359 lines
17 KiB
Markdown
359 lines
17 KiB
Markdown
# Upgrading for Performance
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<div class="alert is-helpful">
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_Angular_ is the name for the Angular of today and tomorrow.<br />
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_AngularJS_ is the name for all 1.x versions of Angular.
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</div>
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This guide describes some of the built-in tools for efficiently migrating AngularJS projects over to
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the Angular platform, one piece at a time. It is very similar to
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[Upgrading from AngularJS](guide/upgrade) with the exception that this one uses the {@link
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downgradeModule downgradeModule()} helper function instead of the {@link UpgradeModule
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UpgradeModule} class. This affects how the app is bootstrapped and how change detection is
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propagated between the two frameworks. It allows you to upgrade incrementally while improving the
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speed of your hybrid apps and leveraging the latest of Angular in AngularJS apps early in the
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process of upgrading.
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## Preparation
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Before discussing how you can use `downgradeModule()` to create hybrid apps, there are things that
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you can do to ease the upgrade process even before you begin upgrading. Because the steps are the
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same regardless of how you upgrade, refer to the [Preparation](guide/upgrade#preparation) section of
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[Upgrading from AngularJS](guide/upgrade).
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## Upgrading with `ngUpgrade`
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With the `ngUpgrade` library in Angular you can upgrade an existing AngularJS app incrementally by
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building a hybrid app where you can run both frameworks side-by-side. In these hybrid apps you can
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mix and match AngularJS and Angular components and services and have them interoperate seamlessly.
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That means you don't have to do the upgrade work all at once as there is a natural coexistence
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between the two frameworks during the transition period.
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### How `ngUpgrade` Works
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Regardless of whether you choose `downgradeModule()` or `UpgradeModule`, the basic principles of
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upgrading, the mental model behind hybrid apps, and how you use the {@link upgrade/static
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upgrade/static} utilities remain the same. For more information, see the
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[How `ngUpgrade` Works](guide/upgrade#how-ngupgrade-works) section of
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[Upgrading from AngularJS](guide/upgrade).
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<div class="alert is-helpful">
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The [Change Detection](guide/upgrade#change-detection) section of
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[Upgrading from AngularJS](guide/upgrade) only applies to apps that use `UpgradeModule`. Though
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you handle change detection differently with `downgradeModule()`, which is the focus of this
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guide, reading the [Change Detection](guide/upgrade#change-detection) section provides helpful
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context for what follows.
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</div>
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#### Change Detection with `downgradeModule()`
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As mentioned before, one of the key differences between `downgradeModule()` and `UpgradeModule` has
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to do with change detection and how it is propagated between the two frameworks.
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With `UpgradeModule`, the two change detection systems are tied together more tightly. Whenever
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something happens in the AngularJS part of the app, change detection is automatically triggered on
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the Angular part and vice versa. This is convenient as it ensures that neither framework misses an
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important change. Most of the time, though, these extra change detection runs are unnecessary.
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`downgradeModule()`, on the other side, avoids explicitly triggering change detection unless it
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knows the other part of the app is interested in the changes. For example, if a downgraded component
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defines an `@Input()`, chances are that the app needs to be aware when that value changes. Thus,
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`downgradeComponent()` automatically triggers change detection on that component.
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In most cases, though, the changes made locally in a particular component are of no interest to the
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rest of the app. For example, if the user clicks a button that submits a form, the component usually
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handles the result of this action. That being said, there _are_ cases where you want to propagate
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changes to some other part of the app that may be controlled by the other framework. In such cases,
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you are responsible for notifying the interested parties by manually triggering change detection.
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If you want a particular piece of code to trigger change detection in the AngularJS part of the app,
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you need to wrap it in
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[scope.$apply()](https://docs.angularjs.org/api/ng/type/$rootScope.Scope#$apply). Similarly, for
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triggering change detection in Angular you would use {@link NgZone#run ngZone.run()}.
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In many cases, a few extra change detection runs may not matter much. However, on larger or
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change-detection-heavy apps they can have a noticeable impact. By giving you more fine-grained
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control over the change detection propagation, `downgradeModule()` allows you to achieve better
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performance for your hybrid apps.
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## Using `downgradeModule()`
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Both AngularJS and Angular have their own concept of modules to help organize an app into cohesive
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blocks of functionality.
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Their details are quite different in architecture and implementation. In AngularJS, you create a
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module by specifying its name and dependencies with
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[angular.module()](https://docs.angularjs.org/api/ng/function/angular.module). Then you can add
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assets using its various methods. In Angular, you create a class adorned with an {@link NgModule
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NgModule} decorator that describes assets in metadata.
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In a hybrid app you run both frameworks at the same time. This means that you need at least one
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module each from both AngularJS and Angular.
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For the most part, you specify the modules in the same way you would for a regular app. Then, you
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use the `upgrade/static` helpers to let the two frameworks know about assets they can use from each
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other. This is known as "upgrading" and "downgrading".
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<div class="alert is-helpful">
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<b>Definitions:</b>
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- _Upgrading_: The act of making an AngularJS asset, such as a component or service, available to
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the Angular part of the app.
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- _Downgrading_: The act of making an Angular asset, such as a component or service, available to
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the AngularJS part of the app.
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</div>
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An important part of inter-linking dependencies is linking the two main modules together. This is
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where `downgradeModule()` comes in. Use it to create an AngularJS module—one that you can use
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as a dependency in your main AngularJS module—that will bootstrap your main Angular module and
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kick off the Angular part of the hybrid app. In a sense, it "downgrades" an Angular module to an
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AngularJS module.
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There are a few things to note, though:
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1. You don't pass the Angular module directly to `downgradeModule()`. All `downgradeModule()` needs
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is a "recipe", for example, a factory function, to create an instance for your module.
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2. The Angular module is not instantiated until the app actually needs it.
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The following is an example of how you can use `downgradeModule()` to link the two modules.
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```ts
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// Import `downgradeModule()`.
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import { downgradeModule } from '@angular/upgrade/static';
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// Use it to downgrade the Angular module to an AngularJS module.
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const downgradedModule = downgradeModule(MainAngularModuleFactory);
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// Use the downgraded module as a dependency to the main AngularJS module.
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angular.module('mainAngularJsModule', [
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downgradedModule
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]);
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```
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#### Specifying a factory for the Angular module
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As mentioned earlier, `downgradeModule()` needs to know how to instantiate the Angular module. It
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needs a recipe. You define that recipe by providing a factory function that can create an instance
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of the Angular module. `downgradeModule()` accepts two types of factory functions:
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1. `NgModuleFactory`
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2. `(extraProviders: StaticProvider[]) => Promise<NgModuleRef>`
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When you pass an `NgModuleFactory`, `downgradeModule()` uses it to instantiate the module using
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{@link platformBrowser platformBrowser}'s {@link PlatformRef#bootstrapModuleFactory
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bootstrapModuleFactory()}, which is compatible with ahead-of-time (AOT) compilation. AOT compilation
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helps make your apps load faster. For more about AOT and how to create an `NgModuleFactory`, see the
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[Ahead-of-Time Compilation](guide/aot-compiler) guide.
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Alternatively, you can pass a plain function, which is expected to return a promise resolving to an
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{@link NgModuleRef NgModuleRef} (i.e. an instance of your Angular module). The function is called
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with an array of extra {@link StaticProvider Providers} that are expected to be available on the
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returned `NgModuleRef`'s {@link Injector Injector}. For example, if you are using {@link
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platformBrowser platformBrowser} or {@link platformBrowserDynamic platformBrowserDynamic}, you can
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pass the `extraProviders` array to them:
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```ts
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const bootstrapFn = (extraProviders: StaticProvider[]) => {
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const platformRef = platformBrowserDynamic(extraProviders);
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return platformRef.bootstrapModule(MainAngularModule);
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};
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// or
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const bootstrapFn = (extraProviders: StaticProvider[]) => {
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const platformRef = platformBrowser(extraProviders);
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return platformRef.bootstrapModuleFactory(MainAngularModuleFactory);
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};
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```
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Using an `NgModuleFactory` requires less boilerplate and is a good default option as it supports AOT
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out-of-the-box. Using a custom function requires slightly more code, but gives you greater
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flexibility.
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#### Instantiating the Angular module on-demand
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Another key difference between `downgradeModule()` and `UpgradeModule` is that the latter requires
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you to instantiate both the AngularJS and Angular modules up-front. This means that you have to pay
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the cost of instantiating the Angular part of the app, even if you don't use any Angular assets
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until later. `downgradeModule()` is again less aggressive. It will only instantiate the Angular part
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when it is required for the first time; that is, as soon as it needs to create a downgraded
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component.
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You could go a step further and not even download the code for the Angular part of the app to the
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user's browser until it is needed. This is especially useful when you use Angular on parts of the
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hybrid app that are not necessary for the initial rendering or that the user doesn't reach.
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A few examples are:
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- You use Angular on specific routes only and you don't need it until/if a user visits such a route.
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- You use Angular for features that are only visible to specific types of users; for example,
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logged-in users, administrators, or VIP members. You don't need to load Angular until a user is
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authenticated.
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- You use Angular for a feature that is not critical for the initial rendering of the app and you
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can afford a small delay in favor of better initial load performance.
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### Bootstrapping with `downgradeModule()`
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As you might have guessed, you don't need to change anything in the way you bootstrap your existing
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AngularJS app. Unlike `UpgradeModule`—which requires some extra steps—
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`downgradeModule()` is able to take care of bootstrapping the Angular module, as long as you provide
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the recipe.
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In order to start using any `upgrade/static` APIs, you still need to load the Angular framework as
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you would in a normal Angular app. You can see how this can be done with SystemJS by following the
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instructions in the [Upgrade Setup](guide/upgrade-setup "Setup for Upgrading from AngularJS") guide, selectively copying code from the
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[QuickStart github repository](https://github.com/angular/quickstart).
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You also need to install the `@angular/upgrade` package via `npm install @angular/upgrade --save`
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and add a mapping for the `@angular/upgrade/static` package:
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<code-example header="system.config.js">
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'@angular/upgrade/static': 'npm:@angular/upgrade/bundles/upgrade-static.umd.js',
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</code-example>
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Next, create an `app.module.ts` file and add the following `NgModule` class:
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<code-example header="app.module.ts">
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import { NgModule } from '@angular/core';
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import { BrowserModule } from '@angular/platform-browser';
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@NgModule({
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imports: [
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BrowserModule
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]
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})
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export class MainAngularModule {
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// Empty placeholder method to satisfy the `Compiler`.
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ngDoBootstrap() {}
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}
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</code-example>
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This bare minimum `NgModule` imports `BrowserModule`, the module every Angular browser-based app
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must have. It also defines an empty `ngDoBootstrap()` method, to prevent the {@link Compiler
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Compiler} from returning errors. This is necessary because the module will not have a `bootstrap`
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declaration on its `NgModule` decorator.
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<div class="alert is-important">
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You do not add a `bootstrap` declaration to the `NgModule` decorator since AngularJS owns the root
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template of the app and `ngUpgrade` bootstraps the necessary components.
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</div>
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You can now link the AngularJS and Angular modules together using `downgradeModule()`.
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<code-example header="app.module.ts">
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import { platformBrowserDynamic } from '@angular/platform-browser-dynamic';
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import { downgradeModule } from '@angular/upgrade/static';
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const bootstrapFn = (extraProviders: StaticProvider[]) => {
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const platformRef = platformBrowserDynamic(extraProviders);
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return platformRef.bootstrapModule(MainAngularModule);
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};
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const downgradedModule = downgradeModule(bootstrapFn);
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angular.module('mainAngularJsModule', [
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downgradedModule
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]);
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</code-example>
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The existing AngularJS code works as before _and_ you are ready to start adding Angular code.
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### Using Components and Injectables
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The differences between `downgradeModule()` and `UpgradeModule` end here. The rest of the
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`upgrade/static` APIs and concepts work in the exact same way for both types of hybrid apps.
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See [Upgrading from AngularJS](guide/upgrade) to learn about:
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- [Using Angular Components from AngularJS Code](guide/upgrade#using-angular-components-from-angularjs-code).<br />
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_NOTE: If you are downgrading multiple modules, you need to specify the name of the downgraded
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module each component belongs to, when calling `downgradeComponent()`._
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- [Using AngularJS Component Directives from Angular Code](guide/upgrade#using-angularjs-component-directives-from-angular-code).
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- [Projecting AngularJS Content into Angular Components](guide/upgrade#projecting-angularjs-content-into-angular-components).
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- [Transcluding Angular Content into AngularJS Component Directives](guide/upgrade#transcluding-angular-content-into-angularjs-component-directives).
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- [Making AngularJS Dependencies Injectable to Angular](guide/upgrade#making-angularjs-dependencies-injectable-to-angular).
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- [Making Angular Dependencies Injectable to AngularJS](guide/upgrade#making-angular-dependencies-injectable-to-angularjs).<br />
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_NOTE: If you are downgrading multiple modules, you need to specify the name of the downgraded
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module each injectable belongs to, when calling `downgradeInjectable()`._
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<div class="alert is-important">
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While it is possible to downgrade injectables, downgraded injectables will not be available until
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the Angular module that provides them is instantiated. In order to be safe, you need to ensure
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that the downgraded injectables are not used anywhere _outside_ the part of the app where it is
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guaranteed that their module has been instantiated.
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For example, it is _OK_ to use a downgraded service in an upgraded component that is only used
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from a downgraded Angular component provided by the same Angular module as the injectable, but it
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is _not OK_ to use it in an AngularJS component that may be used independently of Angular or use
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it in a downgraded Angular component from a different module.
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</div>
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## Using ahead-of-time compilation with hybrid apps
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You can take advantage of ahead-of-time (AOT) compilation in hybrid apps just like in any other
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Angular app. The setup for a hybrid app is mostly the same as described in the
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[Ahead-of-Time Compilation](guide/aot-compiler) guide save for differences in `index.html` and
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`main-aot.ts`.
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AOT needs to load any AngularJS files that are in the `<script>` tags in the AngularJS `index.html`.
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An easy way to copy them is to add each to the `copy-dist-files.js`file.
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You also need to pass the generated `MainAngularModuleFactory` to `downgradeModule()` instead of the
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custom bootstrap function:
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<code-example header="app/main-aot.ts">
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import { downgradeModule } from '@angular/upgrade/static';
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import { MainAngularModuleNgFactory } from '../aot/app/app.module.ngfactory';
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const downgradedModule = downgradeModule(MainAngularModuleNgFactory);
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angular.module('mainAngularJsModule', [
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downgradedModule
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]);
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</code-example>
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And that is all you need to do to get the full benefit of AOT for hybrid Angular apps.
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## Conclusion
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This page covered how to use the {@link upgrade/static upgrade/static} package to incrementally
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upgrade existing AngularJS apps at your own pace and without impeding further development of the app
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for the duration of the upgrade process.
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Specifically, this guide showed how you can achieve better performance and greater flexibility in
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your hybrid apps by using {@link downgradeModule downgradeModule()} instead of {@link UpgradeModule
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UpgradeModule}.
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To summarize, the key differentiating factors of `downgradeModule()` are:
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1. It allows instantiating or even loading the Angular part lazily, which improves the initial
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loading time. In some cases this may waive the cost of running a second framework altogether.
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2. It improves performance by avoiding unnecessary change detection runs while giving the developer
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greater ability to customize.
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3. It does not require you to change how you bootstrap your AngularJS app.
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Using `downgradeModule()` is a good option for hybrid apps when you want to keep the AngularJS and
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Angular parts less coupled. You can still mix and match components and services from both
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frameworks, but you might need to manually propagate change detection. In return,
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`downgradeModule()` offers more control and better performance.
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