418 lines
16 KiB
Markdown
418 lines
16 KiB
Markdown
# NgZone
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A zone is an execution context that persists across async tasks. You can think of it as [thread-local storage](https://en.wikipedia.org/wiki/Thread-local_storage) for JavaScript VMs.
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This guide describes how to use Angular's NgZone to automatically detect changes in the component to update HTML.
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## Fundamentals of change detection
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To understand the benefits of `NgZone`, it is important to have a clear grasp of what change detection is and how it works.
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### Displaying and updating data in Angular
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In Angular, you can display data by binding controls in an HTML template to the properties of an Angular component.
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<code-example path="displaying-data/src/app/app.component.1.ts" header="src/app/app.component.ts"></code-example>
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In addition, you can bind DOM events to a method of an Angular component. In such methods, you can also update a property of the Angular component, which updates the corresponding data displayed in the template.
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<code-example path="user-input/src/app/click-me.component.ts" region="click-me-component" header="src/app/click-me.component.ts"></code-example>
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In both of the above examples, the component's code updates only the property of the component.
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However, the HTML is also updated automatically.
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This guide describes how and when Angular renders the HTML based on the data from the Angular component.
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### Detecting changes with plain JavaScript
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To clarify how changes are detected and values updated, consider the following code written in plain JavaScript.
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```javascript
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<html>
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<div id="dataDiv"></div>
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<button id="btn">updateData</button>
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<canvas id="canvas"></canvas>
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<script>
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let value = 'initialValue';
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// initial rendering
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detectChange();
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function renderHTML() {
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document.getElementById('dataDiv').innerText = value;
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}
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function detectChange() {
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const currentValue = document.getElementById('dataDiv').innerText;
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if (currentValue !== value) {
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renderHTML();
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}
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}
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// Example 1: update data inside button click event handler
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document.getElementById('btn').addEventListener('click', () => {
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// update value
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value = 'button update value';
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// call detectChange manually
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detectChange();
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});
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// Example 2: HTTP Request
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const xhr = new XMLHttpRequest();
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xhr.addEventListener('load', function() {
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// get response from server
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value = this.responseText;
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// call detectChange manually
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detectChange();
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});
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xhr.open('GET', serverUrl);
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xhr.send();
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// Example 3: setTimeout
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setTimeout(() => {
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// update value inside setTimeout callback
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value = 'timeout update value';
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// call detectChange manually
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detectChange();
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}, 100);
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// Example 4: Promise.then
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Promise.resolve('promise resolved a value').then(v => {
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// update value inside Promise thenCallback
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value = v;
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// call detectChange manually
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detectChange();
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}, 100);
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// Example 5: some other asynchronous APIs
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document.getElementById('canvas').toBlob(blob => {
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// update value when blob data is created from the canvas
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value = `value updated by canvas, size is ${blob.size}`;
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// call detectChange manually
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detectChange();
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});
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</script>
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</html>
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```
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After you update the data, you need to call `detectChange()` manually to check whether the data changed.
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If the data changed, you render the HTML to reflect the updated data.
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In Angular, this step is unnecessary. Whenever you update the data, your HTML is updated automatically.
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### When apps update HTML
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To understand how change detection works, first consider when the application needs to update the HTML. Typically, updates occur for one of the following reasons:
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1. Component initialization. For example, when bootstrapping an Angular application, Angular loads the bootstrap component and triggers the [ApplicationRef.tick()](api/core/ApplicationRef#tick) to call change detection and View Rendering.
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1. Event listener. The DOM event listener can update the data in an Angular component and also trigger change detection, as in the following example.
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<code-example path="user-input/src/app/click-me.component.ts" region="click-me-component" header="src/app/click-me.component.ts"></code-example>
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3. HTTP Data Request. You can also get data from a server through an HTTP request. For example:
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```typescript
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@Component({
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selector: 'app-root',
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template: '<div>{{data}}</div>';
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})
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export class AppComponent implements OnInit {
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data = 'initial value';
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serverUrl = 'SERVER_URL';
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constructor(private httpClient: HttpClient) {}
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ngOnInit() {
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this.httpClient.get(this.serverUrl).subscribe(response => {
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// user does not need to trigger change detection manually
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this.data = response.data;
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});
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}
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}
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```
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4. MacroTasks, such as `setTimeout()` or `setInterval()`. You can also update the data in the callback function of a `macroTask` such as `setTimeout()`. For example:
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```typescript
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@Component({
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selector: 'app-root',
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template: '<div>{{data}}</div>';
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})
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export class AppComponent implements OnInit {
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data = 'initial value';
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ngOnInit() {
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setTimeout(() => {
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// user does not need to trigger change detection manually
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this.data = 'value updated';
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});
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}
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}
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```
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5. MicroTasks, such as `Promise.then()`. Other asynchronous APIs return a Promise object (such as `fetch`), so the `then()` callback function can also update the data. For example:
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```typescript
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@Component({
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selector: 'app-root',
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template: '<div>{{data}}</div>';
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})
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export class AppComponent implements OnInit {
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data = 'initial value';
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ngOnInit() {
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Promise.resolve(1).then(v => {
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// user does not need to trigger change detection manually
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this.data = v;
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});
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}
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}
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```
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6. Other async operations. In addition to `addEventListener()`, `setTimeout()` and `Promise.then()`, there are other operations that can update the data asynchronously. Some examples include `WebSocket.onmessage()` and `Canvas.toBlob()`.
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The preceding list contains most common scenarios in which the application might change the data. Angular runs change detection whenever it detects that data could have changed.
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The result of change detection is that the DOM is updated with new data. Angular detects the changes in different ways. For component initialization, Angular calls change detection explicitly. For [asynchronous operations](https://developer.mozilla.org/en-US/docs/Learn/JavaScript/Asynchronous), Angular uses a zone to detect changes in places where the data could have possibly mutated and it runs change detection automatically.
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## Zones and execution contexts
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A zone provides an execution context that persists across async tasks. [Execution Context](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Operators/this) is an abstract concept that holds information about the environment within the current code being executed. Consider the following example:
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```javascript
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const callback = function() {
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console.log('setTimeout callback context is', this);
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}
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const ctx1 = { name: 'ctx1' };
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const ctx2 = { name: 'ctx2' };
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const func = function() {
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console.log('caller context is', this);
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setTimeout(callback);
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}
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func.apply(ctx1);
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func.apply(ctx2);
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```
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The value of `this` in the callback of `setTimeout()` might differ depending on when `setTimeout()` is called.
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Thus, you can lose the context in asynchronous operations.
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A zone provides a new zone context other than `this`, the zone context that persists across asynchronous operations.
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In the following example, the new zone context is called `zoneThis`.
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```javascript
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zone.run(() => {
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// now you are in a zone
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expect(zoneThis).toBe(zone);
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setTimeout(function() {
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// the zoneThis context will be the same zone
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// when the setTimeout is scheduled
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expect(zoneThis).toBe(zone);
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});
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});
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```
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This new context, `zoneThis`, can be retrieved from the `setTimeout()` callback function, and this context is the same when the `setTimeout()` is scheduled.
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To get the context, you can call [`Zone.current`](https://github.com/angular/angular/blob/master/packages/zone.js/lib/zone.ts).
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## Zones and async lifecycle hooks
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Zone.js can create contexts that persist across asynchronous operations as well as provide lifecycle hooks for asynchronous operations.
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```javascript
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const zone = Zone.current.fork({
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name: 'zone',
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onScheduleTask: function(delegate, curr, target, task) {
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console.log('new task is scheduled:', task.type, task.source);
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return delegate.scheduleTask(target, task);
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},
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onInvokeTask: function(delegate, curr, target, task, applyThis, applyArgs) {
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console.log('task will be invoked:', task.type, task.source);
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return delegate.invokeTask(target, task, applyThis, applyArgs);
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},
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onHasTask: function(delegate, curr, target, hasTaskState) {
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console.log('task state changed in the zone:', hasTaskState);
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return delegate.hasTask(target, hasTaskState);
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},
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onInvoke: function(delegate, curr, target, callback, applyThis, applyArgs) {
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console.log('the callback will be invoked:', callback);
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return delegate.invoke(target, callback, applyThis, applyArgs);
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}
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});
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zone.run(() => {
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setTimeout(() => {
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console.log('timeout callback is invoked.');
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});
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});
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```
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The above example creates a zone with several hooks.
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The `onXXXTask` hooks trigger when the status of the task changes.
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The concept of a *Zone Task* is very similar to the JavaScript VM Task concept:
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- `macroTask`: such as `setTimeout()`
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- `microTask`: such as `Promise.then()`
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- `eventTask`: such as `element.addEventListener()`
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These hooks trigger under the following circumstances:
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- `onScheduleTask`: triggers when a new asynchronous task is scheduled, such as when you call `setTimeout()`.
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- `onInvokeTask`: triggers when an asynchronous task is about to execute, such as when the callback of `setTimeout()` is about to execute.
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- `onHasTask`: triggers when the status of one kind of task inside a zone changes from stable to unstable or from unstable to stable. A status of "stable" means there are no tasks inside the zone, while "unstable" means a new task is scheduled in the zone.
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- `onInvoke`: triggers when a synchronous function is going to execute in the zone.
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With these hooks, `Zone` can monitor the status of all synchronous and asynchronous operations inside a zone.
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The above example returns the following output:
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```
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the callback will be invoked: () => {
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setTimeout(() => {
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console.log('timeout callback is invoked.');
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});
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}
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new task is scheduled: macroTask setTimeout
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task state changed in the zone: { microTask: false,
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macroTask: true,
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eventTask: false,
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change: 'macroTask' }
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task will be invoked macroTask: setTimeout
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timeout callback is invoked.
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task state changed in the zone: { microTask: false,
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macroTask: false,
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eventTask: false,
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change: 'macroTask' }
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```
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All of the functions of `Zone` are provided by a library called [Zone.js](https://github.com/angular/angular/tree/master/packages/zone.js/README.md).
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This library implements those features by intercepting asynchronous APIs through monkey patching.
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Monkey patching is a technique to add or modify the default behavior of a function at runtime without changing the source code.
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## NgZone
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While Zone.js can monitor all the states of synchronous and asynchronous operations, Angular additionally provides a service called NgZone.
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This service creates a zone named `angular` to automatically trigger change detection when the following conditions are satisfied:
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1. When a sync or async function is executed.
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1. When there is no `microTask` scheduled.
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### NgZone `run()` and `runOutsideOfAngular()`
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`Zone` handles most asynchronous APIs such as `setTimeout()`, `Promise.then()`, and `addEventListener()`.
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For the full list, see the [Zone Module document](https://github.com/angular/angular/blob/master/packages/zone.js/MODULE.md).
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Therefore in those asynchronous APIs, you don't need to trigger change detection manually.
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There are still some third party APIs that Zone does not handle.
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In those cases, the `NgZone` service provides a [`run()`](api/core/NgZone#run) method that allows you to execute a function inside the angular zone.
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This function, and all asynchronous operations in that function, trigger change detection automatically at the correct time.
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```typescript
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export class AppComponent implements OnInit {
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constructor(private ngZone: NgZone) {}
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ngOnInit() {
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// New async API is not handled by Zone, so you need to
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// use ngZone.run() to make the asynchronous operation in the angular zone
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// and trigger change detection automatically.
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this.ngZone.run(() => {
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someNewAsyncAPI(() => {
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// update the data of the component
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});
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});
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}
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}
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```
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By default, all asynchronous operations are inside the angular zone, which triggers change detection automatically.
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Another common case is when you don't want to trigger change detection.
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In that situation, you can use another `NgZone` method: [`runOutsideAngular()`](api/core/NgZone#runoutsideangular).
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```typescript
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export class AppComponent implements OnInit {
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constructor(private ngZone: NgZone) {}
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ngOnInit() {
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// You know no data will be updated,
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// so you don't want to trigger change detection in this
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// specified operation. Instead, call ngZone.runOutsideAngular()
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this.ngZone.runOutsideAngular(() => {
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setTimeout(() => {
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// update component data
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// but don't trigger change detection.
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});
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});
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}
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}
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```
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### Setting up Zone.js
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To make Zone.js available in Angular, you need to import the `zone.js` package.
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If you are using the Angular CLI, this step is done automatically, and you will see the following line in the `src/polyfills.ts`:
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```typescript
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/***************************************************************************************************
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* Zone JS is required by default for Angular itself.
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*/
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import 'zone.js/dist/zone'; // Included with Angular CLI.
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```
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Before importing the `zone.js` package, you can set the following configurations:
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- You can disable some asynchronous API monkey patching for better performance.
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For example, you can disable the `requestAnimationFrame()` monkey patch, so the callback of `requestAnimationFrame()` will not trigger change detection.
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This is useful if, in your application, the callback of the `requestAnimationFrame()` will not update any data.
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- You can specify that certain DOM events do not run inside the angular zone; for example, to prevent a `mousemove` or `scroll` event to trigger change detection.
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There are several other settings you can change.
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To make these changes, you need to create a `zone-flags.ts` file, such as the following.
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```typescript
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// disable patching requestAnimationFrame
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(window as any).__Zone_disable_requestAnimationFrame = true;
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// disable patching specified eventNames
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(window as any).__zone_symbol__UNPATCHED_EVENTS = ['scroll', 'mousemove'];
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```
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Next, import `zone-flags` before you import `zone.js` in the `polyfills.ts`:
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```typescript
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/***************************************************************************************************
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* Zone JS is required by default for Angular.
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*/
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import `./zone-flags`;
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import 'zone.js/dist/zone'; // Included with Angular CLI.
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```
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For more information about what you can configure, see the [Zone.js](https://github.com/angular/angular/tree/master/packages/zone.js) documentation.
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### NoopZone
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`Zone` helps Angular know when to trigger change detection and let the developers focus on the application development.
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By default, `Zone` is loaded and works without additional configuration. However, you don't necessarily have to use `Zone` to make Angular work. Instead, you can opt to trigger change detection on your own.
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<div class="alert is-helpful">
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<h4>Disabling <code>Zone</code></h4>
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**If you disable `Zone`, you will need to trigger all change detection at the correct timing yourself, which requires comprehensive knowledge of change detection**.
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</div>
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To remove Zone.js, make the following changes.
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1. Remove the `zone.js` import from `polyfills.ts`:
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```typescript
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/***************************************************************************************************
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* Zone JS is required by default for Angular itself.
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*/
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// import 'zone.js/dist/zone'; // Included with Angular CLI.
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```
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2. Bootstrap Angular with the `noop` zone in `src/main.ts`:
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```typescript
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platformBrowserDynamic().bootstrapModule(AppModule, { ngZone: 'noop' })
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.catch(err => console.error(err));
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```
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