angular-cn/modules/angular2/src/core/facade/async.ts

125 lines
3.8 KiB
TypeScript
Raw Normal View History

/// <reference path="../../typings/rx/rx.d.ts" />
import {global, isPresent} from 'angular2/src/facade/lang';
import {List} from 'angular2/src/facade/collection';
import * as Rx from 'rx';
export {Promise};
export interface PromiseCompleter<R> {
promise: Promise<R>;
resolve: (value?: R | PromiseLike<R>) => void;
reject: (error?: any, stackTrace?: string) => void;
}
export class PromiseWrapper {
static resolve<T>(obj: T): Promise<T> { return Promise.resolve(obj); }
static reject(obj: any, _): Promise<any> { return Promise.reject(obj); }
// Note: We can't rename this method into `catch`, as this is not a valid
// method name in Dart.
static catchError<T>(promise: Promise<T>,
onError: (error: any) => T | PromiseLike<T>): Promise<T> {
return promise.catch(onError);
}
static all(promises: List<any>): Promise<any> {
if (promises.length == 0) return Promise.resolve([]);
return Promise.all(promises);
}
static then<T, U>(promise: Promise<T>, success: (value: T) => U | PromiseLike<U>,
rejection?: (error: any, stack?: any) => U | PromiseLike<U>): Promise<U> {
return promise.then(success, rejection);
}
2015-06-26 18:58:52 -04:00
static wrap<T>(computation: () => T): Promise<T> {
return new Promise((res, rej) => {
try {
res(computation());
} catch (e) {
rej(e);
}
});
}
static completer(): PromiseCompleter<any> {
var resolve;
var reject;
var p = new Promise(function(res, rej) {
resolve = res;
reject = rej;
});
return {promise: p, resolve: resolve, reject: reject};
}
}
export class TimerWrapper {
static setTimeout(fn: Function, millis: number): number { return global.setTimeout(fn, millis); }
static clearTimeout(id: number): void { global.clearTimeout(id); }
static setInterval(fn: Function, millis: number): number {
return global.setInterval(fn, millis);
}
static clearInterval(id: number): void { global.clearInterval(id); }
}
export class ObservableWrapper {
// TODO(vsavkin): when we use rxnext, try inferring the generic type from the first arg
static subscribe<T>(emitter: Observable, onNext: (value: T) => void,
onThrow: (exception: any) => void = null,
onReturn: () => void = null): Object {
return emitter.observer({next: onNext, throw: onThrow, return: onReturn});
}
static isObservable(obs: any): boolean { return obs instanceof Observable; }
static dispose(subscription: any) { subscription.dispose(); }
static callNext(emitter: EventEmitter, value: any) { emitter.next(value); }
static callThrow(emitter: EventEmitter, error: any) { emitter.throw(error); }
static callReturn(emitter: EventEmitter) { emitter.return (null); }
}
// TODO: vsavkin change to interface
export class Observable {
observer(generator: any): Object { return null; }
}
/**
* Use Rx.Observable but provides an adapter to make it work as specified here:
* https://github.com/jhusain/observable-spec
*
* Once a reference implementation of the spec is available, switch to it.
*/
export class EventEmitter extends Observable {
_subject: Rx.Subject<any>;
_immediateScheduler;
constructor() {
super();
this._subject = new Rx.Subject<any>();
this._immediateScheduler = (<any>Rx.Scheduler).immediate;
}
observer(generator: any): Rx.IDisposable {
return this._subject.observeOn(this._immediateScheduler)
.subscribe((value) => { setTimeout(() => generator.next(value)); },
(error) => generator.throw ? generator.throw(error) : null,
() => generator.return ? generator.return () : null);
}
toRx(): Rx.Observable<any> { return this._subject; }
next(value: any) { this._subject.onNext(value); }
throw(error: any) { this._subject.onError(error); }
return (value?: any) { this._subject.onCompleted(); }
}