source: trip-planner-front/node_modules/rxjs/src/MiscJSDoc.ts@ 6a80231

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[6a3a178]1/*
2 * This file and its definitions are needed just so that ESDoc sees these
3 * JSDoc documentation comments. Originally they were meant for some TypeScript
4 * interfaces, but TypeScript strips away JSDoc comments near interfaces. Hence,
5 * we need these bogus classes, which are not stripped away. This file on the
6 * other hand, is not included in the release bundle.
7 */
8import { Observer, TeardownLogic } from './internal/types';
9import { Observable } from './internal/Observable';
10import './internal/observable/dom/MiscJSDoc';
11
12/**
13 * We need this JSDoc comment for affecting ESDoc.
14 * @extends {Ignored}
15 * @hide true
16 */
17export class ObservableDoc {
18 /**
19 * Creates a new Observable, that will execute the specified function when an
20 * {@link Observer} subscribes to it.
21 *
22 * <span class="informal">Create custom Observable, that does whatever you like.</span>
23 *
24 * ![](create.png)
25 *
26 * `create` converts an `onSubscription` function to an actual Observable.
27 * Whenever someone subscribes to that Observable, the function will be called
28 * with an {@link Observer} instance as a first and only parameter. `onSubscription` should
29 * then invoke the Observers `next`, `error` and `complete` methods.
30 *
31 * Calling `next` with a value will emit that value to the observer. Calling `complete`
32 * means that Observable finished emitting and will not do anything else.
33 * Calling `error` means that something went wrong - value passed to `error` method should
34 * provide details on what exactly happened.
35 *
36 * A well-formed Observable can emit as many values as it needs via `next` method,
37 * but `complete` and `error` methods can be called only once and nothing else can be called
38 * thereafter. If you try to invoke `next`, `complete` or `error` methods after created
39 * Observable already completed or ended with an error, these calls will be ignored to
40 * preserve so called *Observable Contract*. Note that you are not required to call
41 * `complete` at any point - it is perfectly fine to create an Observable that never ends,
42 * depending on your needs.
43 *
44 * `onSubscription` can optionally return either a function or an object with
45 * `unsubscribe` method. In both cases function or method will be called when
46 * subscription to Observable is being cancelled and should be used to clean up all
47 * resources. So, for example, if you are using `setTimeout` in your custom
48 * Observable, when someone unsubscribes, you can clear planned timeout, so that
49 * it does not fire needlessly and browser (or other environment) does not waste
50 * computing power on timing event that no one will listen to anyways.
51 *
52 * Most of the times you should not need to use `create`, because existing
53 * operators allow you to create an Observable for most of the use cases.
54 * That being said, `create` is low-level mechanism allowing you to create
55 * any Observable, if you have very specific needs.
56 *
57 * **TypeScript signature issue**
58 *
59 * Because Observable extends class which already has defined static `create` function,
60 * but with different type signature, it was impossible to assign proper signature to
61 * `Observable.create`. Because of that, it has very general type `Function` and thus
62 * function passed to `create` will not be type checked, unless you explicitly state
63 * what signature it should have.
64 *
65 * When using TypeScript we recommend to declare type signature of function passed to
66 * `create` as `(observer: Observer) => TeardownLogic`, where {@link Observer}
67 * and {@link TeardownLogic} are interfaces provided by the library.
68 *
69 * @example <caption>Emit three numbers, then complete.</caption>
70 * var observable = Rx.Observable.create(function (observer) {
71 * observer.next(1);
72 * observer.next(2);
73 * observer.next(3);
74 * observer.complete();
75 * });
76 * observable.subscribe(
77 * value => console.log(value),
78 * err => {},
79 * () => console.log('this is the end')
80 * );
81 *
82 * // Logs
83 * // 1
84 * // 2
85 * // 3
86 * // "this is the end"
87 *
88 *
89 * @example <caption>Emit an error</caption>
90 * const observable = Rx.Observable.create((observer) => {
91 * observer.error('something went really wrong...');
92 * });
93 *
94 * observable.subscribe(
95 * value => console.log(value), // will never be called
96 * err => console.log(err),
97 * () => console.log('complete') // will never be called
98 * );
99 *
100 * // Logs
101 * // "something went really wrong..."
102 *
103 *
104 * @example <caption>Return unsubscribe function</caption>
105 *
106 * const observable = Rx.Observable.create(observer => {
107 * const id = setTimeout(() => observer.next('...'), 5000); // emit value after 5s
108 *
109 * return () => { clearTimeout(id); console.log('cleared!'); };
110 * });
111 *
112 * const subscription = observable.subscribe(value => console.log(value));
113 *
114 * setTimeout(() => subscription.unsubscribe(), 3000); // cancel subscription after 3s
115 *
116 * // Logs:
117 * // "cleared!" after 3s
118 *
119 * // Never logs "..."
120 *
121 *
122 * @see {@link empty}
123 * @see {@link never}
124 * @see {@link of}
125 * @see {@link throw}
126 *
127 * @param {function(observer: Observer): TeardownLogic} onSubscription A
128 * function that accepts an Observer, and invokes its `next`,
129 * `error`, and `complete` methods as appropriate, and optionally returns some
130 * logic for cleaning up resources.
131 * @return {Observable} An Observable that, whenever subscribed, will execute the
132 * specified function.
133 * @static true
134 * @name create
135 * @owner Observable
136 * @nocollapse
137 */
138 static create<T>(onSubscription: <R>(observer: Observer<R>) => TeardownLogic): Observable<T> {
139 return new Observable<T>(onSubscription);
140 }
141}
142
143/**
144 * An interface for a consumer of push-based notifications delivered by an
145 * {@link Observable}.
146 *
147 * ```ts
148 * interface Observer<T> {
149 * closed?: boolean;
150 * next: (value: T) => void;
151 * error: (err: any) => void;
152 * complete: () => void;
153 * }
154 * ```
155 *
156 * An object conforming to the Observer interface is usually
157 * given to the `observable.subscribe(observer)` method, and the Observable will
158 * call the Observer's `next(value)` method to provide notifications. A
159 * well-behaved Observable will call an Observer's `complete()` method exactly
160 * once or the Observer's `error(err)` method exactly once, as the last
161 * notification delivered.
162 *
163 * @interface
164 * @name Observer
165 * @noimport true
166 */
167export class ObserverDoc<T> {
168 /**
169 * An optional flag to indicate whether this Observer, when used as a
170 * subscriber, has already been unsubscribed from its Observable.
171 * @type {boolean}
172 */
173 closed: boolean = false;
174 /**
175 * The callback to receive notifications of type `next` from the Observable,
176 * with a value. The Observable may call this method 0 or more times.
177 * @param {T} value The `next` value.
178 * @return {void}
179 */
180 next(value: T): void {
181 return void 0;
182 }
183 /**
184 * The callback to receive notifications of type `error` from the Observable,
185 * with an attached {@link Error}. Notifies the Observer that the Observable
186 * has experienced an error condition.
187 * @param {any} err The `error` exception.
188 * @return {void}
189 */
190 error(err: any): void {
191 return void 0;
192 }
193 /**
194 * The callback to receive a valueless notification of type `complete` from
195 * the Observable. Notifies the Observer that the Observable has finished
196 * sending push-based notifications.
197 * @return {void}
198 */
199 complete(): void {
200 return void 0;
201 }
202}
203
204/**
205 * `SubscribableOrPromise` interface describes values that behave like either
206 * Observables or Promises. Every operator that accepts arguments annotated
207 * with this interface, can be also used with parameters that are not necessarily
208 * RxJS Observables.
209 *
210 * Following types of values might be passed to operators expecting this interface:
211 *
212 * ## Observable
213 *
214 * RxJS {@link Observable} instance.
215 *
216 * ## Observable-like (Subscribable)
217 *
218 * This might be any object that has `Symbol.observable` method. This method,
219 * when called, should return object with `subscribe` method on it, which should
220 * behave the same as RxJS `Observable.subscribe`.
221 *
222 * `Symbol.observable` is part of https://github.com/tc39/proposal-observable proposal.
223 * Since currently it is not supported natively, and every symbol is equal only to itself,
224 * you should use https://github.com/blesh/symbol-observable polyfill, when implementing
225 * custom Observable-likes.
226 *
227 * **TypeScript Subscribable interface issue**
228 *
229 * Although TypeScript interface claims that Subscribable is an object that has `subscribe`
230 * method declared directly on it, passing custom objects that have `subscribe`
231 * method but not `Symbol.observable` method will fail at runtime. Conversely, passing
232 * objects with `Symbol.observable` but without `subscribe` will fail at compile time
233 * (if you use TypeScript).
234 *
235 * TypeScript has problem supporting interfaces with methods defined as symbol
236 * properties. To get around that, you should implement `subscribe` directly on
237 * passed object, and make `Symbol.observable` method simply return `this`. That way
238 * everything will work as expected, and compiler will not complain. If you really
239 * do not want to put `subscribe` directly on your object, you will have to type cast
240 * it to `any`, before passing it to an operator.
241 *
242 * When this issue is resolved, Subscribable interface will only permit Observable-like
243 * objects with `Symbol.observable` defined, no matter if they themselves implement
244 * `subscribe` method or not.
245 *
246 * ## ES6 Promise
247 *
248 * Promise can be interpreted as Observable that emits value and completes
249 * when it is resolved or errors when it is rejected.
250 *
251 * ## Promise-like (Thenable)
252 *
253 * Promises passed to operators do not have to be native ES6 Promises.
254 * They can be implementations from popular Promise libraries, polyfills
255 * or even custom ones. They just need to have `then` method that works
256 * as the same as ES6 Promise `then`.
257 *
258 * @example <caption>Use merge and then map with non-RxJS observable</caption>
259 * const nonRxJSObservable = {
260 * subscribe(observer) {
261 * observer.next(1000);
262 * observer.complete();
263 * },
264 * [Symbol.observable]() {
265 * return this;
266 * }
267 * };
268 *
269 * Rx.Observable.merge(nonRxJSObservable)
270 * .map(value => "This value is " + value)
271 * .subscribe(result => console.log(result)); // Logs "This value is 1000"
272 *
273 *
274 * @example <caption>Use combineLatest with ES6 Promise</caption>
275 * Rx.Observable.combineLatest(Promise.resolve(5), Promise.resolve(10), Promise.resolve(15))
276 * .subscribe(
277 * value => console.log(value),
278 * err => {},
279 * () => console.log('the end!')
280 * );
281 * // Logs
282 * // [5, 10, 15]
283 * // "the end!"
284 *
285 *
286 * @interface
287 * @name SubscribableOrPromise
288 * @noimport true
289 */
290export class SubscribableOrPromiseDoc<T> {
291
292}
293
294/**
295 * `ObservableInput` interface describes all values that are either an
296 * {@link SubscribableOrPromise} or some kind of collection of values that
297 * can be transformed to Observable emitting that values. Every operator that
298 * accepts arguments annotated with this interface, can be also used with
299 * parameters that are not necessarily RxJS Observables.
300 *
301 * `ObservableInput` extends {@link SubscribableOrPromise} with following types:
302 *
303 * ## Array
304 *
305 * Arrays can be interpreted as observables that emit all values in array one by one,
306 * from left to right, and then complete immediately.
307 *
308 * ## Array-like
309 *
310 * Arrays passed to operators do not have to be built-in JavaScript Arrays. They
311 * can be also, for example, `arguments` property available inside every function,
312 * [DOM NodeList](https://developer.mozilla.org/pl/docs/Web/API/NodeList),
313 * or, actually, any object that has `length` property (which is a number)
314 * and stores values under non-negative (zero and up) integers.
315 *
316 * ## ES6 Iterable
317 *
318 * Operators will accept both built-in and custom ES6 Iterables, by treating them as
319 * observables that emit all its values in order of iteration and then complete
320 * when iteration ends. Note that contrary to arrays, Iterables do not have to
321 * necessarily be finite, so creating Observables that never complete is possible as well.
322 *
323 * Note that you can make iterator an instance of Iterable by having it return itself
324 * in `Symbol.iterator` method. It means that every operator accepting Iterables accepts,
325 * though indirectly, iterators themselves as well. All native ES6 iterators are instances
326 * of Iterable by default, so you do not have to implement their `Symbol.iterator` method
327 * yourself.
328 *
329 * **TypeScript Iterable interface issue**
330 *
331 * TypeScript `ObservableInput` interface actually lacks type signature for Iterables,
332 * because of issues it caused in some projects (see [this issue](https://github.com/ReactiveX/rxjs/issues/2306)).
333 * If you want to use Iterable as argument for operator, cast it to `any` first.
334 * Remember of course that, because of casting, you have to yourself ensure that passed
335 * argument really implements said interface.
336 *
337 *
338 * @example <caption>Use merge with arrays</caption>
339 * Rx.Observable.merge([1, 2], [4], [5, 6])
340 * .subscribe(
341 * value => console.log(value),
342 * err => {},
343 * () => console.log('ta dam!')
344 * );
345 *
346 * // Logs
347 * // 1
348 * // 2
349 * // 3
350 * // 4
351 * // 5
352 * // 6
353 * // "ta dam!"
354 *
355 *
356 * @example <caption>Use merge with array-like</caption>
357 * Rx.Observable.merge({0: 1, 1: 2, length: 2}, {0: 3, length: 1})
358 * .subscribe(
359 * value => console.log(value),
360 * err => {},
361 * () => console.log('nice, huh?')
362 * );
363 *
364 * // Logs
365 * // 1
366 * // 2
367 * // 3
368 * // "nice, huh?"
369 *
370 * @example <caption>Use merge with an Iterable (Map)</caption>
371 * const firstMap = new Map([[1, 'a'], [2, 'b']]);
372 * const secondMap = new Map([[3, 'c'], [4, 'd']]);
373 *
374 * Rx.Observable.merge(
375 * firstMap, // pass Iterable
376 * secondMap.values() // pass iterator, which is itself an Iterable
377 * ).subscribe(
378 * value => console.log(value),
379 * err => {},
380 * () => console.log('yup!')
381 * );
382 *
383 * // Logs
384 * // [1, "a"]
385 * // [2, "b"]
386 * // "c"
387 * // "d"
388 * // "yup!"
389 *
390 * @example <caption>Use from with generator (returning infinite iterator)</caption>
391 * // infinite stream of incrementing numbers
392 * const infinite = function* () {
393 * let i = 0;
394 *
395 * while (true) {
396 * yield i++;
397 * }
398 * };
399 *
400 * Rx.Observable.from(infinite())
401 * .take(3) // only take 3, cause this is infinite
402 * .subscribe(
403 * value => console.log(value),
404 * err => {},
405 * () => console.log('ta dam!')
406 * );
407 *
408 * // Logs
409 * // 0
410 * // 1
411 * // 2
412 * // "ta dam!"
413 *
414 * @interface
415 * @name ObservableInput
416 * @noimport true
417 */
418export class ObservableInputDoc<T> {
419
420}
421
422/**
423 *
424 * This interface describes what should be returned by function passed to Observable
425 * constructor or static {@link create} function. Value of that interface will be used
426 * to cancel subscription for given Observable.
427 *
428 * `TeardownLogic` can be:
429 *
430 * ## Function
431 *
432 * Function that takes no parameters. When consumer of created Observable calls `unsubscribe`,
433 * that function will be called
434 *
435 * ## AnonymousSubscription
436 *
437 * `AnonymousSubscription` is simply an object with `unsubscribe` method on it. That method
438 * will work the same as function
439 *
440 * ## void
441 *
442 * If created Observable does not have any resources to clean up, function does not have to
443 * return anything.
444 *
445 * @interface
446 * @name TeardownLogic
447 * @noimport true
448 */
449export class TeardownLogicDoc {
450
451}
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