1 | import { AsyncIterableX } from './asynciterablex';
|
2 | export declare class ConcatAsyncIterable<TSource> extends AsyncIterableX<TSource> {
|
3 | private _source;
|
4 | constructor(source: Iterable<AsyncIterable<TSource>>);
|
5 | [Symbol.asyncIterator](signal?: AbortSignal): AsyncGenerator<TSource, void, unknown>;
|
6 | }
|
7 | export declare function _concatAll<TSource>(source: Iterable<AsyncIterable<TSource>>): AsyncIterableX<TSource>;
|
8 | /**
|
9 | * Concatenates the second async-iterable sequence to the first async-iterable sequence upon successful termination of the first.
|
10 | *
|
11 | * @export
|
12 | * @template T The type of the elements in the first source sequence.
|
13 | * @template T2 The type of the elements in the second source sequence.
|
14 | * @param {AsyncIterable<T>} v1 First async-iterable source.
|
15 | * async-iterable source.
{AsyncIterable<T2>} v2 Second |
16 | * async-iterable sequence that contains the elements of the first sequence,
{(AsyncIterableX<T | T2>)} An |
17 | * followed by those of the second the sequence.
|
18 | */
|
19 | export declare function concat<T, T2>(v1: AsyncIterable<T>, v2: AsyncIterable<T2>): AsyncIterableX<T | T2>;
|
20 | /**
|
21 | * Concatenates all async-iterable sequences in the given sequences, as long as the previous async-iterable
|
22 | * sequence terminated successfully.
|
23 | *
|
24 | * @export
|
25 | * @template T The type of the elements in the first source sequence.
|
26 | * @template T2 The type of the elements in the second source sequence.
|
27 | * @template T3 The type of the elements in the third source sequence.
|
28 | * @param {AsyncIterable<T>} v1 First async-iterable source.
|
29 | * @param {AsyncIterable<T2>} v2 Second async-iterable source.
|
30 | * @param {AsyncIterable<T3>} v3 Third async-iterable source.
|
31 | * @returns {(AsyncIterableX<T | T2 | T3>)} An async-iterable sequence that contains the elements of each given sequence, in sequential order.
|
32 | */
|
33 | export declare function concat<T, T2, T3>(v1: AsyncIterable<T>, v2: AsyncIterable<T2>, v3: AsyncIterable<T3>): AsyncIterableX<T | T2 | T3>;
|
34 | /**
|
35 | * Concatenates all async-iterable sequences in the given sequences, as long as the previous async-iterable
|
36 | * sequence terminated successfully.
|
37 | *
|
38 | * @export
|
39 | * @template T The type of the elements in the first source sequence.
|
40 | * @template T2 The type of the elements in the second source sequence.
|
41 | * @template T3 The type of the elements in the third source sequence.
|
42 | * @template T4 The type of the elements in the fourth source sequence.
|
43 | * @param {AsyncIterable<T>} v1 First async-iterable source.
|
44 | * @param {AsyncIterable<T2>} v2 Second async-iterable source.
|
45 | * @param {AsyncIterable<T3>} v3 Third async-iterable source.
|
46 | * @param {AsyncIterable<T4>} v4 Fourth async-iterable source.
|
47 | * @returns {(AsyncIterableX<T | T2 | T3 | T4>)} An async-iterable sequence that contains the elements of each given sequence, in sequential order.
|
48 | */
|
49 | export declare function concat<T, T2, T3, T4>(v1: AsyncIterable<T>, v2: AsyncIterable<T2>, v3: AsyncIterable<T3>, v4: AsyncIterable<T4>): AsyncIterableX<T | T2 | T3 | T4>;
|
50 | /**
|
51 | * Concatenates all async-iterable sequences in the given sequences, as long as the previous async-iterable
|
52 | * sequence terminated successfully.
|
53 | *
|
54 | * @export
|
55 | * @template T The type of the elements in the first source sequence.
|
56 | * @template T2 The type of the elements in the second source sequence.
|
57 | * @template T3 The type of the elements in the third source sequence.
|
58 | * @template T4 The type of the elements in the fourth source sequence.
|
59 | * @template T5 The type of the elements in the fifth source sequence.
|
60 | * @param {AsyncIterable<T>} v1 First async-iterable source.
|
61 | * @param {AsyncIterable<T2>} v2 Second async-iterable source.
|
62 | * @param {AsyncIterable<T3>} v3 Third async-iterable source.
|
63 | * @param {AsyncIterable<T4>} v4 Fourth async-iterable source.
|
64 | * @param {AsyncIterable<T5>} v5 Fifth async-iterable source.
|
65 | * @returns {(AsyncIterable<T | T2 | T3 | T4 | T5>)} An async-iterable sequence that contains the elements of each
|
66 | * given sequence, in sequential order.
|
67 | */
|
68 | export declare function concat<T, T2, T3, T4, T5>(v1: AsyncIterable<T>, v2: AsyncIterable<T2>, v3: AsyncIterable<T3>, v4: AsyncIterable<T4>, v5: AsyncIterable<T5>): AsyncIterable<T | T2 | T3 | T4 | T5>;
|
69 | /**
|
70 | * Concatenates all async-iterable sequences in the given sequences, as long as the previous async-iterable
|
71 | * sequence terminated successfully.
|
72 | *
|
73 | * @export
|
74 | * @template T The type of the elements in the first source sequence.
|
75 | * @template T2 The type of the elements in the second source sequence.
|
76 | * @template T3 The type of the elements in the third source sequence.
|
77 | * @template T4 The type of the elements in the fourth source sequence.
|
78 | * @template T5 The type of the elements in the fifth source sequence.
|
79 | * @template T6 The type of the elements in the sixth source sequence.
|
80 | * @param {AsyncIterable<T>} v1 First async-iterable source.
|
81 | * @param {AsyncIterable<T2>} v2 Second async-iterable source.
|
82 | * @param {AsyncIterable<T3>} v3 Third async-iterable source.
|
83 | * @param {AsyncIterable<T4>} v4 Fourth async-iterable source.
|
84 | * @param {AsyncIterable<T5>} v5 Fifth async-iterable source.
|
85 | * @param {AsyncIterable<T6>} v6 Sixth async-iterable source.
|
86 | * @returns {(AsyncIterable<T | T2 | T3 | T4 | T5 | T6>)} An async-iterable sequence that contains the elements of each
|
87 | * given sequence, in sequential order.
|
88 | */
|
89 | export declare function concat<T, T2, T3, T4, T5, T6>(v1: AsyncIterable<T>, v2: AsyncIterable<T2>, v3: AsyncIterable<T3>, v4: AsyncIterable<T4>, v5: AsyncIterable<T5>, v6: AsyncIterable<T6>): AsyncIterable<T | T2 | T3 | T4 | T5 | T6>;
|