芝麻web文件管理V1.00

编辑当前文件:/home/freeclou/app.optimyar.com/backend/node_modules/rxjs/src/internal/observable/generate.ts
import { Observable } from '../Observable'; import { Subscriber } from '../Subscriber'; import { identity } from '../util/identity'; import { SchedulerAction, SchedulerLike } from '../types'; import { isScheduler } from '../util/isScheduler'; export type ConditionFunc<S> = (state: S) => boolean; export type IterateFunc<S> = (state: S) => S; export type ResultFunc<S, T> = (state: S) => T; interface SchedulerState<T, S> { needIterate?: boolean; state: S; subscriber: Subscriber<T>; condition?: ConditionFunc<S>; iterate: IterateFunc<S>; resultSelector: ResultFunc<S, T>; } export interface GenerateBaseOptions<S> { /** * Initial state. */ initialState: S; /** * Condition function that accepts state and returns boolean. * When it returns false, the generator stops. * If not specified, a generator never stops. */ condition?: ConditionFunc<S>; /** * Iterate function that accepts state and returns new state. */ iterate: IterateFunc<S>; /** * SchedulerLike to use for generation process. * By default, a generator starts immediately. */ scheduler?: SchedulerLike; } export interface GenerateOptions<T, S> extends GenerateBaseOptions<S> { /** * Result selection function that accepts state and returns a value to emit. */ resultSelector: ResultFunc<S, T>; } /** * Generates an observable sequence by running a state-driven loop * producing the sequence's elements, using the specified scheduler * to send out observer messages. * *  * * @example <caption>Produces sequence of 0, 1, 2, ... 9, then completes.</caption> * const res = generate(0, x => x < 10, x => x + 1, x => x); * * @example <caption>Using asap scheduler, produces sequence of 2, 3, 5, then completes.</caption> * const res = generate(1, x => x < 5, x => x * 2, x => x + 1, asap); * * @see {@link from} * @see {@link Observable} * * @param {S} initialState Initial state. * @param {function (state: S): boolean} condition Condition to terminate generation (upon returning false). * @param {function (state: S): S} iterate Iteration step function. * @param {function (state: S): T} resultSelector Selector function for results produced in the sequence. (deprecated) * @param {SchedulerLike} [scheduler] A {@link SchedulerLike} on which to run the generator loop. If not provided, defaults to emit immediately. * @returns {Observable<T>} The generated sequence. */ export function generate<T, S>(initialState: S, condition: ConditionFunc<S>, iterate: IterateFunc<S>, resultSelector: ResultFunc<S, T>, scheduler?: SchedulerLike): Observable<T>; /** * Generates an Observable by running a state-driven loop * that emits an element on each iteration. * * <span class="informal">Use it instead of nexting values in a for loop.</span> * * <img src="./img/generate.png" width="100%"> * * `generate` allows you to create stream of values generated with a loop very similar to * traditional for loop. First argument of `generate` is a beginning value. Second argument * is a function that accepts this value and tests if some condition still holds. If it does, * loop continues, if not, it stops. Third value is a function which takes previously defined * value and modifies it in some way on each iteration. Note how these three parameters * are direct equivalents of three expressions in regular for loop: first expression * initializes some state (for example numeric index), second tests if loop can make next * iteration (for example if index is lower than 10) and third states how defined value * will be modified on every step (index will be incremented by one). * * Return value of a `generate` operator is an Observable that on each loop iteration * emits a value. First, condition function is ran. If it returned true, Observable * emits currently stored value (initial value at the first iteration) and then updates * that value with iterate function. If at some point condition returned false, Observable * completes at that moment. * * Optionally you can pass fourth parameter to `generate` - a result selector function which allows you * to immediately map value that would normally be emitted by an Observable. * * If you find three anonymous functions in `generate` call hard to read, you can provide * single object to the operator instead. That object has properties: `initialState`, * `condition`, `iterate` and `resultSelector`, which should have respective values that you * would normally pass to `generate`. `resultSelector` is still optional, but that form * of calling `generate` allows you to omit `condition` as well. If you omit it, that means * condition always holds, so output Observable will never complete. * * Both forms of `generate` can optionally accept a scheduler. In case of multi-parameter call, * scheduler simply comes as a last argument (no matter if there is resultSelector * function or not). In case of single-parameter call, you can provide it as a * `scheduler` property on object passed to the operator. In both cases scheduler decides when * next iteration of the loop will happen and therefore when next value will be emitted * by the Observable. For example to ensure that each value is pushed to the observer * on separate task in event loop, you could use `async` scheduler. Note that * by default (when no scheduler is passed) values are simply emitted synchronously. * * * @example <caption>Use with condition and iterate functions.</caption> * const generated = generate(0, x => x < 3, x => x + 1); * * generated.subscribe( * value => console.log(value), * err => {}, * () => console.log('Yo!') * ); * * // Logs: * // 0 * // 1 * // 2 * // "Yo!" * * * @example <caption>Use with condition, iterate and resultSelector functions.</caption> * const generated = generate(0, x => x < 3, x => x + 1, x => x * 1000); * * generated.subscribe( * value => console.log(value), * err => {}, * () => console.log('Yo!') * ); * * // Logs: * // 0 * // 1000 * // 2000 * // "Yo!" * * * @example <caption>Use with options object.</caption> * const generated = generate({ * initialState: 0, * condition(value) { return value < 3; }, * iterate(value) { return value + 1; }, * resultSelector(value) { return value * 1000; } * }); * * generated.subscribe( * value => console.log(value), * err => {}, * () => console.log('Yo!') * ); * * // Logs: * // 0 * // 1000 * // 2000 * // "Yo!" * * @example <caption>Use options object without condition function.</caption> * const generated = generate({ * initialState: 0, * iterate(value) { return value + 1; }, * resultSelector(value) { return value * 1000; } * }); * * generated.subscribe( * value => console.log(value), * err => {}, * () => console.log('Yo!') // This will never run. * ); * * // Logs: * // 0 * // 1000 * // 2000 * // 3000 * // ...and never stops. * * * @see {@link from} * @see {@link index/Observable.create} * * @param {S} initialState Initial state. * @param {function (state: S): boolean} condition Condition to terminate generation (upon returning false). * @param {function (state: S): S} iterate Iteration step function. * @param {function (state: S): T} [resultSelector] Selector function for results produced in the sequence. * @param {Scheduler} [scheduler] A {@link Scheduler} on which to run the generator loop. If not provided, defaults to emitting immediately. * @return {Observable<T>} The generated sequence. */ export function generate<S>(initialState: S, condition: ConditionFunc<S>, iterate: IterateFunc<S>, scheduler?: SchedulerLike): Observable<S>; /** * Generates an observable sequence by running a state-driven loop * producing the sequence's elements, using the specified scheduler * to send out observer messages. * The overload accepts options object that might contain initial state, iterate, * condition and scheduler. * *  * * @example <caption>Produces sequence of 0, 1, 2, ... 9, then completes.</caption> * const res = generate({ * initialState: 0, * condition: x => x < 10, * iterate: x => x + 1, * }); * * @see {@link from} * @see {@link Observable} * * @param {GenerateBaseOptions<S>} options Object that must contain initialState, iterate and might contain condition and scheduler. * @returns {Observable<S>} The generated sequence. */ export function generate<S>(options: GenerateBaseOptions<S>): Observable<S>; /** * Generates an observable sequence by running a state-driven loop * producing the sequence's elements, using the specified scheduler * to send out observer messages. * The overload accepts options object that might contain initial state, iterate, * condition, result selector and scheduler. * *  * * @example <caption>Produces sequence of 0, 1, 2, ... 9, then completes.</caption> * const res = generate({ * initialState: 0, * condition: x => x < 10, * iterate: x => x + 1, * resultSelector: x => x, * }); * * @see {@link from} * @see {@link Observable} * * @param {GenerateOptions<T, S>} options Object that must contain initialState, iterate, resultSelector and might contain condition and scheduler. * @returns {Observable<T>} The generated sequence. */ export function generate<T, S>(options: GenerateOptions<T, S>): Observable<T>; export function generate<T, S>(initialStateOrOptions: S | GenerateOptions<T, S>, condition?: ConditionFunc<S>, iterate?: IterateFunc<S>, resultSelectorOrObservable?: (ResultFunc<S, T>) | SchedulerLike, scheduler?: SchedulerLike): Observable<T> { let resultSelector: ResultFunc<S, T>; let initialState: S; if (arguments.length == 1) { const options = initialStateOrOptions as GenerateOptions<T, S>; initialState = options.initialState; condition = options.condition; iterate = options.iterate; resultSelector = options.resultSelector || identity as ResultFunc<S, T>; scheduler = options.scheduler; } else if (resultSelectorOrObservable === undefined || isScheduler(resultSelectorOrObservable)) { initialState = initialStateOrOptions as S; resultSelector = identity as ResultFunc<S, T>; scheduler = resultSelectorOrObservable as SchedulerLike; } else { initialState = initialStateOrOptions as S; resultSelector = resultSelectorOrObservable as ResultFunc<S, T>; } return new Observable<T>(subscriber => { let state = initialState; if (scheduler) { return scheduler.schedule<SchedulerState<T, S>>(dispatch, 0, { subscriber, iterate, condition, resultSelector, state }); } do { if (condition) { let conditionResult: boolean; try { conditionResult = condition(state); } catch (err) { subscriber.error(err); return undefined; } if (!conditionResult) { subscriber.complete(); break; } } let value: T; try { value = resultSelector(state); } catch (err) { subscriber.error(err); return undefined; } subscriber.next(value); if (subscriber.closed) { break; } try { state = iterate(state); } catch (err) { subscriber.error(err); return undefined; } } while (true); return undefined; }); } function dispatch<T, S>(this: SchedulerAction<SchedulerState<T, S>>, state: SchedulerState<T, S>) { const { subscriber, condition } = state; if (subscriber.closed) { return undefined; } if (state.needIterate) { try { state.state = state.iterate(state.state); } catch (err) { subscriber.error(err); return undefined; } } else { state.needIterate = true; } if (condition) { let conditionResult: boolean; try { conditionResult = condition(state.state); } catch (err) { subscriber.error(err); return undefined; } if (!conditionResult) { subscriber.complete(); return undefined; } if (subscriber.closed) { return undefined; } } let value: T; try { value = state.resultSelector(state.state); } catch (err) { subscriber.error(err); return undefined; } if (subscriber.closed) { return undefined; } subscriber.next(value); if (subscriber.closed) { return undefined; } return this.schedule(state); }