implab/implabjs-djx Commit - r153:8ae7abbb3114

Movin the observable implementation to the class

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djx/src/main/ts/observable/ObservableImpl.ts created 644 +169 0

@@ -0,0 +1,169
	1	import { id as mid } from "module";
	2	import { AccumulatorFn, FusedProducer, Observable, Observer, OperatorFn } from "./interfaces";
	3	import { TraceSource } from "@implab/core-amd/log/TraceSource";
	4	import { scan } from "dojo/parser";
	5	import { filter } from "dojo/query";
	6
	7	const trace = TraceSource.get(mid);
	8
	9	const noop = () => { };
	10
	11	const errorFallback = (e: unknown) => trace.error("Unhandled observable error: {0}", e);
	12
	13	const sink = <T>(consumer: Observer<T>) => {
	14	// eslint-disable-next-line @typescript-eslint/unbound-method
	15	const { next, error, complete } = consumer;
	16	return {
	17	next: next ? next.bind(consumer) : noop,
	18	error: error ? error.bind(consumer) : errorFallback, // report unhandled errors
	19	complete: complete ? complete.bind(consumer) : noop
	20	};
	21	};
	22
	23	const
	24
	25	export class ObservableImpl<T> implements Observable<T> {
	26
	27	private readonly _producer: FusedProducer<T>;
	28
	29	constructor(producer: FusedProducer<T>) {
	30	this._producer = producer;
	31	}
	32
	33	subscribe(consumer: Observer<T> = {}) {
	34	return {
	35	unsubscribe: this._producer(sink(consumer)) ?? noop
	36	}
	37	}
	38
	39	map<T2>(mapper: (value: T) => T2) {
	40	return new ObservableImpl<T2>(({ next, ...rest }) =>
	41	this._producer({
	42	next: next !== noop ? (v: T) => next(mapper(v)) : noop,
	43	...rest
	44	}));
	45	}
	46
	47	tap({ next: tapNext, complete: tapComplete, error: tapError }: Observer<T>) {
	48	return new ObservableImpl<T>(({ next, complete, error }) =>
	49	this._producer({
	50	next: tapNext ? (v => (tapNext(v), next(v))) : next,
	51	complete: tapComplete ? (() => (tapComplete(), complete())) : complete,
	52	error: tapError ? (e => (tapError(e), error(e))) : error
	53	}));
	54	}
	55
	56	filter: (predicate) => _observe(({ next, ...rest }) =>
	57	producer({
	58	next: next !== noop ? (v: T) => predicate(v) ? next(v) : void (0) : noop,
	59	...rest
	60	})
	61	),
	62
	63	until: predicate => _observe(({ next, complete, ...rest }) =>
	64	producer({
	65	next: v => predicate(v) ? complete() : next(v),
	66	complete,
	67	...rest
	68	})
	69	),
	70
	71	while: predicate => _observe(({ next, complete, ...rest }) =>
	72	producer({
	73	next: v => predicate(v) ? next(v) : complete(),
	74	complete,
	75	...rest
	76	})
	77	),
	78
	79	scan: <A>(...args: [AccumulatorFn<T, A>, A] \| [AccumulatorFn<T, T>]) => _observe<T \| A>(({ next, ...rest }) => {
	80	if (args.length === 1) {
	81	const [accumulator] = args;
	82	let _acc: T;
	83	let index = 0;
	84	return producer({
	85	next: next !== noop ? (v: T) => next(index++ === 0 ? _acc = v : _acc = accumulator(_acc, v)) : noop,
	86	...rest
	87	});
	88	} else {
	89	const [accumulator, initial] = args;
	90	let _acc = initial;
	91	return producer({
	92	next: next !== noop ? (v: T) => next(_acc = accumulator(_acc, v)) : noop,
	93	...rest
	94	});
	95	}
	96	}),
	97
	98	reduce: <A>(...args: [AccumulatorFn<T, A>, A] \| [AccumulatorFn<T, T>]) => _observe<T \| A>(({ next, complete, error }) => {
	99	if (args.length === 1) {
	100	const [accumulator] = args;
	101	let _acc: T;
	102	let index = 0;
	103	return producer({
	104	next: next !== noop ? (v: T) => {
	105	_acc = index++ === 0 ? v : accumulator(_acc, v);
	106	} : noop,
	107	complete: () => {
	108	if (index === 0) {
	109	error(new Error("The sequence can't be empty"));
	110	} else {
	111	next(_acc);
	112	complete();
	113	}
	114	},
	115	error
	116	});
	117	} else {
	118	const [accumulator, initial] = args;
	119	let _acc = initial;
	120	return producer({
	121	next: next !== noop ? (v: T) => {
	122	_acc = accumulator(_acc, v);
	123	} : noop,
	124	complete: () => {
	125	next(_acc);
	126	complete();
	127	},
	128	error
	129	});
	130	}
	131	}),
	132
	133	cat: (...seq) => _observe(({ next, complete: final, ...rest }) => {
	134	let cleanup: () => void;
	135	const len = seq.length;
	136	const complete = (i: number) => i < len ?
	137	() => {
	138	const subscription = seq[i].subscribe({ next, complete: complete(i + 1), ...rest });
	139	cleanup = subscription.unsubscribe.bind(subscription);
	140	} : final;
	141
	142	cleanup = producer({ next, complete: complete(0), ...rest }) ?? noop;
	143
	144	return () => cleanup();
	145	}),
	146
	147	pipe: <U>(op: OperatorFn<T, U>) => op(_observe(producer)),
	148
	149	next: collect(
	150	producer,
	151	({ next, complete, error }) => ({
	152	next: v => (next(v), complete()),
	153	complete: () => error(new Error("The sequence is empty")),
	154	error
	155	})
	156	),
	157
	158	collect: collect(
	159	producer,
	160	({ next, complete, error }) => {
	161	const data: T[] = [];
	162	return {
	163	next: v => data.push(v),
	164	complete: () => (next(data), complete()),
	165	error
	166	};
	167	}
	168	)
	169	} No newline at end of file

djx/src/main/ts/observable/interfaces.d.ts created 644 +153 0

@@ -0,0 +1,153
	1	import { ICancellation } from "@implab/core-amd/interfaces";
	2
	3	/**
	4	* The interface for the consumer of an observable sequence
	5	*/
	6	export interface Observer<T> {
	7	/**
	8	* Called for the next element in the sequence
	9	*/
	10	next?(value: T): void;
	11
	12	/**
	13	* Called once when the error occurs in the sequence.
	14	*/
	15	error?(e: unknown): void;
	16
	17	/**
	18	* Called once at the end of the sequence.
	19	*/
	20	complete?(): void;
	21	}
	22
	23	/**
	24	* The group of functions to feed an observable. These methods are provided to
	25	* the producer to generate a stream of events.
	26	*/
	27	export type Sink<T> = {
	28	/**
	29	* Call to send the next element in the sequence
	30	*/
	31	next: (value: T) => void;
	32
	33	/**
	34	* Call to notify about the error occurred in the sequence.
	35	*/
	36	error: (e: unknown) => void;
	37
	38	/**
	39	* Call to signal the end of the sequence.
	40	*/
	41	complete: () => void;
	42
	43	/**
	44	* Checks whether the sink is accepting new elements. It's safe to
	45	* send elements to the closed sink.
	46	*/
	47	isClosed: () => boolean;
	48	};
	49
	50	export type Producer<T> = (sink: Sink<T>) => (void \| (() => void));
	51
	52	export type FusedSink<T> = Omit<Sink<T>, "isClosed">;
	53
	54	export type FusedProducer<T> = (sink: FusedSink<T>) => (void \| (() => void));
	55
	56	export interface Unsubscribable {
	57	unsubscribe(): void;
	58	}
	59
	60	export interface Subscribable<T> {
	61	/** Subscribes a consumer to events. If a consumer isn't specified
	62	* this method activates the producer to achieve side affects if any.
	63	*/
	64	subscribe(consumer?: Observer<T>): Unsubscribable;
	65	}
	66
	67	export type AccumulatorFn<T, A> = (acc: A, value: T) => A;
	68
	69	export type OperatorFn<T, U> = (source: Observable<T>) => Observable<U>;
	70
	71	/** The observable source of items. */
	72	export interface Observable<T> extends Subscribable<T> {
	73	/** Transforms elements of the sequence with the specified mapper
	74	*
	75	* @param mapper The mapper used to transform the values
	76	*/
	77	map<T2>(mapper: (value: T) => T2): Observable<T2>;
	78
	79	/** Injects the specified observer into the each producer to consumer chain.
	80	* The method is used to add side effect to the events processing.
	81	*
	82	* @param observer The consumer for the events
	83	*/
	84	tap(observer: Observer<T>): Observable<T>;
	85
	86	/** Filters elements of the sequence. The resulting sequence will
	87	* contain only elements which match the specified predicate.
	88	*
	89	* @param predicate The filter predicate.
	90	*/
	91	filter(predicate: (value: T) => boolean): Observable<T>;
	92
	93	/** Completes the sequence once the condition is met.
	94	* @param predicate The condition which should be met to complete the sequence
	95	*/
	96	until(predicate: (value: T) => boolean): Observable<T>;
	97
	98	/** Keeps the sequence running while elements satisfy the condition.
	99	*
	100	* @param predicate The condition which should be met to continue.
	101	*/
	102	while(predicate: (value: T) => boolean): Observable<T>;
	103
	104	/** Applies accumulator to each value in the sequence and
	105	* emits the accumulated value for each source element
	106	*
	107	* @param accumulator
	108	* @param initial
	109	*/
	110	scan<A>(accumulator: AccumulatorFn<T, A>, initial: A): Observable<A>;
	111	scan(accumulator: AccumulatorFn<T, T>): Observable<T>;
	112
	113	/** Applies accumulator to each value in the sequence and
	114	* emits the accumulated value at the end of the sequence
	115	*
	116	* @param accumulator
	117	* @param initial
	118	*/
	119	reduce<A>(accumulator: AccumulatorFn<T, A>, initial: A): Observable<A>;
	120	reduce(accumulator: AccumulatorFn<T, T>): Observable<T>;
	121
	122	/** Concatenates the specified sequences with this observable
	123	*
	124	* @param seq sequences to concatenate with the current observable
	125	*
	126	* The concatenation doesn't accumulate values from the specified sequences,
	127	* The result of the concatenation is the new observable which will switch
	128	* to the next observable after the previous one completes. Values emitted
	129	* before the next observable being active are lost.
	130	*/
	131	cat(...seq: Subscribable<T>[]): Observable<T>;
	132
	133
	134	/** Pipes the specified operator to produce the new observable
	135	* @param op The operator consumes this observable and produces a new one
	136	*
	137	* The operator is a higher order function which takes a source observable
	138	* and returns a producer for the new observable.
	139	*
	140	* This function can be used to create a complex mapping between source and
	141	* resulting observables. The operator may have a state (or a side effect)
	142	* and can be connected to multiple observables.
	143	*/
	144	pipe<U>(op: OperatorFn<T, U>): Observable<U>;
	145
	146	/** Waits for the next event to occur and returns a promise for the next value
	147	* @param ct Cancellation token
	148	*/
	149	next(ct?: ICancellation): Promise<T>;
	150
	151	/** Collects items of the sequence to the array. */
	152	collect(ct?: ICancellation): Promise<T[]>;
	153	} No newline at end of file

djx/src/main/ts/observable.ts +2 -152

@@ -1,67 +1,10
1	import { id as mid} from "module";	1	import { id as mid} from "module";
2	import { Cancellation } from "@implab/core-amd/Cancellation";	2	import { Cancellation } from "@implab/core-amd/Cancellation";
3	import { ICancellation } from "@implab/core-amd/interfaces";
4	import { TraceSource } from "@implab/core-amd/log/TraceSource";	3	import { TraceSource } from "@implab/core-amd/log/TraceSource";
5	import { isPromise } from "@implab/core-amd/safe";	4	import { isPromise } from "@implab/core-amd/safe";
6		5	import { Unsubscribable, Observer, Producer, FusedSink, FusedProducer, AccumulatorFn, Observable, OperatorFn, Subscribable } from "./observable/interfaces";
7	const trace = TraceSource.get(mid);
8
9	/**
10	* The interface for the consumer of an observable sequence
11	*/
12	export interface Observer<T> {
13	/**
14	* Called for the next element in the sequence
15	*/
16	next?(value: T): void;
17
18	/**
19	* Called once when the error occurs in the sequence.
20	*/
21	error?(e: unknown): void;
22
23	/**
24	* Called once at the end of the sequence.
25	*/
26	complete?(): void;
27	}
28		6
29	/**
30	* The group of functions to feed an observable. These methods are provided to
31	* the producer to generate a stream of events.
32	*/
33	export type Sink<T> = {
34	/**
35	* Call to send the next element in the sequence
36	*/
37	next: (value: T) => void;
38		7
39	/**
40	* Call to notify about the error occurred in the sequence.
41	*/
42	error: (e: unknown) => void;
43
44	/**
45	* Call to signal the end of the sequence.
46	*/
47	complete: () => void;
48
49	/**
50	* Checks whether the sink is accepting new elements. It's safe to
51	* send elements to the closed sink.
52	*/
53	isClosed: () => boolean;
54	};
55
56	export type Producer<T> = (sink: Sink<T>) => (void \| (() => void));
57
58	type FusedSink<T> = Omit<Sink<T>, "isClosed">;
59
60	type FusedProducer<T> = (sink: FusedSink<T>) => (void \| (() => void));
61
62	export interface Unsubscribable {
63	unsubscribe(): void;
64	}
65		8
66	export const isUnsubscribable = (v: unknown): v is Unsubscribable =>	9	export const isUnsubscribable = (v: unknown): v is Unsubscribable =>
67	v !== null && v !== undefined && typeof (v as Unsubscribable).unsubscribe === "function";	10	v !== null && v !== undefined && typeof (v as Unsubscribable).unsubscribe === "function";
@@ -69,104 +12,11 export const isUnsubscribable = (v: unkn
69	export const isSubscribable = <T = unknown>(v: unknown): v is Subscribable<T> =>	12	export const isSubscribable = <T = unknown>(v: unknown): v is Subscribable<T> =>
70	v !== null && v !== undefined && typeof (v as Subscribable<unknown>).subscribe === "function";	13	v !== null && v !== undefined && typeof (v as Subscribable<unknown>).subscribe === "function";
71		14
72	export interface Subscribable<T> {
73	/** Subscribes a consumer to events. If a consumer isn't specified
74	* this method activates the producer to achieve side affects if any.
75	*/
76	subscribe(consumer?: Observer<T>): Unsubscribable;
77	}
78		15
79	export type AccumulatorFn<T, A> = (acc: A, value: T) => A;
80
81	export type OperatorFn<T, U> = (source: Observable<T>) => Observable<U>;
82
83	/** The observable source of items. */
84	export interface Observable<T> extends Subscribable<T> {
85	/** Transforms elements of the sequence with the specified mapper
86	*
87	* @param mapper The mapper used to transform the values
88	*/
89	map<T2>(mapper: (value: T) => T2): Observable<T2>;
90
91	/** Injects the specified observer into the each producer to consumer chain.
92	* The method is used to add side effect to the events processing.
93	*
94	* @param observer The consumer for the events
95	*/
96	tap(observer: Observer<T>): Observable<T>;
97
98	/** Filters elements of the sequence. The resulting sequence will
99	* contain only elements which match the specified predicate.
100	*
101	* @param predicate The filter predicate.
102	*/
103	filter(predicate: (value: T) => boolean): Observable<T>;
104
105	/** Completes the sequence once the condition is met.
106	* @param predicate The condition which should be met to complete the sequence
107	*/
108	until(predicate: (value: T) => boolean): Observable<T>;
109
110	/** Keeps the sequence running while elements satisfy the condition.
111	*
112	* @param predicate The condition which should be met to continue.
113	*/
114	while(predicate: (value: T) => boolean): Observable<T>;
115
116	/** Applies accumulator to each value in the sequence and
117	* emits the accumulated value for each source element
118	*
119	* @param accumulator
120	* @param initial
121	*/
122	scan<A>(accumulator: AccumulatorFn<T, A>, initial: A): Observable<A>;
123	scan(accumulator: AccumulatorFn<T, T>): Observable<T>;
124
125	/** Applies accumulator to each value in the sequence and
126	* emits the accumulated value at the end of the sequence
127	*
128	* @param accumulator
129	* @param initial
130	*/
131	reduce<A>(accumulator: AccumulatorFn<T, A>, initial: A): Observable<A>;
132	reduce(accumulator: AccumulatorFn<T, T>): Observable<T>;
133
134	/** Concatenates the specified sequences with this observable
135	*
136	* @param seq sequences to concatenate with the current observable
137	*
138	* The concatenation doesn't accumulate values from the specified sequences,
139	* The result of the concatenation is the new observable which will switch
140	* to the next observable after the previous one completes. Values emitted
141	* before the next observable being active are lost.
142	*/
143	cat(...seq: Subscribable<T>[]): Observable<T>;
144
145
146	/** Pipes the specified operator to produce the new observable
147	* @param op The operator consumes this observable and produces a new one
148	*
149	* The operator is a higher order function which takes a source observable
150	* and returns a producer for the new observable.
151	*
152	* This function can be used to create a complex mapping between source and
153	* resulting observables. The operator may have a state (or a side effect)
154	* and can be connected to multiple observables.
155	*/
156	pipe<U>(op: OperatorFn<T, U>): Observable<U>;
157
158	/** Waits for the next event to occur and returns a promise for the next value
159	* @param ct Cancellation token
160	*/
161	next(ct?: ICancellation): Promise<T>;
162
163	/** Collects items of the sequence to the array. */
164	collect(ct?: ICancellation): Promise<T[]>;
165	}
166		16
167	const noop = () => { };	17	const noop = () => { };
168		18
169	const errorFallback = (e: unknown) => trace.error("Unhandled observable error: {0}", e);	19
170		20
171	const sink = <T>(consumer: Observer<T>) => {	21	const sink = <T>(consumer: Observer<T>) => {
172	// eslint-disable-next-line @typescript-eslint/unbound-method	22	// eslint-disable-next-line @typescript-eslint/unbound-method

playground/package-lock.json +1 0

                     },
                     "../djx/build/npm/package": {
                         "name": "@implab/djx",
+                        "version": "1.10.0",
                         "dev": true,
                         "license": "BSD-2-Clause",
                         "peerDependencies": {

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