source: trip-planner-front/node_modules/rxjs/src/internal/observable/generate.ts@ 1ad8e64

Last change on this file since 1ad8e64 was 6a3a178, checked in by Ema <ema_spirova@…>, 3 years ago

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1import { Observable } from '../Observable';
2import { Subscriber } from '../Subscriber';
3import { identity } from '../util/identity';
4import { SchedulerAction, SchedulerLike } from '../types';
5import { isScheduler } from '../util/isScheduler';
6
7export type ConditionFunc<S> = (state: S) => boolean;
8export type IterateFunc<S> = (state: S) => S;
9export type ResultFunc<S, T> = (state: S) => T;
10
11interface SchedulerState<T, S> {
12 needIterate?: boolean;
13 state: S;
14 subscriber: Subscriber<T>;
15 condition?: ConditionFunc<S>;
16 iterate: IterateFunc<S>;
17 resultSelector: ResultFunc<S, T>;
18}
19
20export interface GenerateBaseOptions<S> {
21 /**
22 * Initial state.
23 */
24 initialState: S;
25 /**
26 * Condition function that accepts state and returns boolean.
27 * When it returns false, the generator stops.
28 * If not specified, a generator never stops.
29 */
30 condition?: ConditionFunc<S>;
31 /**
32 * Iterate function that accepts state and returns new state.
33 */
34 iterate: IterateFunc<S>;
35 /**
36 * SchedulerLike to use for generation process.
37 * By default, a generator starts immediately.
38 */
39 scheduler?: SchedulerLike;
40}
41
42export interface GenerateOptions<T, S> extends GenerateBaseOptions<S> {
43 /**
44 * Result selection function that accepts state and returns a value to emit.
45 */
46 resultSelector: ResultFunc<S, T>;
47}
48
49/**
50 * Generates an observable sequence by running a state-driven loop
51 * producing the sequence's elements, using the specified scheduler
52 * to send out observer messages.
53 *
54 * ![](generate.png)
55 *
56 * @example <caption>Produces sequence of 0, 1, 2, ... 9, then completes.</caption>
57 * const res = generate(0, x => x < 10, x => x + 1, x => x);
58 *
59 * @example <caption>Using asap scheduler, produces sequence of 2, 3, 5, then completes.</caption>
60 * const res = generate(1, x => x < 5, x => x * 2, x => x + 1, asap);
61 *
62 * @see {@link from}
63 * @see {@link Observable}
64 *
65 * @param {S} initialState Initial state.
66 * @param {function (state: S): boolean} condition Condition to terminate generation (upon returning false).
67 * @param {function (state: S): S} iterate Iteration step function.
68 * @param {function (state: S): T} resultSelector Selector function for results produced in the sequence. (deprecated)
69 * @param {SchedulerLike} [scheduler] A {@link SchedulerLike} on which to run the generator loop. If not provided, defaults to emit immediately.
70 * @returns {Observable<T>} The generated sequence.
71 */
72 export function generate<T, S>(initialState: S,
73 condition: ConditionFunc<S>,
74 iterate: IterateFunc<S>,
75 resultSelector: ResultFunc<S, T>,
76 scheduler?: SchedulerLike): Observable<T>;
77
78/**
79 * Generates an Observable by running a state-driven loop
80 * that emits an element on each iteration.
81 *
82 * <span class="informal">Use it instead of nexting values in a for loop.</span>
83 *
84 * <img src="./img/generate.png" width="100%">
85 *
86 * `generate` allows you to create stream of values generated with a loop very similar to
87 * traditional for loop. First argument of `generate` is a beginning value. Second argument
88 * is a function that accepts this value and tests if some condition still holds. If it does,
89 * loop continues, if not, it stops. Third value is a function which takes previously defined
90 * value and modifies it in some way on each iteration. Note how these three parameters
91 * are direct equivalents of three expressions in regular for loop: first expression
92 * initializes some state (for example numeric index), second tests if loop can make next
93 * iteration (for example if index is lower than 10) and third states how defined value
94 * will be modified on every step (index will be incremented by one).
95 *
96 * Return value of a `generate` operator is an Observable that on each loop iteration
97 * emits a value. First, condition function is ran. If it returned true, Observable
98 * emits currently stored value (initial value at the first iteration) and then updates
99 * that value with iterate function. If at some point condition returned false, Observable
100 * completes at that moment.
101 *
102 * Optionally you can pass fourth parameter to `generate` - a result selector function which allows you
103 * to immediately map value that would normally be emitted by an Observable.
104 *
105 * If you find three anonymous functions in `generate` call hard to read, you can provide
106 * single object to the operator instead. That object has properties: `initialState`,
107 * `condition`, `iterate` and `resultSelector`, which should have respective values that you
108 * would normally pass to `generate`. `resultSelector` is still optional, but that form
109 * of calling `generate` allows you to omit `condition` as well. If you omit it, that means
110 * condition always holds, so output Observable will never complete.
111 *
112 * Both forms of `generate` can optionally accept a scheduler. In case of multi-parameter call,
113 * scheduler simply comes as a last argument (no matter if there is resultSelector
114 * function or not). In case of single-parameter call, you can provide it as a
115 * `scheduler` property on object passed to the operator. In both cases scheduler decides when
116 * next iteration of the loop will happen and therefore when next value will be emitted
117 * by the Observable. For example to ensure that each value is pushed to the observer
118 * on separate task in event loop, you could use `async` scheduler. Note that
119 * by default (when no scheduler is passed) values are simply emitted synchronously.
120 *
121 *
122 * @example <caption>Use with condition and iterate functions.</caption>
123 * const generated = generate(0, x => x < 3, x => x + 1);
124 *
125 * generated.subscribe(
126 * value => console.log(value),
127 * err => {},
128 * () => console.log('Yo!')
129 * );
130 *
131 * // Logs:
132 * // 0
133 * // 1
134 * // 2
135 * // "Yo!"
136 *
137 *
138 * @example <caption>Use with condition, iterate and resultSelector functions.</caption>
139 * const generated = generate(0, x => x < 3, x => x + 1, x => x * 1000);
140 *
141 * generated.subscribe(
142 * value => console.log(value),
143 * err => {},
144 * () => console.log('Yo!')
145 * );
146 *
147 * // Logs:
148 * // 0
149 * // 1000
150 * // 2000
151 * // "Yo!"
152 *
153 *
154 * @example <caption>Use with options object.</caption>
155 * const generated = generate({
156 * initialState: 0,
157 * condition(value) { return value < 3; },
158 * iterate(value) { return value + 1; },
159 * resultSelector(value) { return value * 1000; }
160 * });
161 *
162 * generated.subscribe(
163 * value => console.log(value),
164 * err => {},
165 * () => console.log('Yo!')
166 * );
167 *
168 * // Logs:
169 * // 0
170 * // 1000
171 * // 2000
172 * // "Yo!"
173 *
174 * @example <caption>Use options object without condition function.</caption>
175 * const generated = generate({
176 * initialState: 0,
177 * iterate(value) { return value + 1; },
178 * resultSelector(value) { return value * 1000; }
179 * });
180 *
181 * generated.subscribe(
182 * value => console.log(value),
183 * err => {},
184 * () => console.log('Yo!') // This will never run.
185 * );
186 *
187 * // Logs:
188 * // 0
189 * // 1000
190 * // 2000
191 * // 3000
192 * // ...and never stops.
193 *
194 *
195 * @see {@link from}
196 * @see {@link index/Observable.create}
197 *
198 * @param {S} initialState Initial state.
199 * @param {function (state: S): boolean} condition Condition to terminate generation (upon returning false).
200 * @param {function (state: S): S} iterate Iteration step function.
201 * @param {function (state: S): T} [resultSelector] Selector function for results produced in the sequence.
202 * @param {Scheduler} [scheduler] A {@link Scheduler} on which to run the generator loop. If not provided, defaults to emitting immediately.
203 * @return {Observable<T>} The generated sequence.
204 */
205export function generate<S>(initialState: S,
206 condition: ConditionFunc<S>,
207 iterate: IterateFunc<S>,
208 scheduler?: SchedulerLike): Observable<S>;
209
210/**
211 * Generates an observable sequence by running a state-driven loop
212 * producing the sequence's elements, using the specified scheduler
213 * to send out observer messages.
214 * The overload accepts options object that might contain initial state, iterate,
215 * condition and scheduler.
216 *
217 * ![](generate.png)
218 *
219 * @example <caption>Produces sequence of 0, 1, 2, ... 9, then completes.</caption>
220 * const res = generate({
221 * initialState: 0,
222 * condition: x => x < 10,
223 * iterate: x => x + 1,
224 * });
225 *
226 * @see {@link from}
227 * @see {@link Observable}
228 *
229 * @param {GenerateBaseOptions<S>} options Object that must contain initialState, iterate and might contain condition and scheduler.
230 * @returns {Observable<S>} The generated sequence.
231 */
232export function generate<S>(options: GenerateBaseOptions<S>): Observable<S>;
233
234/**
235 * Generates an observable sequence by running a state-driven loop
236 * producing the sequence's elements, using the specified scheduler
237 * to send out observer messages.
238 * The overload accepts options object that might contain initial state, iterate,
239 * condition, result selector and scheduler.
240 *
241 * ![](generate.png)
242 *
243 * @example <caption>Produces sequence of 0, 1, 2, ... 9, then completes.</caption>
244 * const res = generate({
245 * initialState: 0,
246 * condition: x => x < 10,
247 * iterate: x => x + 1,
248 * resultSelector: x => x,
249 * });
250 *
251 * @see {@link from}
252 * @see {@link Observable}
253 *
254 * @param {GenerateOptions<T, S>} options Object that must contain initialState, iterate, resultSelector and might contain condition and scheduler.
255 * @returns {Observable<T>} The generated sequence.
256 */
257export function generate<T, S>(options: GenerateOptions<T, S>): Observable<T>;
258
259export function generate<T, S>(initialStateOrOptions: S | GenerateOptions<T, S>,
260 condition?: ConditionFunc<S>,
261 iterate?: IterateFunc<S>,
262 resultSelectorOrObservable?: (ResultFunc<S, T>) | SchedulerLike,
263 scheduler?: SchedulerLike): Observable<T> {
264
265 let resultSelector: ResultFunc<S, T>;
266 let initialState: S;
267
268 if (arguments.length == 1) {
269 const options = initialStateOrOptions as GenerateOptions<T, S>;
270 initialState = options.initialState;
271 condition = options.condition;
272 iterate = options.iterate;
273 resultSelector = options.resultSelector || identity as ResultFunc<S, T>;
274 scheduler = options.scheduler;
275 } else if (resultSelectorOrObservable === undefined || isScheduler(resultSelectorOrObservable)) {
276 initialState = initialStateOrOptions as S;
277 resultSelector = identity as ResultFunc<S, T>;
278 scheduler = resultSelectorOrObservable as SchedulerLike;
279 } else {
280 initialState = initialStateOrOptions as S;
281 resultSelector = resultSelectorOrObservable as ResultFunc<S, T>;
282 }
283
284 return new Observable<T>(subscriber => {
285 let state = initialState;
286 if (scheduler) {
287 return scheduler.schedule<SchedulerState<T, S>>(dispatch, 0, {
288 subscriber,
289 iterate,
290 condition,
291 resultSelector,
292 state
293 });
294 }
295
296 do {
297 if (condition) {
298 let conditionResult: boolean;
299 try {
300 conditionResult = condition(state);
301 } catch (err) {
302 subscriber.error(err);
303 return undefined;
304 }
305 if (!conditionResult) {
306 subscriber.complete();
307 break;
308 }
309 }
310 let value: T;
311 try {
312 value = resultSelector(state);
313 } catch (err) {
314 subscriber.error(err);
315 return undefined;
316 }
317 subscriber.next(value);
318 if (subscriber.closed) {
319 break;
320 }
321 try {
322 state = iterate(state);
323 } catch (err) {
324 subscriber.error(err);
325 return undefined;
326 }
327 } while (true);
328
329 return undefined;
330 });
331}
332
333function dispatch<T, S>(this: SchedulerAction<SchedulerState<T, S>>, state: SchedulerState<T, S>) {
334 const { subscriber, condition } = state;
335 if (subscriber.closed) {
336 return undefined;
337 }
338 if (state.needIterate) {
339 try {
340 state.state = state.iterate(state.state);
341 } catch (err) {
342 subscriber.error(err);
343 return undefined;
344 }
345 } else {
346 state.needIterate = true;
347 }
348 if (condition) {
349 let conditionResult: boolean;
350 try {
351 conditionResult = condition(state.state);
352 } catch (err) {
353 subscriber.error(err);
354 return undefined;
355 }
356 if (!conditionResult) {
357 subscriber.complete();
358 return undefined;
359 }
360 if (subscriber.closed) {
361 return undefined;
362 }
363 }
364 let value: T;
365 try {
366 value = state.resultSelector(state.state);
367 } catch (err) {
368 subscriber.error(err);
369 return undefined;
370 }
371 if (subscriber.closed) {
372 return undefined;
373 }
374 subscriber.next(value);
375 if (subscriber.closed) {
376 return undefined;
377 }
378 return this.schedule(state);
379}
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