本文介绍的内容是组件通信的常用方式:@Input、@Output、@ViewChild、模板变量、MessageService、Broadcaster (Angular 1.x $rootScope 中 $on、$broadcast ) 和 Pub – Sub 模式、RxJS Subject 存在的问题。
输入属性 (父组件 -> 子组件)
counter.component.ts
import { Component, Input } from '@angular/core';
@Component({
selector: 'exe-counter',
template: `
<p>当前值: {{ count }}</p>
<button (click)="increment()"> + </button>
<button (click)="decrement()"> - </button>
`
})
export class CounterComponent {
@Input() count: number = 0;
increment() {
this.count++;
}
decrement() {
this.count--;
}
}
app.component.ts
import { Component } from '@angular/core';
@Component({
selector: 'exe-app',
template: `
<exe-counter [count]="initialCount"></exe-counter>
`
})
export class AppComponent {
initialCount: number = 5;
}
输出属性 (子组件 -> 父组件)
counter.component.ts
import { Component, Input, Output, EventEmitter } from '@angular/core';
@Component({
selector: 'exe-counter',
template: `
<p>当前值: {{ count }}</p>
<button (click)="increment()"> + </button>
<button (click)="decrement()"> - </button>
`
})
export class CounterComponent {
@Input() count: number = 0;
@Output() change: EventEmitter<number> = new EventEmitter<number>();
increment() {
this.count++;
this.change.emit(this.count);
}
decrement() {
this.count--;
this.change.emit(this.count);
}
}
app.component.ts
import { Component } from '@angular/core';
@Component({
selector: 'exe-app',
template: `
<p>{{changeMsg}}</p>
<exe-counter [count]="initialCount"
(change)="countChange($event)"></exe-counter>
`
})
export class AppComponent {
initialCount: number = 5;
changeMsg: string;
countChange(event: number) {
this.changeMsg = `子组件change事件已触发,当前值是: ${event}`;
}
}
模板变量
child.component.ts
import {Component} from '@angular/core';
@Component({
selector: 'child-component',
template: `I'm {{ name }}`
})
export class ChildComponent {
public name: string;
}
parent.component.ts
import {Component, OnInit} from '@angular/core';
import {ChildComponent} from './child-component.ts';
@Component({
selector: 'parent-component',
template: `
<child-component #child></child-component>
<button (click)="child.name = childName">设置子组件名称</button>
`
})
export class ParentComponent implements OnInit {
private childName: string;
constructor() { }
ngOnInit() {
this.childName = 'child-component';
}
}
@ViewChild 装饰器
child.component.ts
import { Component, OnInit } from '@angular/core';
@Component({
selector: 'exe-child',
template: `
<p>Child Component</p>
`
})
export class ChildComponent {
name: string = '';
}
app.component.ts
import { Component, ViewChild, AfterViewInit } from '@angular/core';
import { ChildComponent } from './child.component';
@Component({
selector: 'my-app',
template: `
<h4>Welcome to Angular World</h4>
<exe-child></exe-child>
`,
})
export class AppComponent {
@ViewChild(ChildComponent)
childCmp: ChildComponent;
ngAfterViewInit() {
this.childCmp.name = 'child-component';
}
}
使用 MessageService – 基于 RxJS Subject
message.service.ts
import { Injectable } from '@angular/core';
import {Observable} from 'rxjs/Observable';
import { Subject } from 'rxjs/Subject';
@Injectable()
export class MessageService {
private subject = new Subject<any>();
sendMessage(message: string) {
this.subject.next({ text: message });
}
clearMessage() {
this.subject.next();
}
getMessage(): Observable<any> {
return this.subject.asObservable();
}
}
home.component.ts
import { Component } from '@angular/core';
import { MessageService } from './message.service';
@Component({
selector: 'exe-home',
template: `
<div>
<h1>Home</h1>
<button (click)="sendMessage()">Send Message</button>
<button (click)="clearMessage()">Clear Message</button>
</div>`
})
export class HomeComponent {
constructor(private messageService: MessageService) {}
sendMessage(): void {
this.messageService.sendMessage('Message from Home Component to App Component!');
}
clearMessage(): void {
this.messageService.clearMessage();
}
}
app.component.ts
import { Component, OnDestroy } from '@angular/core';
import { Subscription } from 'rxjs/Subscription';
import { MessageService } from './message.service';
@Component({
selector: 'my-app',
template: `
<div>
<div *ngIf="message">{{message.text}}</div>
<exe-home></exe-home>
</div>
`
})
export class AppComponent implements OnDestroy {
message: any;
subscription: Subscription;
constructor(private messageService: MessageService) {
this.subscription = this.messageService
.getMessage().subscribe( message => {
this.message = message;
});
}
ngOnDestroy() {
this.subscription.unsubscribe();
}
}
使用 Broadcaster – 基于 RxJS Subject
实现 Angular 1.x 中的 $rootScope 对象中 $on
和 $broadcast
的功能。
broadcaster.ts
import { Injectable } from '@angular/core';
import {Subject} from 'rxjs/Subject';
import {Observable} from 'rxjs/Observable';
import 'rxjs/add/operator/filter';
import 'rxjs/add/operator/map';
interface BroadcastEvent {
key: any;
data?: any;
}
@Injectable()
export class Broadcaster {
private _eventBus: Subject<BroadcastEvent>;
constructor() {
this._eventBus = new Subject<BroadcastEvent>();
}
broadcast(key: any, data?: any) {
this._eventBus.next({key, data});
}
on<T>(key: any): Observable<T> {
return this._eventBus.asObservable()
.filter(event => event.key === key)
.map(event => <T>event.data);
}
}
child.component.ts
import { Component } from '@angular/core';
@Component({
selector: 'child'
})
export class ChildComponent {
constructor(private broadcaster: Broadcaster) {}
registerStringBroadcast() {
this.broadcaster.on<string>('MyEvent')
.subscribe(message => {
...
});
}
emitStringBroadcast() {
this.broadcaster.broadcast('MyEvent', 'some message');
}
}
本文主要是介绍组件通讯的思路,提供的都是相对简单的示例。如果想深入了解,请参考 – angular.cn – component-communication。
我有话说
1.在实际开发中,我们也经常使用 Pub (发布) – Sub (订阅模式) 来实现模块之间的消息通讯。接下来我们看一下 Pub – Sub 的核心点:
至少包含 subscribe() 和 publish() 两个方法,subscribe() 用于实现消息订阅,publish() 方法用于发布消息。
支持订阅不同的消息类型,且对于任何一种消息类型都可以添加多个观察者。内部实现一般使用
key-value
结构进行消息类型和观察者列表的存储。订阅观察者后,最好返回一个对象或函数对象,用于取消订阅。
具体示例如下(详细信息,请参考 – Pub/Sub JavaScript Object):
var events = (function(){
var topics = {};
var hOP = topics.hasOwnProperty;
return {
subscribe: function(topic, listener) {
// 如果topic类型不存在,则创建
if(!hOP.call(topics, topic)) topics[topic] = [];
// 添加listener
var index = topics[topic].push(listener) -1;
// 返回对象用于移除listener
return {
remove: function() {
delete topics[topic][index];
}
};
},
publish: function(topic, info) {
if(!hOP.call(topics, topic)) return;
topics[topic].forEach(function(item) {
item(info != undefined ? info : {});
});
}
};
})();
使用示例:
var subscription = events.subscribe('/page/load', function(obj) {
// 事件处理
});
events.publish('/page/load', {
url: '/some/url/path'
});
2.RxJS Subject 在使用中存在一个问题,就是如果某个 observer (观察者) 在执行的时候出现异常,却没有进行异常处理,那么就会影响到其它的观察者。解决该问题,最简单的方式就是为所有的观察者添加异常处理。具体问题如下:
const source = Rx.Observable.interval(1000);
const subject = new Rx.Subject();
const example = subject.map(x => {
if (x === 1) {
throw new Error('oops');
}
return x;
});
subject.subscribe(x => console.log('A', x));
example.subscribe(x => console.log('B', x));
subject.subscribe(x => console.log('C', x));
source.subscribe(subject);
以上代码运行后,控制台的输出结果:
A 0
B 0
C 0
A 1
Rx.min.js:74 Uncaught Error: oops
解决方案:
const source = Rx.Observable.interval(1000);
const subject = new Rx.Subject();
const example = subject.map(x => {
if (x === 1) {
throw new Error('oops');
}
return x;
});
subject.subscribe(
x => console.log('A', x),
error => console.log('A Error:' + error)
);
example.subscribe(
x => console.log('B', x),
error => console.log('B Error:' + error)
);
subject.subscribe(
x => console.log('C', x),
error => console.log('C Error:' + error)
);
source.subscribe(subject);
关于 RxJS Subject 的详细信息,请查看 – RxJS Subject。