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observable.ts
429 lines | 13.6 KiB | video/mp2t | TypeScriptLexer
import { id as mid} from "module";
import { Cancellation } from "@implab/core-amd/Cancellation";
import { ICancellation } from "@implab/core-amd/interfaces";
import { TraceSource } from "@implab/core-amd/log/TraceSource";
import { isPromise } from "@implab/core-amd/safe";
const trace = TraceSource.get(mid);
/**
* The interface for the consumer of an observable sequence
*/
export interface Observer<T> {
/**
* Called for the next element in the sequence
*/
next?(value: T): void;
/**
* Called once when the error occurs in the sequence.
*/
error?(e: unknown): void;
/**
* Called once at the end of the sequence.
*/
complete?(): void;
}
/**
* The group of functions to feed an observable. These methods are provided to
* the producer to generate a stream of events.
*/
export type Sink<T> = {
/**
* Call to send the next element in the sequence
*/
next: (value: T) => void;
/**
* Call to notify about the error occurred in the sequence.
*/
error: (e: unknown) => void;
/**
* Call to signal the end of the sequence.
*/
complete: () => void;
/**
* Checks whether the sink is accepting new elements. It's safe to
* send elements to the closed sink.
*/
isClosed: () => boolean;
};
export type Producer<T> = (sink: Sink<T>) => (void | (() => void));
type FusedSink<T> = Omit<Sink<T>, "isClosed">;
type FusedProducer<T> = (sink: FusedSink<T>) => (void | (() => void));
export interface Unsubscribable {
unsubscribe(): void;
}
export const isUnsubscribable = (v: unknown): v is Unsubscribable =>
v !== null && v !== undefined && typeof (v as Unsubscribable).unsubscribe === "function";
export const isSubscribable = <T = unknown>(v: unknown): v is Subscribable<T> =>
v !== null && v !== undefined && typeof (v as Subscribable<unknown>).subscribe === "function";
export interface Subscribable<T> {
/** Subscribes a consumer to events. If a consumer isn't specified
* this method activates the producer to achieve side affects if any.
*/
subscribe(consumer?: Observer<T>): Unsubscribable;
}
export type AccumulatorFn<T, A> = (acc: A, value: T) => A;
export type OperatorFn<T, U> = (source: Observable<T>) => Observable<U>;
/** The observable source of items. */
export interface Observable<T> extends Subscribable<T> {
/** Transforms elements of the sequence with the specified mapper
*
* @param mapper The mapper used to transform the values
*/
map<T2>(mapper: (value: T) => T2): Observable<T2>;
/** Injects the specified observer into the each producer to consumer chain.
* The method is used to add side effect to the events processing.
*
* @param observer The consumer for the events
*/
tap(observer: Observer<T>): Observable<T>;
/** Filters elements of the sequence. The resulting sequence will
* contain only elements which match the specified predicate.
*
* @param predicate The filter predicate.
*/
filter(predicate: (value: T) => boolean): Observable<T>;
/** Completes the sequence once the condition is met.
* @param predicate The condition which should be met to complete the sequence
*/
until(predicate: (value: T) => boolean): Observable<T>;
/** Keeps the sequence running while elements satisfy the condition.
*
* @param predicate The condition which should be met to continue.
*/
while(predicate: (value: T) => boolean): Observable<T>;
/** Applies accumulator to each value in the sequence and
* emits the accumulated value for each source element
*
* @param accumulator
* @param initial
*/
scan<A>(accumulator: AccumulatorFn<T, A>, initial: A): Observable<A>;
scan(accumulator: AccumulatorFn<T, T>): Observable<T>;
/** Applies accumulator to each value in the sequence and
* emits the accumulated value at the end of the sequence
*
* @param accumulator
* @param initial
*/
reduce<A>(accumulator: AccumulatorFn<T, A>, initial: A): Observable<A>;
reduce(accumulator: AccumulatorFn<T, T>): Observable<T>;
/** Concatenates the specified sequences with this observable
*
* @param seq sequences to concatenate with the current observable
*
* The concatenation doesn't accumulate values from the specified sequences,
* The result of the concatenation is the new observable which will switch
* to the next observable after the previous one completes. Values emitted
* before the next observable being active are lost.
*/
cat(...seq: Subscribable<T>[]): Observable<T>;
/** Pipes the specified operator to produce the new observable
* @param op The operator consumes this observable and produces a new one
*
* The operator is a higher order function which takes a source observable
* and returns a producer for the new observable.
*
* This function can be used to create a complex mapping between source and
* resulting observables. The operator may have a state (or a side effect)
* and can be connected to multiple observables.
*/
pipe<U>(op: OperatorFn<T, U>): Observable<U>;
/** Waits for the next event to occur and returns a promise for the next value
* @param ct Cancellation token
*/
next(ct?: ICancellation): Promise<T>;
/** Collects items of the sequence to the array. */
collect(ct?: ICancellation): Promise<T[]>;
}
const noop = () => { };
const errorFallback = (e: unknown) => trace.error("Unhandled observable error: {0}", e);
const sink = <T>(consumer: Observer<T>) => {
// eslint-disable-next-line @typescript-eslint/unbound-method
const { next, error, complete } = consumer;
return {
next: next ? next.bind(consumer) : noop,
error: error ? error.bind(consumer) : errorFallback, // report unhandled errors
complete: complete ? complete.bind(consumer) : noop
};
};
/** Wraps the producer to handle tear down logic and subscription management
*
* The resulting producer will invoke cleanup logic on error or complete events
* and will prevent calling of any method from the sink.
*
* @param producer The producer to wrap
* @returns The wrapper producer
*/
const fuse = <T>(producer: Producer<T>) => ({ next, error, complete }: FusedSink<T>) => {
let done = false;
let cleanup = noop;
const _fin = <A extends unknown[]>(fn: (...args: A) => void) =>
(...args: A) => done ?
void (0) :
(done = true, cleanup(), fn(...args));
const _fin0 = () => done ? void (0) : (done = true, cleanup());
const safeSink = {
next: (value: T) => { !done && next(value); },
error: _fin(error),
complete: _fin(complete),
isClosed: () => done
};
// call the producer
cleanup = producer(safeSink) ?? noop;
// if the producer throws exception bypass it to the caller rather then to
// the sink. This is a feature.
// if the producer completed the sequence immediately call the cleanup in place
return done ? cleanup() : _fin0;
};
const _observe = <T>(producer: FusedProducer<T>): Observable<T> => ({
subscribe: (consumer: Observer<T> = {}) => ({
unsubscribe: producer(sink(consumer)) ?? noop
}),
map: (mapper) => _observe(({ next, ...rest }) =>
producer({
next: next !== noop ? (v: T) => next(mapper(v)) : noop,
...rest
})
),
tap: ({next: tapNext, complete: tapComplete, error: tapError}) => _observe(({next,complete, error}) =>
producer({
next: tapNext ? (v => (tapNext(v), next(v))) : next,
complete: tapComplete ? (() => (tapComplete(), complete())): complete,
error: tapError ? (e => (tapError(e), error(e))) : error
})
),
filter: (predicate) => _observe(({ next, ...rest }) =>
producer({
next: next !== noop ? (v: T) => predicate(v) ? next(v) : void (0) : noop,
...rest
})
),
until: predicate => _observe(({ next, complete, ...rest }) =>
producer({
next: v => predicate(v) ? complete() : next(v),
complete,
...rest
})
),
while: predicate => _observe(({ next, complete, ...rest }) =>
producer({
next: v => predicate(v) ? next(v) : complete(),
complete,
...rest
})
),
scan: <A>(...args: [AccumulatorFn<T, A>, A] | [AccumulatorFn<T, T>]) => _observe<T | A>(({ next, ...rest }) => {
if (args.length === 1) {
const [accumulator] = args;
let _acc: T;
let index = 0;
return producer({
next: next !== noop ? (v: T) => next(index++ === 0 ? _acc = v : _acc = accumulator(_acc, v)) : noop,
...rest
});
} else {
const [accumulator, initial] = args;
let _acc = initial;
return producer({
next: next !== noop ? (v: T) => next(_acc = accumulator(_acc, v)) : noop,
...rest
});
}
}),
reduce: <A>(...args: [AccumulatorFn<T, A>, A] | [AccumulatorFn<T, T>]) => _observe<T | A>(({ next, complete, error }) => {
if (args.length === 1) {
const [accumulator] = args;
let _acc: T;
let index = 0;
return producer({
next: next !== noop ? (v: T) => {
_acc = index++ === 0 ? v : accumulator(_acc, v);
} : noop,
complete: () => {
if (index === 0) {
error(new Error("The sequence can't be empty"));
} else {
next(_acc);
complete();
}
},
error
});
} else {
const [accumulator, initial] = args;
let _acc = initial;
return producer({
next: next !== noop ? (v: T) => {
_acc = accumulator(_acc, v);
} : noop,
complete: () => {
next(_acc);
complete();
},
error
});
}
}),
cat: (...seq) => _observe(({ next, complete: final, ...rest }) => {
let cleanup: () => void;
const len = seq.length;
const complete = (i: number) => i < len ?
() => {
const subscription = seq[i].subscribe({ next, complete: complete(i + 1), ...rest });
cleanup = subscription.unsubscribe.bind(subscription);
} : final;
cleanup = producer({ next, complete: complete(0), ...rest }) ?? noop;
return () => cleanup();
}),
pipe: <U>(op: OperatorFn<T, U>) => op(_observe(producer)),
next: collect(
producer,
({ next, complete, error }) => ({
next: v => (next(v), complete()),
complete: () => error(new Error("The sequence is empty")),
error
})
),
collect: collect(
producer,
({ next, complete, error}) => {
const data: T[] = [];
return {
next: v => data.push(v),
complete: () => (next(data), complete()),
error
};
}
)
});
const collect = <T, U>(
producer: FusedProducer<T>,
collector: (result: FusedSink<U>) => FusedSink<T>
) => (ct = Cancellation.none) => new Promise<U>((resolve, reject) => {
const fused = fuse<U>(({ next, complete, error, isClosed }) => {
const h = ct.register(error);
const cleanup = !isClosed() ?
producer(collector({ next, complete, error })) ?? noop :
noop;
return () => {
h.destroy();
cleanup();
};
});
fused({
next: resolve,
error: reject,
complete: noop
});
});
export const observe = <T>(producer: Producer<T>) => _observe(fuse(producer));
/** Converts an array to the observable sequence of its elements. */
export const ofArray = <T>(items: T[]) => _observe<T>(
({ next, complete }) => (
items.forEach(next),
complete()
)
);
/** Converts a subscribable to the observable */
export const ofSubscribable = <T>(subscribable: Subscribable<T>) =>
observe<T>(sink => {
const subscription = subscribable.subscribe(sink);
return () => subscription.unsubscribe();
});
const of1 = <T>(item: T | PromiseLike<T>) => observe<T>(
({ next, error, complete }) =>
isPromise(item) ?
void item.then(
v => (next(v), complete()),
error
) :
(next(item), complete())
);
/** Converts a list of parameter values to the observable sequence. The
* order of elements in the list will be preserved in the resulting sequence.
*/
export const of = <T>(...items: (T | PromiseLike<T>)[]) => items.length === 1 ?
of1(items[0]) :
observe<T>(
({ next, error, complete, isClosed }) => {
const n = items.length;
const _next = (start: number) => {
if (start > 0 && isClosed()) // when resumed
return;
for (let i = start; i < n; i++) {
const r = items[i];
if (isPromise(r)) {
r.then(v => (next(v), _next(i + 1)), error);
return; // suspend
} else {
next(r);
}
}
complete();
};
_next(0);
}
);
export const empty = _observe<never>(({ complete }) => complete());