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angular-cn/packages/upgrade/static/src/upgrade_component.ts

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/**
* @license
* Copyright Google Inc. All Rights Reserved.
*
* Use of this source code is governed by an MIT-style license that can be
* found in the LICENSE file at https://angular.io/license
*/
import {DoCheck, ElementRef, EventEmitter, Injector, OnChanges, OnDestroy, OnInit, SimpleChanges, ɵlooseIdentical as looseIdentical} from '@angular/core';
import {IAttributes, IAugmentedJQuery, IDirective, IDirectivePrePost, IInjectorService, ILinkFn, IScope, ITranscludeFunction} from '../../src/common/src/angular1';
import {$SCOPE} from '../../src/common/src/constants';
import {IBindingDestination, IControllerInstance, UpgradeHelper} from '../../src/common/src/upgrade_helper';
import {isFunction} from '../../src/common/src/util';
const NOT_SUPPORTED: any = 'NOT_SUPPORTED';
const INITIAL_VALUE = {
__UNINITIALIZED__: true
};
class Bindings {
twoWayBoundProperties: string[] = [];
twoWayBoundLastValues: any[] = [];
expressionBoundProperties: string[] = [];
propertyToOutputMap: {[propName: string]: string} = {};
}
/**
* @description
*
* A helper class that allows an AngularJS component to be used from Angular.
*
* *Part of the [upgrade/static](api?query=upgrade%2Fstatic)
* library for hybrid upgrade apps that support AoT compilation.*
*
* This helper class should be used as a base class for creating Angular directives
* that wrap AngularJS components that need to be "upgraded".
*
* @usageNotes
* ### Examples
*
* Let's assume that you have an AngularJS component called `ng1Hero` that needs
* to be made available in Angular templates.
*
* {@example upgrade/static/ts/full/module.ts region="ng1-hero"}
*
* We must create a `Directive` that will make this AngularJS component
* available inside Angular templates.
*
* {@example upgrade/static/ts/full/module.ts region="ng1-hero-wrapper"}
*
* In this example you can see that we must derive from the `UpgradeComponent`
* base class but also provide an {@link Directive `@Directive`} decorator. This is
* because the AoT compiler requires that this information is statically available at
* compile time.
*
* Note that we must do the following:
* * specify the directive's selector (`ng1-hero`)
* * specify all inputs and outputs that the AngularJS component expects
* * derive from `UpgradeComponent`
* * call the base class from the constructor, passing
* * the AngularJS name of the component (`ng1Hero`)
* * the `ElementRef` and `Injector` for the component wrapper
*
* @publicApi
*/
export class UpgradeComponent implements OnInit, OnChanges, DoCheck, OnDestroy {
private helper: UpgradeHelper;
private $injector: IInjectorService;
private element: Element;
private $element: IAugmentedJQuery;
private $componentScope: IScope;
private directive: IDirective;
private bindings: Bindings;
// TODO(issue/24571): remove '!'.
private controllerInstance !: IControllerInstance;
// TODO(issue/24571): remove '!'.
private bindingDestination !: IBindingDestination;
// We will be instantiating the controller in the `ngOnInit` hook, when the
// first `ngOnChanges` will have been already triggered. We store the
// `SimpleChanges` and "play them back" later.
// TODO(issue/24571): remove '!'.
private pendingChanges !: SimpleChanges | null;
// TODO(issue/24571): remove '!'.
private unregisterDoCheckWatcher !: Function;
/**
* Create a new `UpgradeComponent` instance. You should not normally need to do this.
* Instead you should derive a new class from this one and call the super constructor
* from the base class.
*
* {@example upgrade/static/ts/full/module.ts region="ng1-hero-wrapper" }
*
* * The `name` parameter should be the name of the AngularJS directive.
* * The `elementRef` and `injector` parameters should be acquired from Angular by dependency
* injection into the base class constructor.
*/
constructor(private name: string, private elementRef: ElementRef, private injector: Injector) {
this.helper = new UpgradeHelper(injector, name, elementRef);
this.$injector = this.helper.$injector;
this.element = this.helper.element;
this.$element = this.helper.$element;
this.directive = this.helper.directive;
this.bindings = this.initializeBindings(this.directive);
// We ask for the AngularJS scope from the Angular injector, since
// we will put the new component scope onto the new injector for each component
const $parentScope = injector.get($SCOPE);
// QUESTION 1: Should we create an isolated scope if the scope is only true?
// QUESTION 2: Should we make the scope accessible through `$element.scope()/isolateScope()`?
this.$componentScope = $parentScope.$new(!!this.directive.scope);
this.initializeOutputs();
}
ngOnInit() {
// Collect contents, insert and compile template
const attachChildNodes: ILinkFn|undefined = this.helper.prepareTransclusion();
const linkFn = this.helper.compileTemplate();
// Instantiate controller
const controllerType = this.directive.controller;
const bindToController = this.directive.bindToController;
if (controllerType) {
this.controllerInstance = this.helper.buildController(controllerType, this.$componentScope);
} else if (bindToController) {
throw new Error(
`Upgraded directive '${this.directive.name}' specifies 'bindToController' but no controller.`);
}
// Set up outputs
this.bindingDestination = bindToController ? this.controllerInstance : this.$componentScope;
this.bindOutputs();
// Require other controllers
const requiredControllers =
this.helper.resolveAndBindRequiredControllers(this.controllerInstance);
// Hook: $onChanges
if (this.pendingChanges) {
this.forwardChanges(this.pendingChanges);
this.pendingChanges = null;
}
// Hook: $onInit
if (this.controllerInstance && isFunction(this.controllerInstance.$onInit)) {
this.controllerInstance.$onInit();
}
// Hook: $doCheck
if (this.controllerInstance && isFunction(this.controllerInstance.$doCheck)) {
const callDoCheck = () => this.controllerInstance.$doCheck !();
this.unregisterDoCheckWatcher = this.$componentScope.$parent.$watch(callDoCheck);
callDoCheck();
}
// Linking
const link = this.directive.link;
const preLink = (typeof link == 'object') && (link as IDirectivePrePost).pre;
const postLink = (typeof link == 'object') ? (link as IDirectivePrePost).post : link;
const attrs: IAttributes = NOT_SUPPORTED;
const transcludeFn: ITranscludeFunction = NOT_SUPPORTED;
if (preLink) {
preLink(this.$componentScope, this.$element, attrs, requiredControllers, transcludeFn);
}
linkFn(this.$componentScope, null !, {parentBoundTranscludeFn: attachChildNodes});
if (postLink) {
postLink(this.$componentScope, this.$element, attrs, requiredControllers, transcludeFn);
}
// Hook: $postLink
if (this.controllerInstance && isFunction(this.controllerInstance.$postLink)) {
this.controllerInstance.$postLink();
}
}
ngOnChanges(changes: SimpleChanges) {
if (!this.bindingDestination) {
this.pendingChanges = changes;
} else {
this.forwardChanges(changes);
}
}
ngDoCheck() {
const twoWayBoundProperties = this.bindings.twoWayBoundProperties;
const twoWayBoundLastValues = this.bindings.twoWayBoundLastValues;
const propertyToOutputMap = this.bindings.propertyToOutputMap;
twoWayBoundProperties.forEach((propName, idx) => {
const newValue = this.bindingDestination[propName];
const oldValue = twoWayBoundLastValues[idx];
if (!looseIdentical(newValue, oldValue)) {
const outputName = propertyToOutputMap[propName];
const eventEmitter: EventEmitter<any> = (this as any)[outputName];
eventEmitter.emit(newValue);
twoWayBoundLastValues[idx] = newValue;
}
});
}
ngOnDestroy() {
if (isFunction(this.unregisterDoCheckWatcher)) {
this.unregisterDoCheckWatcher();
}
this.helper.onDestroy(this.$componentScope, this.controllerInstance);
}
private initializeBindings(directive: IDirective) {
const btcIsObject = typeof directive.bindToController === 'object';
if (btcIsObject && Object.keys(directive.scope !).length) {
throw new Error(
`Binding definitions on scope and controller at the same time is not supported.`);
}
const context = (btcIsObject) ? directive.bindToController : directive.scope;
const bindings = new Bindings();
if (typeof context == 'object') {
Object.keys(context).forEach(propName => {
const definition = context[propName];
const bindingType = definition.charAt(0);
// QUESTION: What about `=*`? Ignore? Throw? Support?
switch (bindingType) {
case '@':
case '<':
// We don't need to do anything special. They will be defined as inputs on the
// upgraded component facade and the change propagation will be handled by
// `ngOnChanges()`.
break;
case '=':
bindings.twoWayBoundProperties.push(propName);
bindings.twoWayBoundLastValues.push(INITIAL_VALUE);
bindings.propertyToOutputMap[propName] = propName + 'Change';
break;
case '&':
bindings.expressionBoundProperties.push(propName);
bindings.propertyToOutputMap[propName] = propName;
break;
default:
let json = JSON.stringify(context);
throw new Error(
`Unexpected mapping '${bindingType}' in '${json}' in '${this.name}' directive.`);
}
});
}
return bindings;
}
private initializeOutputs() {
// Initialize the outputs for `=` and `&` bindings
this.bindings.twoWayBoundProperties.concat(this.bindings.expressionBoundProperties)
.forEach(propName => {
const outputName = this.bindings.propertyToOutputMap[propName];
(this as any)[outputName] = new EventEmitter();
});
}
private bindOutputs() {
// Bind `&` bindings to the corresponding outputs
this.bindings.expressionBoundProperties.forEach(propName => {
const outputName = this.bindings.propertyToOutputMap[propName];
const emitter = (this as any)[outputName];
this.bindingDestination[propName] = (value: any) => emitter.emit(value);
});
}
private forwardChanges(changes: SimpleChanges) {
// Forward input changes to `bindingDestination`
Object.keys(changes).forEach(
propName => this.bindingDestination[propName] = changes[propName].currentValue);
if (isFunction(this.bindingDestination.$onChanges)) {
this.bindingDestination.$onChanges(changes);
}
}
}
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