105 lines
3.5 KiB
JavaScript
105 lines
3.5 KiB
JavaScript
Object.defineProperty(exports, '__esModule', { value: true });
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const error = require('./error.js');
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const syncpromise = require('./syncpromise.js');
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/**
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* Creates an new PromiseBuffer object with the specified limit
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* @param limit max number of promises that can be stored in the buffer
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*/
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function makePromiseBuffer(limit) {
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const buffer = [];
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function isReady() {
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return limit === undefined || buffer.length < limit;
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}
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/**
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* Remove a promise from the queue.
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*
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* @param task Can be any PromiseLike<T>
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* @returns Removed promise.
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*/
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function remove(task) {
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return buffer.splice(buffer.indexOf(task), 1)[0];
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}
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/**
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* Add a promise (representing an in-flight action) to the queue, and set it to remove itself on fulfillment.
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*
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* @param taskProducer A function producing any PromiseLike<T>; In previous versions this used to be `task:
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* PromiseLike<T>`, but under that model, Promises were instantly created on the call-site and their executor
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* functions therefore ran immediately. Thus, even if the buffer was full, the action still happened. By
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* requiring the promise to be wrapped in a function, we can defer promise creation until after the buffer
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* limit check.
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* @returns The original promise.
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*/
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function add(taskProducer) {
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if (!isReady()) {
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return syncpromise.rejectedSyncPromise(new error.SentryError('Not adding Promise because buffer limit was reached.'));
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}
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// start the task and add its promise to the queue
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const task = taskProducer();
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if (buffer.indexOf(task) === -1) {
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buffer.push(task);
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}
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void task
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.then(() => remove(task))
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// Use `then(null, rejectionHandler)` rather than `catch(rejectionHandler)` so that we can use `PromiseLike`
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// rather than `Promise`. `PromiseLike` doesn't have a `.catch` method, making its polyfill smaller. (ES5 didn't
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// have promises, so TS has to polyfill when down-compiling.)
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.then(null, () =>
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remove(task).then(null, () => {
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// We have to add another catch here because `remove()` starts a new promise chain.
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}),
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);
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return task;
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}
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/**
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* Wait for all promises in the queue to resolve or for timeout to expire, whichever comes first.
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*
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* @param timeout The time, in ms, after which to resolve to `false` if the queue is still non-empty. Passing `0` (or
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* not passing anything) will make the promise wait as long as it takes for the queue to drain before resolving to
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* `true`.
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* @returns A promise which will resolve to `true` if the queue is already empty or drains before the timeout, and
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* `false` otherwise
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*/
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function drain(timeout) {
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return new syncpromise.SyncPromise((resolve, reject) => {
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let counter = buffer.length;
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if (!counter) {
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return resolve(true);
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}
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// wait for `timeout` ms and then resolve to `false` (if not cancelled first)
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const capturedSetTimeout = setTimeout(() => {
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if (timeout && timeout > 0) {
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resolve(false);
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}
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}, timeout);
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// if all promises resolve in time, cancel the timer and resolve to `true`
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buffer.forEach(item => {
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void syncpromise.resolvedSyncPromise(item).then(() => {
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if (!--counter) {
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clearTimeout(capturedSetTimeout);
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resolve(true);
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}
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}, reject);
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});
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});
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}
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return {
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$: buffer,
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add,
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drain,
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};
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}
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exports.makePromiseBuffer = makePromiseBuffer;
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//# sourceMappingURL=promisebuffer.js.map
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