Observable.js.map 19KB

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{ PartialObserver } from './Observer';\nimport { Operator } from './Operator';\nimport { Subscriber } from './Subscriber';\nimport { Subscription, AnonymousSubscription, TeardownLogic } from './Subscription';\nimport { root } from './util/root';\nimport { toSubscriber } from './util/toSubscriber';\nimport { IfObservable } from './observable/IfObservable';\nimport { ErrorObservable } from './observable/ErrorObservable';\nimport { observable as Symbol_observable } from './symbol/observable';\nimport { OperatorFunction } from './interfaces';\nimport { pipeFromArray } from './util/pipe';\n\nexport interface Subscribable<T> {\n subscribe(observerOrNext?: PartialObserver<T> | ((value: T) => void),\n error?: (error: any) => void,\n complete?: () => void): AnonymousSubscription;\n}\n\nexport type SubscribableOrPromise<T> = Subscribable<T> | PromiseLike<T>;\nexport type ObservableInput<T> = SubscribableOrPromise<T> | ArrayLike<T>;\n\n/**\n * A representation of any set of values over any amount of time. This is the most basic building block\n * of RxJS.\n *\n * @class Observable<T>\n */\nexport class Observable<T> implements Subscribable<T> {\n\n public _isScalar: boolean = false;\n\n /** @deprecated internal use only */ public source: Observable<any>;\n protected operator: Operator<any, T>;\n\n /**\n * @constructor\n * @param {Function} subscribe the function that is called when the Observable is\n * initially subscribed to. This function is given a Subscriber, to which new values\n * can be `next`ed, or an `error` method can be called to raise an error, or\n * `complete` can be called to notify of a successful completion.\n */\n constructor(subscribe?: (this: Observable<T>, subscriber: Subscriber<T>) => TeardownLogic) {\n if (subscribe) {\n this._subscribe = subscribe;\n }\n }\n\n // HACK: Since TypeScript inherits static properties too, we have to\n // fight against TypeScript here so Subject can have a different static create signature\n /**\n * Creates a new cold Observable by calling the Observable constructor\n * @static true\n * @owner Observable\n * @method create\n * @param {Function} subscribe? the subscriber function to be passed to the Observable constructor\n * @return {Observable} a new cold observable\n */\n static create: Function = <T>(subscribe?: (subscriber: Subscriber<T>) => TeardownLogic) => {\n return new Observable<T>(subscribe);\n }\n\n /**\n * Creates a new Observable, with this Observable as the source, and the passed\n * operator defined as the new observable's operator.\n * @method lift\n * @param {Operator} operator the operator defining the operation to take on the observable\n * @return {Observable} a new observable with the Operator applied\n */\n lift<R>(operator: Operator<T, R>): Observable<R> {\n const observable = new Observable<R>();\n observable.source = this;\n observable.operator = operator;\n return observable;\n }\n\n subscribe(observer?: PartialObserver<T>): Subscription;\n subscribe(next?: (value: T) => void, error?: (error: any) => void, complete?: () => void): Subscription;\n /**\n * Invokes an execution of an Observable and registers Observer handlers for notifications it will emit.\n *\n * <span class=\"informal\">Use it when you have all these Observables, but still nothing is happening.</span>\n *\n * `subscribe` is not a regular operator, but a method that calls Observable's internal `subscribe` function. It\n * might be for example a function that you passed to a {@link create} static factory, but most of the time it is\n * a library implementation, which defines what and when will be emitted by an Observable. This means that calling\n * `subscribe` is actually the moment when Observable starts its work, not when it is created, as it is often\n * thought.\n *\n * Apart from starting the execution of an Observable, this method allows you to listen for values\n * that an Observable emits, as well as for when it completes or errors. You can achieve this in two\n * following ways.\n *\n * The first way is creating an object that implements {@link Observer} interface. It should have methods\n * defined by that interface, but note that it should be just a regular JavaScript object, which you can create\n * yourself in any way you want (ES6 class, classic function constructor, object literal etc.). In particular do\n * not attempt to use any RxJS implementation details to create Observers - you don't need them. Remember also\n * that your object does not have to implement all methods. If you find yourself creating a method that doesn't\n * do anything, you can simply omit it. Note however, that if `error` method is not provided, all errors will\n * be left uncaught.\n *\n * The second way is to give up on Observer object altogether and simply provide callback functions in place of its methods.\n * This means you can provide three functions as arguments to `subscribe`, where first function is equivalent\n * of a `next` method, second of an `error` method and third of a `complete` method. Just as in case of Observer,\n * if you do not need to listen for something, you can omit a function, preferably by passing `undefined` or `null`,\n * since `subscribe` recognizes these functions by where they were placed in function call. When it comes\n * to `error` function, just as before, if not provided, errors emitted by an Observable will be thrown.\n *\n * Whatever style of calling `subscribe` you use, in both cases it returns a Subscription object.\n * This object allows you to call `unsubscribe` on it, which in turn will stop work that an Observable does and will clean\n * up all resources that an Observable used. Note that cancelling a subscription will not call `complete` callback\n * provided to `subscribe` function, which is reserved for a regular completion signal that comes from an Observable.\n *\n * Remember that callbacks provided to `subscribe` are not guaranteed to be called asynchronously.\n * It is an Observable itself that decides when these functions will be called. For example {@link of}\n * by default emits all its values synchronously. Always check documentation for how given Observable\n * will behave when subscribed and if its default behavior can be modified with a {@link Scheduler}.\n *\n * @example <caption>Subscribe with an Observer</caption>\n * const sumObserver = {\n * sum: 0,\n * next(value) {\n * console.log('Adding: ' + value);\n * this.sum = this.sum + value;\n * },\n * error() { // We actually could just remove this method,\n * }, // since we do not really care about errors right now.\n * complete() {\n * console.log('Sum equals: ' + this.sum);\n * }\n * };\n *\n * Rx.Observable.of(1, 2, 3) // Synchronously emits 1, 2, 3 and then completes.\n * .subscribe(sumObserver);\n *\n * // Logs:\n * // \"Adding: 1\"\n * // \"Adding: 2\"\n * // \"Adding: 3\"\n * // \"Sum equals: 6\"\n *\n *\n * @example <caption>Subscribe with functions</caption>\n * let sum = 0;\n *\n * Rx.Observable.of(1, 2, 3)\n * .subscribe(\n * function(value) {\n * console.log('Adding: ' + value);\n * sum = sum + value;\n * },\n * undefined,\n * function() {\n * console.log('Sum equals: ' + sum);\n * }\n * );\n *\n * // Logs:\n * // \"Adding: 1\"\n * // \"Adding: 2\"\n * // \"Adding: 3\"\n * // \"Sum equals: 6\"\n *\n *\n * @example <caption>Cancel a subscription</caption>\n * const subscription = Rx.Observable.interval(1000).subscribe(\n * num => console.log(num),\n * undefined,\n * () => console.log('completed!') // Will not be called, even\n * ); // when cancelling subscription\n *\n *\n * setTimeout(() => {\n * subscription.unsubscribe();\n * console.log('unsubscribed!');\n * }, 2500);\n *\n * // Logs:\n * // 0 after 1s\n * // 1 after 2s\n * // \"unsubscribed!\" after 2.5s\n *\n *\n * @param {Observer|Function} observerOrNext (optional) Either an observer with methods to be called,\n * or the first of three possible handlers, which is the handler for each value emitted from the subscribed\n * Observable.\n * @param {Function} error (optional) A handler for a terminal event resulting from an error. If no error handler is provided,\n * the error will be thrown as unhandled.\n * @param {Function} complete (optional) A handler for a terminal event resulting from successful completion.\n * @return {ISubscription} a subscription reference to the registered handlers\n * @method subscribe\n */\n subscribe(observerOrNext?: PartialObserver<T> | ((value: T) => void),\n error?: (error: any) => void,\n complete?: () => void): Subscription {\n\n const { operator } = this;\n const sink = toSubscriber(observerOrNext, error, complete);\n\n if (operator) {\n operator.call(sink, this.source);\n } else {\n sink.add(this.source || !sink.syncErrorThrowable ? this._subscribe(sink) : this._trySubscribe(sink));\n }\n\n if (sink.syncErrorThrowable) {\n sink.syncErrorThrowable = false;\n if (sink.syncErrorThrown) {\n throw sink.syncErrorValue;\n }\n }\n\n return sink;\n }\n\n protected _trySubscribe(sink: Subscriber<T>): TeardownLogic {\n try {\n return this._subscribe(sink);\n } catch (err) {\n sink.syncErrorThrown = true;\n sink.syncErrorValue = err;\n sink.error(err);\n }\n }\n\n /**\n * @method forEach\n * @param {Function} next a handler for each value emitted by the observable\n * @param {PromiseConstructor} [PromiseCtor] a constructor function used to instantiate the Promise\n * @return {Promise} a promise that either resolves on observable completion or\n * rejects with the handled error\n */\n forEach(next: (value: T) => void, PromiseCtor?: typeof Promise): Promise<void> {\n if (!PromiseCtor) {\n if (root.Rx && root.Rx.config && root.Rx.config.Promise) {\n PromiseCtor = root.Rx.config.Promise;\n } else if (root.Promise) {\n PromiseCtor = root.Promise;\n }\n }\n\n if (!PromiseCtor) {\n throw new Error('no Promise impl found');\n }\n\n return new PromiseCtor<void>((resolve, reject) => {\n // Must be declared in a separate statement to avoid a RefernceError when\n // accessing subscription below in the closure due to Temporal Dead Zone.\n let subscription: Subscription;\n subscription = this.subscribe((value) => {\n if (subscription) {\n // if there is a subscription, then we can surmise\n // the next handling is asynchronous. Any errors thrown\n // need to be rejected explicitly and unsubscribe must be\n // called manually\n try {\n next(value);\n } catch (err) {\n reject(err);\n subscription.unsubscribe();\n }\n } else {\n // if there is NO subscription, then we're getting a nexted\n // value synchronously during subscription. We can just call it.\n // If it errors, Observable's `subscribe` will ensure the\n // unsubscription logic is called, then synchronously rethrow the error.\n // After that, Promise will trap the error and send it\n // down the rejection path.\n next(value);\n }\n }, reject, resolve);\n });\n }\n\n /** @deprecated internal use only */ _subscribe(subscriber: Subscriber<any>): TeardownLogic {\n return this.source.subscribe(subscriber);\n }\n\n // `if` and `throw` are special snow flakes, the compiler sees them as reserved words\n static if: typeof IfObservable.create;\n static throw: typeof ErrorObservable.create;\n\n /**\n * An interop point defined by the es7-observable spec https://github.com/zenparsing/es-observable\n * @method Symbol.observable\n * @return {Observable} this instance of the observable\n */\n [Symbol_observable]() {\n return this;\n }\n\n /* tslint:disable:max-line-length */\n pipe(): Observable<T>\n pipe<A>(op1: OperatorFunction<T, A>): Observable<A>\n pipe<A, B>(op1: OperatorFunction<T, A>, op2: OperatorFunction<A, B>): Observable<B>\n pipe<A, B, C>(op1: OperatorFunction<T, A>, op2: OperatorFunction<A, B>, op3: OperatorFunction<B, C>): Observable<C>\n pipe<A, B, C, D>(op1: OperatorFunction<T, A>, op2: OperatorFunction<A, B>, op3: OperatorFunction<B, C>, op4: OperatorFunction<C, D>): Observable<D>\n pipe<A, B, C, D, E>(op1: OperatorFunction<T, A>, op2: OperatorFunction<A, B>, op3: OperatorFunction<B, C>, op4: OperatorFunction<C, D>, op5: OperatorFunction<D, E>): Observable<E>\n pipe<A, B, C, D, E, F>(op1: OperatorFunction<T, A>, op2: OperatorFunction<A, B>, op3: OperatorFunction<B, C>, op4: OperatorFunction<C, D>, op5: OperatorFunction<D, E>, op6: OperatorFunction<E, F>): Observable<F>\n pipe<A, B, C, D, E, F, G>(op1: OperatorFunction<T, A>, op2: OperatorFunction<A, B>, op3: OperatorFunction<B, C>, op4: OperatorFunction<C, D>, op5: OperatorFunction<D, E>, op6: OperatorFunction<E, F>, op7: OperatorFunction<F, G>): Observable<G>\n pipe<A, B, C, D, E, F, G, H>(op1: OperatorFunction<T, A>, op2: OperatorFunction<A, B>, op3: OperatorFunction<B, C>, op4: OperatorFunction<C, D>, op5: OperatorFunction<D, E>, op6: OperatorFunction<E, F>, op7: OperatorFunction<F, G>, op8: OperatorFunction<G, H>): Observable<H>\n pipe<A, B, C, D, E, F, G, H, I>(op1: OperatorFunction<T, A>, op2: OperatorFunction<A, B>, op3: OperatorFunction<B, C>, op4: OperatorFunction<C, D>, op5: OperatorFunction<D, E>, op6: OperatorFunction<E, F>, op7: OperatorFunction<F, G>, op8: OperatorFunction<G, H>, op9: OperatorFunction<H, I>): Observable<I>\n pipe<R>(...operations: OperatorFunction<T, R>[]): Observable<R>\n /* tslint:enable:max-line-length */\n\n /**\n * Used to stitch together functional operators into a chain.\n * @method pipe\n * @return {Observable} the Observable result of all of the operators having\n * been called in the order they were passed in.\n *\n * @example\n *\n * import { map, filter, scan } from 'rxjs/operators';\n *\n * Rx.Observable.interval(1000)\n * .pipe(\n * filter(x => x % 2 === 0),\n * map(x => x + x),\n * scan((acc, x) => acc + x)\n * )\n * .subscribe(x => console.log(x))\n */\n pipe<R>(...operations: OperatorFunction<T, R>[]): Observable<R> {\n if (operations.length === 0) {\n return this as any;\n }\n\n return pipeFromArray(operations)(this);\n }\n\n /* tslint:disable:max-line-length */\n toPromise<T>(this: Observable<T>): Promise<T>;\n toPromise<T>(this: Observable<T>, PromiseCtor: typeof Promise): Promise<T>;\n toPromise<T>(this: Observable<T>, PromiseCtor: PromiseConstructorLike): Promise<T>;\n /* tslint:enable:max-line-length */\n\n toPromise(PromiseCtor?: PromiseConstructorLike) {\n if (!PromiseCtor) {\n if (root.Rx && root.Rx.config && root.Rx.config.Promise) {\n PromiseCtor = root.Rx.config.Promise;\n } else if (root.Promise) {\n PromiseCtor = root.Promise;\n }\n }\n\n if (!PromiseCtor) {\n throw new Error('no Promise impl found');\n }\n\n return new PromiseCtor((resolve, reject) => {\n let value: any;\n this.subscribe((x: T) => value = x, (err: any) => reject(err), () => resolve(value));\n }) as Promise<T>;\n }\n}\n"]}