623 lines
20 KiB
Markdown
623 lines
20 KiB
Markdown
@title
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Ahead-of-Time Compilation
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@intro
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Learn how to use Ahead-of-time compilation
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@description
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This cookbook describes how to radically improve performance by compiling _Ahead of Time_ (AOT)
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during a build process.
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{@a toc}
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## Table of Contents
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* [Overview](#overview)
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* [_Ahead-of-Time_ vs _Just-in-Time_](#aot-jit)
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* [Compile with AOT](#compile)
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* [Bootstrap](#bootstrap)
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* [Tree Shaking](#tree-shaking)
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* [Load the bundle](#load)
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* [Serve the app](#serve)
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* [Workflow and convenience script](#workflow)
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* [Source Code](#source-code)
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* [Tour of Heroes](#toh)
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{@a overview}
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## Overview
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An Angular application consist largely of components and their HTML templates.
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Before the browser can render the application,
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the components and templates must be converted to executable JavaScript by the _Angular compiler_.
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<a href="https://www.youtube.com/watch?v=kW9cJsvcsGo" target="_blank">Watch compiler author Tobias Bosch explain the Angular Compiler</a> at AngularConnect 2016.You can compile the app in the browser, at runtime, as the application loads, using the **_Just-in-Time_ (JIT) compiler**.
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This is the standard development approach shown throughout the documentation.
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It's great .. but it has shortcomings.
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JIT compilation incurs a runtime performance penalty.
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Views take longer to render because of the in-browser compilation step.
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The application is bigger because it includes the Angular compiler
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and a lot of library code that the application won't actually need.
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Bigger apps take longer to transmit and are slower to load.
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Compilation can uncover many component-template binding errors.
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JIT compilation discovers them at runtime which is later than we'd like.
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The **_Ahead-of-Time_ (AOT) compiler** can catch template errors early and improve performance
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by compiling at build time as you'll learn in this chapter.
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{@a aot-jit}
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## _Ahead-of-time_ (AOT) vs _Just-in-time_ (JIT)
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There is actually only one Angular compiler. The difference between AOT and JIT is a matter of timing and tooling.
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With AOT, the compiler runs once at build time using one set of libraries;
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With JIT it runs every time for every user at runtime using a different set of libraries.
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### Why do AOT compilation?
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*Faster rendering*
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With AOT, the browser downloads a pre-compiled version of the application.
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The browser loads executable code so it can render the application immediately, without waiting to compile the app first.
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*Fewer asynchronous requests*
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The compiler _inlines_ external html templates and css style sheets within the application JavaScript,
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eliminating separate ajax requests for those source files.
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*Smaller Angular framework download size*
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There's no need to download the Angular compiler if the app is already compiled.
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The compiler is roughly half of Angular itself, so omitting it dramatically reduces the application payload.
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*Detect template errors earlier*
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The AOT compiler detects and reports template binding errors during the build step
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before users can see them.
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*Better security*
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AOT compiles HTML templates and components into JavaScript files long before they are served to the client.
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With no templates to read and no risky client-side HTML or JavaScript evaluation,
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there are fewer opportunities for injection attacks.
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{@a compile}
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## Compile with AOT
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### Prepare for offline compilation
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Take the <a href='../guide/setup.html'>Setup</a> as a starting point.
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A few minor changes to the lone `app.component` lead to these two class and html files:
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<md-tab-group>
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<md-tab label="src/app/app.component.html">
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{@example 'cb-aot-compiler/ts/src/app/app.component.html'}
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</md-tab>
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<md-tab label="src/app/app.component.ts">
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{@example 'cb-aot-compiler/ts/src/app/app.component.ts'}
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</md-tab>
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</md-tab-group>
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Install a few new npm dependencies with the following command:
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<code-example language="none" class="code-shell">
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npm install @angular/compiler-cli @angular/platform-server --save
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</code-example>
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You will run the `ngc` compiler provided in the `@angular/compiler-cli` npm package
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instead of the TypeScript compiler (`tsc`).
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`ngc` is a drop-in replacement for `tsc` and is configured much the same way.
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`ngc` requires its own `tsconfig.json` with AOT-oriented settings.
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Copy the original `src/tsconfig.json` to a file called `tsconfig-aot.json` (on the project root),
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then modify it to look as follows.
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{@example 'cb-aot-compiler/ts/tsconfig-aot.json'}
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The `compilerOptions` section is unchanged except for one property.
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**Set the `module` to `es2015`**.
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This is important as explained later in the [Tree Shaking](#tree-shaking) section.
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What's really new is the `ngc` section at the bottom called `angularCompilerOptions`.
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Its `"genDir"` property tells the compiler
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to store the compiled output files in a new `aot` folder.
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The `"skipMetadataEmit" : true` property prevents the compiler from generating metadata files with the compiled application.
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Metadata files are not necessary when targeting TypeScript files, so there is no reason to include them.
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***Component-relative Template URLS***
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The AOT compiler requires that `@Component` URLS for external templates and css files be _component-relative_.
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That means that the value of `@Component.templateUrl` is a URL value _relative_ to the component class file.
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For example, an `'app.component.html'` URL means that the template file is a sibling of its companion `app.component.ts` file.
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While JIT app URLs are more flexible, stick with _component-relative_ URLs for compatibility with AOT compilation.
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JIT-compiled applications that use the SystemJS loader and _component-relative_ URLs *must set the* `@Component.moduleId` *property to* `module.id`.
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The `module` object is undefined when an AOT-compiled app runs.
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The app fails with a null reference error unless you assign a global `module` value in the `index.html` like this:
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{@example 'cb-aot-compiler/ts/src/index.html' region='moduleId'}
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Setting a global `module` is a temporary expedient.
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### Compiling the application
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Initiate AOT compilation from the command line using the previously installed `ngc` compiler by executing:
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<code-example language="none" class="code-shell">
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node_modules/.bin/ngc -p tsconfig-aot.json
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</code-example>
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Windows users should surround the `ngc` command in double quotes:
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<code-example format='.'>
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"node_modules/.bin/ngc" -p tsconfig-aot.json
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</code-example>
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`ngc` expects the `-p` switch to point to a `tsconfig.json` file or a folder containing a `tsconfig.json` file.
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After `ngc` completes, look for a collection of _NgFactory_ files in the `aot` folder (the folder specified as `genDir` in `tsconfig-aot.json`).
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These factory files are essential to the compiled application.
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Each component factory creates an instance of the component at runtime by combining the original class file
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and a JavaScript representation of the component's template.
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Note that the original component class is still referenced internally by the generated factory.
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The curious can open the `aot/app.component.ngfactory.ts` to see the original Angular template syntax
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in its intermediate, compiled-to-TypeScript form.
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JIT compilation generates these same _NgFactories_ in memory where they are largely invisible.
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AOT compilation reveals them as separate, physical files.
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~~~ {.alert.is-important}
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Do not edit the _NgFactories_! Re-compilation replaces these files and all edits will be lost.
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~~~
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{@a bootstrap}
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## Bootstrap
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The AOT path changes application bootstrapping.
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Instead of bootstrapping `AppModule`, you bootstrap the application with the generated module factory, `AppModuleNgFactory`.
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Make a copy of `main.ts` and name it `main-jit.ts`.
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This is the JIT version; set it aside as you may need it [later](#run-jit "Running with JIT").
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Open `main.ts` and convert it to AOT compilation.
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Switch from the `platformBrowserDynamic.bootstrap` used in JIT compilation to
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`platformBrowser().bootstrapModuleFactory` and pass in the AOT-generated `AppModuleNgFactory`.
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Here is AOT bootstrap in `main.ts` next to the original JIT version:
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<md-tab-group>
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<md-tab label="src/main.ts">
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{@example 'cb-aot-compiler/ts/src/main.ts'}
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</md-tab>
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<md-tab label="src/main-jit.ts">
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{@example 'cb-aot-compiler/ts/src/main-jit.ts'}
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</md-tab>
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</md-tab-group>
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Be sure to recompile with `ngc`!
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{@a tree-shaking}
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## Tree Shaking
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AOT compilation sets the stage for further optimization through a process called _Tree Shaking_.
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A Tree Shaker walks the dependency graph, top to bottom, and _shakes out_ unused code like
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dead needles in a Christmas tree.
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Tree Shaking can greatly reduce the downloaded size of the application
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by removing unused portions of both source and library code.
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In fact, most of the reduction in small apps comes from removing unreferenced Angular features.
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For example, this demo application doesn't use anything from the `@angular/forms` library.
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There is no reason to download Forms-related Angular code and tree shaking ensures that you don't.
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Tree Shaking and AOT compilation are separate steps.
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Tree Shaking can only target JavaScript code.
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AOT compilation converts more of the application to JavaScript,
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which in turn makes more of the application "Tree Shakable".
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### Rollup
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This cookbook illustrates a Tree Shaking utility called _Rollup_.
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Rollup statically analyzes the application by following the trail of `import` and `export` statements.
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It produces a final code _bundle_ that excludes code that is exported, but never imported.
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Rollup can only Tree Shake `ES2015` modules which have `import` and `export` statements.
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Recall that `tsconfig-aot.json` is configured to produce `ES2015` modules.
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It's not important that the code itself be written with `ES2015` syntax such as `class` and `const`.
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What matters is that the code uses ES `import` and `export` statements rather than `require` statements.Install the Rollup dependencies with this command:
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<code-example format='.'>
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npm install rollup rollup-plugin-node-resolve rollup-plugin-commonjs rollup-plugin-uglify --save-dev
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</code-example>
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Next, create a configuration file (`rollup-config.js`)
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in the project root directory to tell Rollup how to process the application.
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The cookbook configuration file looks like this.
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{@example 'cb-aot-compiler/ts/rollup-config.js'}
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It tells Rollup that the app entry point is `src/app/main.js` .
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The `dest` attribute tells Rollup to create a bundle called `build.js` in the `dist` folder.
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It overrides the default `onwarn` method in order to skip annoying messages about the AOT compiler's use of the `this` keyword.
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Then there are plugins.
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### Rollup Plugins
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Optional plugins filter and transform the Rollup inputs and output.
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*RxJS*
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Rollup expects application source code to use `ES2015` modules.
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Not all external dependencies are published as `ES2015` modules.
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In fact, most are not. Many of them are published as _CommonJS_ modules.
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The _RxJs_ observable library is an essential Angular dependency published as an ES5 JavaScript _CommonJS_ module.
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Luckily there is a Rollup plugin that modifies _RxJs_
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to use the ES `import` and `export` statements that Rollup requires.
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Rollup then preserves in the final bundle the parts of `RxJS` referenced by the application.
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{@example 'cb-aot-compiler/ts/rollup-config.js' region='commonjs'}
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*Minification*
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Rollup Tree Shaking reduces code size considerably. Minification makes it smaller still.
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This cookbook relies on the _uglify_ Rollup plugin to minify and mangle the code.
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{@example 'cb-aot-compiler/ts/rollup-config.js' region='uglify'}
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In a production setting, you would also enable gzip on the web server to compress
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the code into an even smaller package going over the wire.
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### Run Rollup
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Execute the Rollup process with this command:
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<code-example format='.'>
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node_modules/.bin/rollup -c rollup-config.js
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</code-example>
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Windows users should surround the `rollup` command in double quotes:
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<code-example format='.'>
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"node_modules/.bin/rollup" -c rollup-config.js
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</code-example>
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{@a load}
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## Load the Bundle
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Loading the generated application bundle does not require a module loader like SystemJS.
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Remove the scripts that concern SystemJS.
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Instead, load the bundle file using a single `script` tag **_after_** the `</body>` tag:
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{@example 'cb-aot-compiler/ts/src/index.html' region='bundle'}
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{@a serve}
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## Serve the app
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You'll need a web server to host the application.
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Use the same _Lite Server_ employed elsewhere in the documentation:
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<code-example language="none" class="code-shell">
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npm run lite
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</code-example>
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The server starts, launches a browser, and the app should appear.
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{@a source-code}
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## AOT QuickStart Source Code
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Here's the pertinent source code:
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<md-tab-group>
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<md-tab label="src/app/app.component.html">
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{@example 'cb-aot-compiler/ts/src/app/app.component.html'}
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</md-tab>
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<md-tab label="src/app/app.component.ts">
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{@example 'cb-aot-compiler/ts/src/app/app.component.ts'}
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</md-tab>
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<md-tab label="src/main.ts">
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{@example 'cb-aot-compiler/ts/src/main.ts'}
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</md-tab>
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<md-tab label="src/index.html">
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{@example 'cb-aot-compiler/ts/src/index.html'}
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</md-tab>
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<md-tab label="tsconfig-aot.json">
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{@example 'cb-aot-compiler/ts/tsconfig-aot.json'}
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</md-tab>
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<md-tab label="rollup-config.js">
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{@example 'cb-aot-compiler/ts/rollup-config.js'}
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</md-tab>
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</md-tab-group>
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{@a workflow}
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## Workflow and convenience script
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You'll rebuild the AOT version of the application every time you make a change.
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Those _npm_ commands are long and difficult to remember.
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Add the following _npm_ convenience script to the `package.json` so you can compile and rollup in one command.Open a terminal window and try it.
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<code-example language="none" class="code-shell">
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npm run build:aot
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</code-example>
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{@a run-jit}
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### And JIT too!
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AOT compilation and rollup together take several seconds.
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You may be able to develop iteratively a little faster with SystemJS and JIT.
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The same source code can be built both ways. Here's one way to do that.
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* Make a copy of `index.html` and call it `index-jit.html`.
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* Delete the script at the bottom of `index-jit.html` that loads `bundle.js`
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* Restore the SystemJS scripts like this:
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{@example 'cb-aot-compiler/ts/src/index-jit.html' region='jit'}
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Notice the slight change to the `system.import` which now specifies `src/app/main-jit`.
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That's the JIT version of the bootstrap file that we preserved [above](#bootstrap)
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Open a _different_ terminal window and enter.
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<code-example language="none" class="code-shell">
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npm start
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</code-example>
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That compiles the app with JIT and launches the server.
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The server loads `index.html` which is still the AOT version (confirm in the browser console).
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Change the address bar to `index-jit.html` and it loads the JIT version (confirm in the browser console).
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Develop as usual.
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The server and TypeScript compiler are in "watch mode" so your changes are reflected immediately in the browser.
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To see those changes in AOT, switch to the original terminal and re-run `npm run build:aot`.
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When it finishes, go back to the browser and back-button to the AOT version in the (default) `index.html`.
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Now you can develop JIT and AOT, side-by-side.
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{@a toh}
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## Tour of Heroes
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The sample above is a trivial variation of the QuickStart app.
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In this section you apply what you've learned about AOT compilation and Tree Shaking
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to an app with more substance, the tutorial [_Tour of Heroes_](../tutorial/toh-pt6.html).
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### JIT in development, AOT in production
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Today AOT compilation and Tree Shaking take more time than is practical for development. That will change soon.
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For now, it's best to JIT compile in development and switch to AOT compilation before deploying to production.
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Fortunately, the source code can be compiled either way without change _if_ you account for a few key differences.
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***index.html***
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The JIT and AOT apps require their own `index.html` files because they setup and launch so differently.
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Here they are for comparison:
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<md-tab-group>
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<md-tab label="aot/index.html (AOT)">
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{@example 'toh-6/ts/aot/index.html'}
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</md-tab>
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<md-tab label="src/index.html (JIT)">
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{@example 'toh-6/ts/src/index.html'}
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</md-tab>
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</md-tab-group>
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The JIT version relies on `SystemJS` to load individual modules.
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Its scripts appear in its `index.html`.
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The AOT version loads the entire application in a single script, `aot/dist/build.js`.
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It does not need `SystemJS`, so that script is absent from its `index.html`
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***main.ts***
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JIT and AOT applications boot in much the same way but require different Angular libraries to do so.
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The key differences, covered in the [Bootstrap](#bootstrap) section above,
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are evident in these `main` files which can and should reside in the same folder:
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<md-tab-group>
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<md-tab label="main-aot.ts (AOT)">
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{@example 'toh-6/ts/src/main-aot.ts'}
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</md-tab>
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<md-tab label="main.ts (JIT)">
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{@example 'toh-6/ts/src/main.ts'}
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</md-tab>
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</md-tab-group>
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***TypeScript configuration***
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JIT-compiled applications transpile to `commonjs` modules.
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AOT-compiled applications transpile to _ES2015_/_ES6_ modules to facilitate Tree Shaking.
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AOT requires its own TypeScript configuration settings as well.
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You'll need separate TypeScript configuration files such as these:
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<md-tab-group>
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<md-tab label="tsconfig-aot.json (AOT)">
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{@example 'toh-6/ts/tsconfig-aot.json'}
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</md-tab>
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<md-tab label="src/tsconfig.json (JIT)">
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{@example 'toh-6/ts/src/tsconfig.1.json'}
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</md-tab>
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</md-tab-group>
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|
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~~~ {.callout.is-helpful}
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|
|
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<header>
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@Types and node modules
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</header>
|
|
|
|
In the file structure of _this particular sample project_,
|
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the `node_modules` folder happens to be two levels up from the project root.
|
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Therefore, `"typeRoots"` must be set to `"../../node_modules/@types/"`.
|
|
|
|
In a more typical project, `node_modules` would be a sibling of `tsconfig-aot.json`
|
|
and `"typeRoots"` would be set to `"node_modules/@types/"`.
|
|
Edit your `tsconfig-aot.json` to fit your project's file structure.
|
|
|
|
|
|
~~~
|
|
|
|
### Tree Shaking
|
|
|
|
Rollup does the Tree Shaking as before.
|
|
|
|
|
|
{@example 'toh-6/ts/rollup-config.js'}
|
|
|
|
### Running the application
|
|
|
|
|
|
~~~ {.alert.is-important}
|
|
|
|
The general audience instructions for running the AOT build of the Tour of Heroes app are not ready.
|
|
|
|
The following instructions presuppose that you have cloned the
|
|
<a href="https://github.com/angular/angular.io" target="_blank">angular.io</a>
|
|
github repository and prepared it for development as explained in the repo's README.md.
|
|
|
|
The _Tour of Heroes_ source code is in the `public/docs/_examples/toh-6/ts` folder.
|
|
|
|
~~~
|
|
|
|
Run the JIT-compiled app with `npm start` as for all other JIT examples.
|
|
|
|
Compiling with AOT presupposes certain supporting files, most of them discussed above.
|
|
<md-tab-group>
|
|
|
|
<md-tab label="src/index.html">
|
|
{@example 'toh-6/ts/src/index.html'}
|
|
</md-tab>
|
|
|
|
|
|
<md-tab label="copy-dist-files.js">
|
|
{@example 'toh-6/ts/copy-dist-files.js'}
|
|
</md-tab>
|
|
|
|
|
|
<md-tab label="rollup-config.js">
|
|
{@example 'toh-6/ts/rollup-config.js'}
|
|
</md-tab>
|
|
|
|
|
|
<md-tab label="tsconfig-aot.json">
|
|
{@example 'toh-6/ts/tsconfig-aot.json'}
|
|
</md-tab>
|
|
|
|
|
|
</md-tab-group>
|
|
|
|
Extend the `scripts` section of the `package.json` with these npm scripts:Copy the AOT distribution files into the `/aot` folder with the node script:
|
|
<code-example language="none" class="code-shell">
|
|
node copy-dist-files
|
|
</code-example>
|
|
|
|
|
|
You won't do that again until there are updates to `zone.js` or the `core-js` shim for old browsers.Now AOT-compile the app and launch it with the `lite` server:
|
|
<code-example language="none" class="code-shell">
|
|
npm run build:aot && npm run serve:aot
|
|
|
|
</code-example>
|
|
|
|
### Inspect the Bundle
|
|
|
|
It's fascinating to see what the generated JavaScript bundle looks like after Rollup.
|
|
The code is minified, so you won't learn much from inspecting the bundle directly.
|
|
But the <a href="https://github.com/danvk/source-map-explorer/blob/master/README.md" target="_blank">source-map-explorer</a>
|
|
tool can be quite revealing.
|
|
|
|
Install it:
|
|
<code-example language="none" class="code-shell">
|
|
npm install source-map-explorer --save-dev
|
|
</code-example>
|
|
|
|
Run the following command to generate the map.
|
|
|
|
<code-example language="none" class="code-shell">
|
|
node_modules/.bin/source-map-explorer aot/dist/build.js
|
|
|
|
</code-example>
|
|
|
|
The `source-map-explorer` analyzes the source map generated with the bundle and draws a map of all dependencies,
|
|
showing exactly which application and Angular modules and classes are included in the bundle.
|
|
|
|
Here's the map for _Tour of Heroes_.
|
|
<a href="/resources/images/cookbooks/aot-compiler/toh6-bundle.png" target="_blank" title="View larger image">
|
|
<figure class='image-display'>
|
|
<img src="/resources/images/cookbooks/aot-compiler/toh6-bundle.png" alt="TOH-6-bundle"> </img>
|
|
</figure>
|
|
|
|
</a> |