std/async
2022-03-17 14:09:32 +09:00
..
abortable_test.ts feat(async): add abortable to async module. (#1939) 2022-02-21 13:51:39 +09:00
abortable.ts feat(async): expose asyncPromise and asyncAsyncIterable (#2034) 2022-03-17 14:09:32 +09:00
deadline_test.ts chore: update copyright header (#1871) 2022-02-02 23:21:39 +09:00
deadline.ts refactor: mark modules as browser compatible (#1972) 2022-03-01 13:25:50 +09:00
debounce_test.ts feat(testing/asserts): use assertion signature for "assertStrictEquals" (#1984) 2022-03-04 14:31:19 +09:00
debounce.ts refactor: mark modules as browser compatible (#1972) 2022-03-01 13:25:50 +09:00
deferred_test.ts chore: update copyright header (#1871) 2022-02-02 23:21:39 +09:00
deferred.ts refactor: mark modules as browser compatible (#1972) 2022-03-01 13:25:50 +09:00
delay_test.ts chore: update copyright header (#1871) 2022-02-02 23:21:39 +09:00
delay.ts refactor: mark modules as browser compatible (#1972) 2022-03-01 13:25:50 +09:00
mod.ts fix(async): re-export abortable in mod.ts (#1959) 2022-03-08 14:46:45 +09:00
mux_async_iterator_test.ts chore: update copyright header (#1871) 2022-02-02 23:21:39 +09:00
mux_async_iterator.ts refactor: mark modules as browser compatible (#1972) 2022-03-01 13:25:50 +09:00
pool_test.ts chore: update copyright header (#1871) 2022-02-02 23:21:39 +09:00
pool.ts chore: update copyright header (#1871) 2022-02-02 23:21:39 +09:00
README.md feat(async): expose asyncPromise and asyncAsyncIterable (#2034) 2022-03-17 14:09:32 +09:00
tee_test.ts chore: update copyright header (#1871) 2022-02-02 23:21:39 +09:00
tee.ts refactor: mark modules as browser compatible (#1972) 2022-03-01 13:25:50 +09:00
test.ts chore: update copyright header (#1871) 2022-02-02 23:21:39 +09:00

async

async is a module to provide help with asynchronous tasks.

Usage

The following functions and class are exposed in mod.ts:

abortable

The abortable is a wrapper function that makes Promise and AsyncIterable cancelable.

For example, in the case of Promise, it looks like this

import { abortable } from "https://deno.land/std@$STD_VERSION/async/mod.ts";
import { delay } from "https://deno.land/std@$STD_VERSION/async/mod.ts";

const p = delay(1000);
const c = new AbortController();
setTimeout(() => c.abort(), 100);

// Below throws `DOMException` after 100 ms
await abortable(p, c.signal);

and for AsyncIterable as follows

import { abortable } from "https://deno.land/std@$STD_VERSION/async/mod.ts";
import { delay } from "https://deno.land/std@$STD_VERSION/async/mod.ts";

const p = async function* () {
  yield "Hello";
  await delay(1000);
  yield "World";
};
const c = new AbortController();
setTimeout(() => c.abort(), 100);

// Below throws `DOMException` after 100 ms
// and items become `["Hello"]`
const items: string[] = [];
for await (const item of abortable(p(), c.signal)) {
  items.push(item);
}

abortablePromise

abortablePromise takes the promise and AbortSignal and returns the cancelable version of the promise.

import { abortablePromise } from "https://deno.land/std@$STD_VERSION/async/mod.ts";

const request = fetch("https://example.com");

const c = new AbortController();
setTimeout(() => c.abort(), 100);

const p = abortablePromise(request, c.signal);

// The below throws if the request didn't resolve in 100ms
await p;

abortableAsyncIterable

abortableAsyncIterable takes the async iterable and AbortSignal and returns the cancelable version of the async iterable.

import { abortableAsyncIterable } from "https://deno.land/std@$STD_VERSION/async/mod.ts";
import { delay } from "https://deno.land/std@$STD_VERSION/async/mod.ts";

const p = async function* () {
  yield "Hello";
  await delay(1000);
  yield "World";
};
const c = new AbortController();
setTimeout(() => c.abort(), 100);

// Below throws `DOMException` after 100 ms
// and items become `["Hello"]`
const items: string[] = [];
for await (const item of abortableAsyncIterable(p(), c.signal)) {
  items.push(item);
}

debounce

Debounces a given function by a given time.

import { debounce } from "https://deno.land/std@$STD_VERSION/async/mod.ts";

const p = debounce(
  (value: string) =>
    console.log("Function debounced after 200ms with %s", value),
  200,
);
p("foo");
p("bar");
p("baz");
// wait 200ms ...
// output: Function debounced after 200ms with baz

deferred

Create a Promise with the reject and resolve functions.

import { deferred } from "https://deno.land/std@$STD_VERSION/async/mod.ts";

const p = deferred<number>();
// ...
p.resolve(42);

delay

Resolve a Promise after a given amount of milliseconds.

import { delay } from "https://deno.land/std@$STD_VERSION/async/mod.ts";

// ...
const delayedPromise = delay(100);
const result = await delayedPromise;
// ...

MuxAsyncIterator

The MuxAsyncIterator class multiplexes multiple async iterators into a single stream.

The class makes an assumption that the final result (the value returned and not yielded from the iterator) does not matter. If there is any result, it is discarded.

import { MuxAsyncIterator } from "https://deno.land/std@$STD_VERSION/async/mod.ts";

async function* gen123(): AsyncIterableIterator<number> {
  yield 1;
  yield 2;
  yield 3;
}

async function* gen456(): AsyncIterableIterator<number> {
  yield 4;
  yield 5;
  yield 6;
}

const mux = new MuxAsyncIterator<number>();
mux.add(gen123());
mux.add(gen456());
for await (const value of mux) {
  // ...
}
// ..

pooledMap

Transform values from an (async) iterable into another async iterable. The transforms are done concurrently, with a max concurrency defined by the poolLimit.

import { pooledMap } from "https://deno.land/std@$STD_VERSION/async/mod.ts";

const results = pooledMap(
  2,
  [1, 2, 3],
  (i) => new Promise((r) => setTimeout(() => r(i), 1000)),
);

for await (const value of results) {
  // ...
}

tee

Branches the given async iterable into the n branches.

import { tee } from "https://deno.land/std@$STD_VERSION/async/tee.ts";

const gen = async function* gen() {
  yield 1;
  yield 2;
  yield 3;
};

const [branch1, branch2] = tee(gen());

(async () => {
  for await (const n of branch1) {
    console.log(n); // => 1, 2, 3
  }
})();

(async () => {
  for await (const n of branch2) {
    console.log(n); // => 1, 2, 3
  }
})();

deadline

Create a promise which will be rejected with DeadlineError when a given delay is exceeded.

import { deadline } from "https://deno.land/std@$STD_VERSION/async/mod.ts";
import { delay } from "https://deno.land/std@$STD_VERSION/async/mod.ts";

const delayedPromise = delay(1000);
// Below throws `DeadlineError` after 10 ms
const result = await deadline(delayedPromise, 10);