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  • License BSD-3-Clause

Lumino Polling

Package Exports

  • @lumino/polling
  • @lumino/polling/dist/index.es6.js
  • @lumino/polling/dist/index.js

This package does not declare an exports field, so the exports above have been automatically detected and optimized by JSPM instead. If any package subpath is missing, it is recommended to post an issue to the original package (@lumino/polling) to support the "exports" field. If that is not possible, create a JSPM override to customize the exports field for this package.

Readme

@lumino/polling

This package provides a class for generic polling functionality (Poll). It also provides rate limiters (Debouncer and Throttler).

The Poll class provides three different ways to "subscribe" to poll ticks:

  • @lumino/signaling: Poll#ticked is a Lumino signal that emits each time there is a poll tick.
  • Promise-based: Poll#tick is a promise that resolves after every tick and only rejects when the poll is disposed.
  • AsyncIterable: Poll#[Symbol.asyncIterator] implements the async iterable protocol that allows iteration using for-await...of loops.

Example usage

These are examples from the unit tests for this package. They demonstrate the three different ways polling is supported.

Using Poll#tick promise

Here, we set up the testing state variables and create a new Poll instance.

const expected = 'started resolved resolved';
const ticker: IPoll.Phase<any>[] = [];
const tock = (poll: Poll) => {
  ticker.push(poll.state.phase);
  poll.tick.then(tock).catch(() => undefined);
};
const poll = new Poll({
  auto: false,
  factory: () => Promise.resolve(),
  frequency: { interval: 100, backoff: false }
});

Next we assign the tock function to run after the poll ticks and we start the poll.

void poll.tick.then(tock);
void poll.start();

And we verify that the ticker did indeed get populated when tock was called and the next promise was captured as well.

await sleep(1000); // Sleep for longer than the interval.
expect(ticker.join(' ').startsWith(expected)).to.equal(true);
poll.dispose();

Using Poll#ticked signal

Here, we set up the testing state variables and create a new Poll instance.

const poll = new Poll<void, void>({
  factory: () => Promise.resolve(),
  frequency: { interval: 100, backoff: false }
});

Here we connect to the ticked signal and simply check that each tick matches the poll state accessor's contents.

poll.ticked.connect((_, tick) => {
  expect(tick).to.equal(poll.state);
});
await sleep(1000); // Sleep for longer than the interval.
poll.dispose();

Using Poll as an AsyncIterable

Here, we set up the testing state variables and create a new Poll instance.

let poll: Poll;
let total = 2;
let i = 0;

poll = new Poll({
  auto: false,
  factory: () => Promise.resolve(++i > total ? poll.dispose() : void 0),
  frequency: { interval: Poll.IMMEDIATE }
});

const expected = `started${' resolved'.repeat(total)}`;
const ticker: IPoll.Phase<any>[] = [];

Then the poll is started:

void poll.start();

Instead of connecting to the ticked signal or awaiting the tick promise, we can now use a for-await...of loop:

for await (const state of poll) {
  ticker.push(state.phase);
  if (poll.isDisposed) {
    break;
  }
}

And we check to make sure the results are as expected:

// ticker and expected both equal:
// 'started resolved resolved disposed'
expect(ticker.join(' ')).to.equal(expected);

Note for consumers of async iterators

In order to use for-await...of loops in TypeScript, you will need to use ES2018 or above in your lib array in tsconfig.json.