.css$/,
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loaders: 'style-loader!css-loader'
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}
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]
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</code-example>
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</div>
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When Webpack encounters `import` statements like the following,
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it applies the `test` RegEx patterns.
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<div class='code-example'>
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<code-example language="typescript">
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import { AppComponent } from './app.component.ts';
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import 'uiframework/dist/uiframework.css';
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</code-example>
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</div>
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When a pattern matches the filename, Webpack processes the file with the associated loader.
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The first `import` file matches the `.ts` pattern so Webpack processes it with the `awesome-typescript-loader`.
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The imported file doesn't match the second pattern so its loader is ignored.
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The second `import` matches the second `.css` pattern for which you have *two* loaders chained by the (!) character.
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Webpack applies chained loaders *right to left*. So it applies
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the `css` loader first to flatten CSS `@import` and `url(...)` statements.
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Then it applies the `style` loader to append the css inside `<style>` elements on the page.
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{@a plugins}
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### Plugins
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Webpack has a build pipeline with well-defined phases.
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Tap into that pipeline with plugins such as the `uglify` minification plugin:
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<div class='code-example'>
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<code-example language="javascript">
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plugins: [
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new webpack.optimize.UglifyJsPlugin()
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]
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</code-example>
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</div>
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{@a configure-webpack}
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## Configuring Webpack
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After that brief orientation, you are ready to build your own Webpack configuration for Angular apps.
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Begin by setting up the development environment.
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Create a new project folder.
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<code-example language="sh" class="code-shell">
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mkdir angular-webpack
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cd angular-webpack
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</code-example>
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Add these files:
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<code-tabs>
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<code-pane title="package.json" path="webpack/package.webpack.json">
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</code-pane>
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<code-pane title="src/tsconfig.json" path="webpack/src/tsconfig.1.json">
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</code-pane>
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<code-pane title="webpack.config.js" path="webpack/webpack.config.js">
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</code-pane>
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<code-pane title="karma.conf.js" path="webpack/karma.webpack.conf.js">
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</code-pane>
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<code-pane title="config/helpers.js" path="webpack/config/helpers.js">
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</code-pane>
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</code-tabs>
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<div class="l-sub-section">
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Many of these files should be familiar from other Angular documentation guides,
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especially the [Typescript configuration](guide/typescript-configuration) and
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[npm packages](guide/npm-packages) guides.
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Webpack, the plugins, and the loaders are also installed as packages.
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They are listed in the updated `packages.json`.
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</div>
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Open a terminal window and install the npm packages.
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<code-example language="sh" class="code-shell">
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npm install
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</code-example>
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{@a polyfills}
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### Polyfills
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You'll need polyfills to run an Angular application in most browsers as explained
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in the [Browser Support](guide/browser-support) guide.
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Polyfills should be bundled separately from the application and vendor bundles.
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Add a `polyfills.ts` like this one to the `src/` folder.
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<code-example path="webpack/src/polyfills.ts" title="src/polyfills.ts" linenums="false">
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</code-example>
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<div class="callout is-critical">
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<header>
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Loading polyfills
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</header>
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Load `zone.js` early within `polyfills.ts`, immediately after the other ES6 and metadata shims.
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</div>
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Because this bundle file will load first, `polyfills.ts` is also a good place to configure the browser environment
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for production or development.
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{@a common-configuration}
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### Common configuration
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Developers typically have separate configurations for development, production, and test environments.
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All three have a lot of configuration in common.
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Gather the common configuration in a file called `webpack.common.js`.
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<code-example path="webpack/config/webpack.common.js" title="config/webpack.common.js" linenums="false">
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</code-example>
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{@a inside-webpack-commonjs}
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### Inside _webpack.common.js_
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Webpack is a NodeJS-based tool that reads configuration from a JavaScript commonjs module file.
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The configuration imports dependencies with `require` statements
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and exports several objects as properties of a `module.exports` object.
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* [`entry`](guide/webpack#common-entries)—the entry-point files that define the bundles.
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* [`resolve`](guide/webpack#common-resolve)—how to resolve file names when they lack extensions.
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* [`module.rules`](guide/webpack#common-rules)— `module` is an object with `rules` for deciding how files are loaded.
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* [`plugins`](guide/webpack#common-plugins)—creates instances of the plugins.
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{@a common-entries}
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#### _entry_
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The first export is the `entry` object:
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<code-example path="webpack/config/webpack.common.js" region="entries" title="config/webpack.common.js" linenums="false">
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</code-example>
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This `entry` object defines the three bundles:
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* `polyfills`—the polyfills needed to run Angular applications in most modern browsers.
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* `vendor`—the third-party dependencies such as Angular, lodash, and bootstrap.css.
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* `app`—the application code.
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{@a common-resolve}
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#### _resolve_ extension-less imports
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The app will `import` dozens if not hundreds of JavaScript and TypeScript files.
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You could write `import` statements with explicit extensions like this example:
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<div class='code-example'>
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<code-example language="typescript">
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import { AppComponent } from './app.component.ts';
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</code-example>
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</div>
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But most `import` statements don't mention the extension at all.
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Tell Webpack to resolve extension-less file requests by looking for matching files with
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`.ts` extension or `.js` extension (for regular JavaScript files and pre-compiled TypeScript files).
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<code-example path="webpack/config/webpack.common.js" region="resolve" title="config/webpack.common.js" linenums="false">
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</code-example>
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<div class="l-sub-section">
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If Webpack should resolve extension-less files for styles and HTML,
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add `.css` and `.html` to the list.
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</div>
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{@a common-rules}
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#### _module.rules_
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Rules tell Webpack which loaders to use for each file, or module:
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<code-example path="webpack/config/webpack.common.js" region="loaders" title="config/webpack.common.js" linenums="false">
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</code-example>
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* `awesome-typescript-loader`—a loader to transpile the Typescript code to ES5, guided by the `tsconfig.json` file.
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* `angular2-template-loader`—loads angular components' template and styles.
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* `html-loader`—for component templates.
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* images/fonts—Images and fonts are bundled as well.
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* CSS—the first pattern matches application-wide styles; the second handles
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component-scoped styles (the ones specified in a component's `styleUrls` metadata property).
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<div class="l-sub-section">
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The first pattern is for the application-wide styles. It excludes `.css` files within the `src/app` directory
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where the component-scoped styles sit. The `ExtractTextPlugin` (described below) applies the `style` and `css`
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loaders to these files.
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The second pattern filters for component-scoped styles and loads them as strings via the `raw-loader`,
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which is what Angular expects to do with styles specified in a `styleUrls` metadata property.
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</div>
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<div class="l-sub-section">
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Multiple loaders can be chained using the array notation.
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</div>
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{@a common-plugins}
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#### _plugins_
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Finally, create instances of three plugins:
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<code-example path="webpack/config/webpack.common.js" region="plugins" title="config/webpack.common.js" linenums="false">
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</code-example>
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{@a commons-chunk-plugin}
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#### *CommonsChunkPlugin*
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The `app.js` bundle should contain only application code. All vendor code belongs in the `vendor.js` bundle.
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Of course the application code imports vendor code.
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On its own, Webpack is not smart enough to keep the vendor code out of the `app.js` bundle.
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The `CommonsChunkPlugin` does that job.
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<div class="l-sub-section">
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The `CommonsChunkPlugin` identifies the hierarchy among three _chunks_: `app` -> `vendor` -> `polyfills`.
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Where Webpack finds that `app` has shared dependencies with `vendor`, it removes them from `app`.
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It would remove `polyfills` from `vendor` if they shared dependencies, which they don't.
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</div>
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{@a html-webpack-plugin}
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#### _HtmlWebpackPlugin_
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Webpack generates a number of js and CSS files.
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You _could_ insert them into the `index.html` _manually_. That would be tedious and error-prone.
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Webpack can inject those scripts and links for you with the `HtmlWebpackPlugin`.
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{@a environment-configuration}
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### Environment-specific configuration
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The `webpack.common.js` configuration file does most of the heavy lifting.
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Create separate, environment-specific configuration files that build on `webpack.common`
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by merging into it the peculiarities particular to the target environments.
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These files tend to be short and simple.
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{@a development-configuration}
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### Development configuration
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Here is the `webpack.dev.js` development configuration file.
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<code-example path="webpack/config/webpack.dev.js" title="config/webpack.dev.js" linenums="false">
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</code-example>
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The development build relies on the Webpack development server, configured near the bottom of the file.
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Although you tell Webpack to put output bundles in the `dist` folder,
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the dev server keeps all bundles in memory; it doesn't write them to disk.
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You won't find any files in the `dist` folder, at least not any generated from *this development build*.
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The `HtmlWebpackPlugin`, added in `webpack.common.js`, uses the `publicPath` and the `filename` settings to generate
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appropriate `<script>` and `<link>` tags into the `index.html`.
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The CSS styles are buried inside the Javascript bundles by default. The `ExtractTextPlugin` extracts them into
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external `.css` files that the `HtmlWebpackPlugin` inscribes as `<link>` tags into the `index.html`.
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Refer to the [Webpack documentation](https://webpack.github.io/docs/) for details on these and
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other configuration options in this file.
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Grab the app code at the end of this guide and try:
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<code-example language="sh" class="code-shell">
|
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npm start
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</code-example>
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{@a production-configuration}
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### Production configuration
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|
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Configuration of a *production* build resembles *development* configuration with a few key changes.
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<code-example path="webpack/config/webpack.prod.js" title="config/webpack.prod.js" linenums="false">
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</code-example>
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|
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You'll deploy the application and its dependencies to a real production server.
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You won't deploy the artifacts needed only in development.
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|
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Put the production output bundle files in the `dist` folder.
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|
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Webpack generates file names with cache-busting hash.
|
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Thanks to the `HtmlWebpackPlugin`, you don't have to update the `index.html` file when the hash changes.
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|
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There are additional plugins:
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|
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* *`NoEmitOnErrorsPlugin`—stops the build if there is an error.
|
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* *`UglifyJsPlugin`—minifies the bundles.
|
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* *`ExtractTextPlugin`—extracts embedded css as external files, adding cache-busting hash to the filename.
|
|
* *`DefinePlugin`—use to define environment variables that you can reference within the application.
|
|
* *`LoaderOptionsPlugins`—to override options of certain loaders.
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|
|
Thanks to the `DefinePlugin` and the `ENV` variable defined at top, you can enable Angular production mode like this:
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|
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<code-example path="webpack/src/main.ts" region="enable-prod" title="src/main.ts" linenums="false">
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|
|
</code-example>
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|
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Grab the app code at the end of this guide and try:
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|
|
|
|
<code-example language="sh" class="code-shell">
|
|
npm run build
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|
|
</code-example>
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|
|
{@a test-configuration}
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|
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|
|
### Test configuration
|
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|
|
You don't need much configuration to run unit tests.
|
|
You don't need the loaders and plugins that you declared for your development and production builds.
|
|
You probably don't need to load and process the application-wide styles files for unit tests and doing so would slow you down;
|
|
you'll use the `null` loader for those CSS files.
|
|
|
|
You could merge the test configuration into the `webpack.common` configuration and override the parts you don't want or need.
|
|
But it might be simpler to start over with a completely fresh configuration.
|
|
|
|
|
|
<code-example path="webpack/config/webpack.test.js" title="config/webpack.test.js" linenums="false">
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|
|
</code-example>
|
|
|
|
|
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|
|
Reconfigure [Karma](https://karma-runner.github.io/1.0/index.html) to use Webpack to run the tests:
|
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|
|
|
|
<code-example path="webpack/config/karma.conf.js" title="config/karma.conf.js" linenums="false">
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|
|
|
</code-example>
|
|
|
|
|
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|
|
You don't precompile the TypeScript; Webpack transpiles the Typescript files on the fly, in memory, and feeds the emitted JS directly to Karma.
|
|
There are no temporary files on disk.
|
|
|
|
The `karma-test-shim` tells Karma what files to pre-load and
|
|
primes the Angular test framework with test versions of the providers that every app expects to be pre-loaded.
|
|
|
|
|
|
<code-example path="webpack/config/karma-test-shim.js" title="config/karma-test-shim.js" linenums="false">
|
|
|
|
</code-example>
|
|
|
|
|
|
|
|
Notice that you do _not_ load the application code explicitly.
|
|
You tell Webpack to find and load the test files (the files ending in `.spec.ts`).
|
|
Each spec file imports all—and only—the application source code that it tests.
|
|
Webpack loads just _those_ specific application files and ignores the other files that you aren't testing.
|
|
|
|
|
|
Grab the app code at the end of this guide and try:
|
|
|
|
|
|
<code-example language="sh" class="code-shell">
|
|
npm test
|
|
|
|
</code-example>
|
|
|
|
{@a try}
|
|
|
|
## Trying it out
|
|
|
|
Here is the source code for a small application that bundles with the
|
|
Webpack techniques covered in this guide.
|
|
|
|
|
|
<code-tabs>
|
|
|
|
<code-pane title="src/index.html" path="webpack/src/index.html">
|
|
|
|
</code-pane>
|
|
|
|
<code-pane title="src/main.ts" path="webpack/src/main.ts">
|
|
|
|
</code-pane>
|
|
|
|
<code-pane title="src/assets/css/styles.css" path="webpack/src/assets/css/styles.css">
|
|
|
|
</code-pane>
|
|
|
|
</code-tabs>
|
|
|
|
|
|
|
|
<code-tabs>
|
|
|
|
<code-pane title="src/app/app.component.ts" path="webpack/src/app/app.component.ts">
|
|
|
|
</code-pane>
|
|
|
|
<code-pane title="src/app/app.component.html" path="webpack/src/app/app.component.html">
|
|
|
|
</code-pane>
|
|
|
|
<code-pane title="src/app/app.component.css" path="webpack/src/app/app.component.css">
|
|
|
|
</code-pane>
|
|
|
|
<code-pane title="src/app/app.component.spec.ts" path="webpack/src/app/app.component.spec.ts">
|
|
|
|
</code-pane>
|
|
|
|
<code-pane title="src/app/app.module.ts" path="webpack/src/app/app.module.ts">
|
|
|
|
</code-pane>
|
|
|
|
</code-tabs>
|
|
|
|
|
|
|
|
The <code>app.component.html</code> displays this downloadable Angular logo
|
|
<a href="assets/images/logos/angular/angular.png" target="_blank">
|
|
<img src="assets/images/logos/angular/angular.png" height="40px" title="download Angular logo"></a>.
|
|
Create a folder called `images` under the project's `assets` folder, then right-click (Cmd+click on Mac)
|
|
on the image and download it to that folder.
|
|
|
|
|
|
{@a bundle-ts}
|
|
|
|
|
|
Here again are the TypeScript entry-point files that define the `polyfills` and `vendor` bundles.
|
|
|
|
<code-tabs>
|
|
|
|
<code-pane title="src/polyfills.ts" path="webpack/src/polyfills.ts">
|
|
|
|
</code-pane>
|
|
|
|
<code-pane title="src/vendor.ts" path="webpack/src/vendor.ts">
|
|
|
|
</code-pane>
|
|
|
|
</code-tabs>
|
|
|
|
{@a highlights}
|
|
|
|
### Highlights
|
|
|
|
* There are no `<script>` or `<link>` tags in the `index.html`.
|
|
The `HtmlWebpackPlugin` inserts them dynamically at runtime.
|
|
|
|
* The `AppComponent` in `app.component.ts` imports the application-wide css with a simple `import` statement.
|
|
|
|
* The `AppComponent` itself has its own html template and css file. WebPack loads them with calls to `require()`.
|
|
Webpack stashes those component-scoped files in the `app.js` bundle too.
|
|
You don't see those calls in the source code;
|
|
they're added behind the scenes by the `angular2-template-loader` plug-in.
|
|
|
|
* The `vendor.ts` consists of vendor dependency `import` statements that drive the `vendor.js` bundle.
|
|
The application imports these modules too; they'd be duplicated in the `app.js` bundle
|
|
if the `CommonsChunkPlugin` hadn't detected the overlap and removed them from `app.js`.
|
|
{@a conclusion}
|
|
|
|
## Conclusion
|
|
|
|
You've learned just enough Webpack to configurate development, test and production builds
|
|
for a small Angular application.
|
|
|
|
_You could always do more_. Search the web for expert advice and expand your Webpack knowledge.
|
|
|
|
[Back to top](guide/webpack#top) |