402 lines
18 KiB
Plaintext
402 lines
18 KiB
Plaintext
include ../../../../_includes/_util-fns
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:marked
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# Services
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The Tour of Heroes is evolving and we anticipate adding more components in the near future.
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Multiple components will need access to hero data and we don't want to copy and
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paste the same code over and over.
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Instead, we'll create a single reusable data service and learn to
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inject it in the components that need it.
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Refactoring data access to a separate service keeps the component lean and focused on supporting the view.
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It also makes it easier to unit test the component with a mock service.
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Because data services are invariably asynchronous,
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we'll finish the chapter with a promise-based version of the data service.
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:marked
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[Run the live example for part 4](/resources/live-examples/toh-4/ts/plnkr.html)
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.l-main-section
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:marked
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## Where We Left Off
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Before we continue with our Tour of Heroes, let’s verify we have the following structure.
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If not, we’ll need to go back and follow the previous chapters.
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.filetree
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.file angular2-tour-of-heroes
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.children
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.file app
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.children
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.file app.component.ts
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.file hero.ts
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.file hero-detail.component.ts
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.file main.ts
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.file node_modules ...
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.file typings ...
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.file index.html
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.file package.json
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.file tsconfig.json
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.file typings.json
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:marked
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### Keep the app transpiling and running
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Open a terminal/console window.
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Start the TypeScript compiler, watch for changes, and start our server by entering the command:
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code-example(format="." language="bash").
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npm start
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:marked
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The application runs and updates automatically as we continue to build the Tour of Heroes.
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## Creating a Hero Service
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Our stakeholders have shared their larger vision for our app.
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They tell us they want to show the heroes in various ways on different pages.
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We already can select a hero from a list.
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Soon we'll add a dashboard with the top performing heroes and create a separate view for editing hero details.
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All three views need hero data.
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At the moment the `AppComponent` defines mock heroes for display.
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We have at least two objections.
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First, defining heroes is not the component's job.
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Second, we can't easily share that list of heroes with other components and views.
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We can refactor this hero data acquisition business to a single service that provides heroes and
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share that service with all components that need heroes.
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### Create the HeroService
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Create a file in the `app` folder called `hero.service.ts`.
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.l-sub-section
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:marked
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We've adopted a convention in which we spell the name of a service in lowercase followed by `.service`.
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If the service name were multi-word, we'd spell the base filename with lower dash case (AKA kebab-case).
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The `SpecialSuperHeroService` would be defined in the `special-super-hero.service.ts` file.
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:marked
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We name the class `HeroService` and export it for others to import.
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+makeExample('toh-4/ts/app/hero.service.1.ts', 'empty-class', 'hero.service.ts (exported class)')(format=".")
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:marked
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### Injectable Services
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Notice that we imported the Angular `Injectable` function and applied that function as an `@Injectable()` decorator.
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.callout.is-helpful
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:marked
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**Don't forget the parentheses!** Neglecting them leads to an error that's difficult to diagnose.
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:marked
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TypeScript sees the `@Injectable()` decorator and emits metadata about our service,
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metadata that Angular may need to inject other dependencies into this service.
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The `HeroService` doesn't have any dependencies *at the moment*. Add the decorator anyway.
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It is a "best practice" to apply the `@Injectable()` decorator *from the start*
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both for consistency and for future-proofing.
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:marked
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### Getting Heroes
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Add a `getHeroes` method stub.
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+makeExample('toh-4/ts/app/hero.service.1.ts', 'getHeroes-stub', 'hero.service.ts ( getHeroes stub)')(format=".")
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:marked
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We're holding back on the implementation for a moment to make an important point.
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The consumer of our service doesn't know how the service gets the data.
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Our `HeroService` could get `Hero` data from anywhere.
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It could get the data from a web service or local storage
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or from a mock data source.
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That's the beauty of removing data access from the component.
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We can change our minds about the implementation as often as we like,
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for whatever reason, without touching any of the components that need heroes.
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### Mock Heroes
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We already have mock `Hero` data sitting in the `AppComponent`. It doesn't belong there. It doesn't belong *here* either.
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We'll move the mock data to its own file.
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Cut the `HEROES` array from `app.component.ts` and paste it to a new file in the `app` folder named `mock-heroes.ts`.
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We copy the `import {Hero} ...` statement as well because the heroes array uses the `Hero` interface.
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+makeExample('toh-4/ts/app/mock-heroes.ts', null, 'mock-heroes.ts (Heroes array)')
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:marked
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We export the `HEROES` constant so we can import it elsewhere — such as our `HeroService`.
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Meanwhile, back in `app.component.ts` where we cut away the `HEROES` array,
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we leave behind an uninitialized `heroes` property:
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+makeExample('toh-4/ts/app/app.component.1.ts', 'heroes-prop', 'app.component.ts (heroes property)')(format=".")
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:marked
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### Return Mocked Heroes
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Back in the `HeroService` we import the mock `HEROES` and return it from the `getHeroes` method.
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Our `HeroService` looks like this:
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+makeExample('toh-4/ts/app/hero.service.1.ts', null, 'hero.service.ts')(format=".")
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:marked
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### Use the Hero Service
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We're ready to use the `HeroService` in other components starting with our `AppComponent`.
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We begin, as usual, by importing the thing we want to use, the `HeroService`.
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+makeExample('toh-4/ts/app/app.component.ts', 'hero-service-import', 'app.component.ts (import HeroService)')
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:marked
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Importing the service allows us to *reference* it in our code.
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How should the `AppComponent` acquire a runtime concrete `HeroService` instance?
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### Do we *new* the *HeroService*? No way!
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We could create a new instance of the `HeroService` with "new" like this:
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+makeExample('toh-4/ts/app/app.component.1.ts', 'new-service')(format=".")
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:marked
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That's a bad idea for several reasons including
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* Our component has to know how to create a `HeroService`.
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If we ever change the `HeroService` constructor,
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we'll have to find every place we create the service and fix it.
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Running around patching code is error prone and adds to the test burden.
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* We create a new service each time we use "new".
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What if the service should cache heroes and share that cache with others?
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We couldn't do that.
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* We're locking the `AppComponent` into a specific implementation of the `HeroService`.
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It will be hard to switch implementations for different scenarios.
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Can we operate offline?
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Will we need different mocked versions under test?
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Not easy.
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*What if ... what if ... Hey, we've got work to do!*
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We get it. Really we do.
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But it is so ridiculously easy to avoid these problems that there is no excuse for doing it wrong.
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### Inject the *HeroService*
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Two lines replace the one line of *new*:
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1. we add a constructor.
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1. we add to the component's `providers` metadata
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Here's the constructor:
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+makeExample('toh-4/ts/app/app.component.1.ts', 'ctor', 'app.component.ts (constructor)')
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:marked
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The constructor itself does nothing. The parameter simultaneously
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defines a private `_heroService` property and identifies it as a `HeroService` injection site.
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.l-sub-section
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:marked
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We prefix private variables with an underscore (_) to warn readers of our code
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that this variable is not part of the component's public API.
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:marked
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Now Angular will know to supply an instance of the `HeroService` when it creates a new `AppComponent`.
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Angular has to get that instance from somewhere. That's the role of the Angular *Dependency Injector*.
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The **Injector** has a **container** of previously created services.
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Either it finds and returns a pre-existing `HeroService` from its container or it creates a new instance, adds
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it to the container, and returns it to Angular.
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.l-sub-section
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:marked
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Learn more about Dependency Injection in the [Dependency Injection](../guide/dependency-injection.html) chapter.
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:marked
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The *injector* does not know yet how to create a `HeroService`.
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If we ran our code now, Angular would fail with an error:
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code-example(format="." language="html").
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EXCEPTION: No provider for HeroService! (AppComponent -> HeroService)
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:marked
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We have to teach the *injector* how to make a `HeroService` by registering a `HeroService` **provider**.
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Do that by adding the following `providers` array property to the bottom of the component metadata
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in the `@Component` call.
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+makeExample('toh-4/ts/app/app.component.1.ts', 'providers', 'app.component.ts (providing HeroService)')
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:marked
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The `providers` array tells Angular to create a fresh instance of the `HeroService` when it creates a new `AppComponent`.
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The `AppComponent` can use that service to get heroes and so can every child component of its component tree.
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<a id="child-component"></a>
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.l-sub-section
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:marked
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### Services and the component tree
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Recall that the `AppComponent` creates an instance of `HeroDetail` by virtue of the
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`<my-hero-detail>` tag at the bottom of its template. That `HeroDetail` is a child of the `AppComponent`.
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If the `HeroDetailComponent` needed its parent component's `HeroService`,
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it would ask Angular to inject the service into its constructor which would look just like the one for `AppComponent`:
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+makeExample('toh-4/ts/app/app.component.1.ts', 'ctor', 'hero-detail.component.ts (constructor)')
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:marked
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The `HeroDetailComponent` must *not* repeat its parent's `providers` array! Guess [why](#shadow-provider).
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The `AppComponent` is the top level component of our application.
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There should be only one instance of that component and only one instance of the `HeroService` in our entire app.
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:marked
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### *getHeroes* in the *AppComponent*
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We've got the service in a `_heroService` private variable. Let's use it.
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We pause to think. We can call the service and get the data in one line.
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+makeExample('toh-4/ts/app/app.component.1.ts', 'get-heroes')(format=".")
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:marked
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We don't really need a dedicated method to wrap one line. We write it anyway:
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+makeExample('toh-4/ts/app/app.component.1.ts', 'getHeroes', 'app.component.ts (getHeroes)')(format=".")
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:marked
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### The *ngOnInit* Lifecycle Hook
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`AppComponent` should fetch and display heroes without a fuss.
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Where do we call the `getHeroes` method? In a constructor? We do *not*!
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Years of experience and bitter tears have taught us to keep complex logic out of the constructor,
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especially anything that might call a server as a data access method is sure to do.
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The constructor is for simple initializations like wiring constructor parameters to properties.
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It's not for heavy lifting. We should be able to create a component in a test and not worry that it
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might do real work — like calling a server! — before we tell it to do so.
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If not the constructor, something has to call `getHeroes`.
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Angular will call it if we implement the Angular **ngOnInit** *Lifecycle Hook*.
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Angular offers a number of interfaces for tapping into critical moments in the component lifecycle:
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at creation, after each change, and at its eventual destruction.
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Each interface has a single method. When the component implements that method, Angular calls it at the appropriate time.
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.l-sub-section
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:marked
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Learn more about lifecycle hooks in the [Lifecycle Hooks](../guide/lifecycle-hooks.html) chapter.
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:marked
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Here's the essential outline for the `OnInit` interface:
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+makeExample('toh-4/ts/app/app.component.1.ts', 'on-init', 'app.component.ts (OnInit protocol)')(format=".")
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:marked
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We write an `ngOnInit` method with our initialization logic inside and leave it to Angular to call it
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at the right time. In our case, we initialize by calling `getHeroes`.
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+makeExample('toh-4/ts/app/app.component.1.ts', 'ng-on-init', 'app.component.ts (OnInit protocol)')(format=".")
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:marked
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Our application should be running as expected, showing a list of heroes and a hero detail view
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when we click on a hero name.
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We're getting closer. But something isn't quite right.
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## Async Services and Promises
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Our `HeroService` returns a list of mock heroes immediately.
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Its `getHeroes` signature is synchronous
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+makeExample('toh-4/ts/app/app.component.1.ts', 'get-heroes')(format=".")
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:marked
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Ask for heroes and they are there in the returned result.
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Someday we're going to get heroes from a remote server. We don’t call http yet, but we aspire to in later chapters.
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When we do, we'll have to wait for the server to respond and we won't be able to block the UI while we wait,
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even if we want to (which we shouldn't) because the browser won't block.
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We'll have to use some kind of asynchronous technique and that will change the signature of our `getHeroes` method.
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We'll use *promises*.
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### The Hero Service makes a promise
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A **promise** is ... well it's a promise to call us back later when the results are ready.
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We ask an asynchronous service to do some work and give it a callback function.
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It does that work (somewhere) and eventually it calls our function with the results of the work or an error.
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.l-sub-section
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:marked
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We are simplifying. Learn about ES2015 Promises [here](http://www.datchley.name/es6-promises/) and elsewhere on the web.
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:marked
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Update the `HeroService` with this promise-returning `getHeroes` method:
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+makeExample('toh-4/ts/app/hero.service.ts', 'get-heroes', 'hero.service.ts (getHeroes)')(format=".")
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:marked
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We're still mocking the data. We're simulating the behavior of an ultra-fast, zero-latency server,
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by returning an **immediately resolved promise** with our mock heroes as the result.
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### Act on the Promise
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Returning to the `AppComponent` and its `getHeroes` method, we see that it still looks like this:
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+makeExample('toh-4/ts/app/app.component.1.ts', 'getHeroes', 'app.component.ts (getHeroes - old)')(format=".")
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:marked
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As a result of our change to `HeroService`, we're now setting `this.heroes` to a promise rather than an array of heroes.
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We have to change our implementation to *act on the promise when it resolves*.
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When the promise resolves successfully, *then* we will have heroes to display.
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We pass our callback function as an argument to the promise's **then** method:
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+makeExample('toh-4/ts/app/app.component.ts', 'get-heroes', 'app.component.ts (getHeroes - revised)')(format=".")
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.l-sub-section
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:marked
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The [ES2015 arrow function](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Functions/Arrow_functions)
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in the callback is more succinct than the equivalent function expression and gracefully handles *this*.
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:marked
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Our callback sets the component's `heroes` property to the array of heroes returned by the service. That's all there is to it!
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Our app should still be running, still showing a list of heroes, and still
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responding to a name selection with a detail view.
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.l-sub-section
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:marked
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Checkout the "[Take it slow](#slow)" appendix to see what the app might be like with a poor connection.
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:marked
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### Review the App Structure
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Let’s verify that we have the following structure after all of our good refactoring in this chapter:
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.filetree
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.file angular2-tour-of-heroes
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.children
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.file app
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.children
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.file app.component.ts
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.file hero.ts
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.file hero-detail.component.ts
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.file hero.service.ts
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.file main.ts
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.file mock-heroes.ts
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.file node_modules ...
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.file typings ...
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.file index.html
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.file package.json
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.file tsconfig.json
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.file typings.json
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:marked
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Here are the code files we discussed in this chapter.
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+makeTabs(`
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toh-4/ts/app/hero.service.ts,
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toh-4/ts/app/app.component.ts,
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toh-4/ts/app/mock-heroes.ts
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`,'',`
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app/hero.service.ts,
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app/app.component.ts,
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app/mock-heroes.ts
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`)
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:marked
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## The Road We’ve Travelled
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Let’s take stock of what we’ve built.
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* We created a service class that can be shared by many components
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* We used the `ngOnInit` Lifecycle Hook to get our heroes when our `AppComponent` activates
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* We defined our `HeroService` as a provider for our `AppComponent`
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* We created mock hero data and imported them into our service
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* We designed our service to return a promise and our component to get our data from the promise
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[Run the live example for part 4](/resources/live-examples/toh-4/ts/plnkr.html)
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### The Road Ahead
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Our Tour of Heroes has become more reusable using shared components and services.
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We want to create a dashboard, add menu links that route between the views, and format data in a template.
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As our app evolves, we’ll learn how to design it to make it easier to grow and maintain.
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We learn about Angular Component Router and navigation among the views in the [next tutorial](toh-pt5.html) chapter.
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.l-main-section
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<a id="slow"></a>
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:marked
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||
### Appendix: Take it slow
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We can simulate a slow connection.
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Import the `Hero` symbol and add the following `getHeroesSlowly` method to the `HeroService`
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+makeExample('toh-4/ts/app/hero.service.ts', 'get-heroes-slowly', 'hero.service.ts (getHeroesSlowy)')(format=".")
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:marked
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Like `getHeroes`, it also returns a promise.
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But this promise waits 2 seconds before resolving the promise with mock heroes.
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Back in the `AppComponent`, swap `_heroService.getHeroesSlowly` for `_heroService.getHeroes`
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and see how the app behaves.
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.l-main-section
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<a id="shadow-provider"></a>
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:marked
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### Appendix: Shadowing the parent's service
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We stated [earlier](#child-component) that if we injected the parent `AppComponent` `HeroService`
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into the `HeroDetailComponent`, *we must not add a providers array* to the `HeroDetailComponent` metadata.
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Why? Because that tells Angular to create a new instance of the `HeroService` at the `HeroDetailComponent` level.
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The `HeroDetailComponent` doesn't want its *own* service instance; it wants its *parent's* service instance.
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Adding the `providers` array creates a new service instance that shadows the parent instance.
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Think carefully about where and when to register a provider.
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Understand the scope of that registration. Be careful not to create a new service instance at the wrong level.
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