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# ASAP
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[![Build Status](https://travis-ci.org/kriskowal/asap.png?branch=master)](https://travis-ci.org/kriskowal/asap)
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Promise and asynchronous observer libraries, as well as hand-rolled callback
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programs and libraries, often need a mechanism to postpone the execution of a
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callback until the next available event.
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(See [Designing API’s for Asynchrony][Zalgo].)
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The `asap` function executes a task **as soon as possible** but not before it
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returns, waiting only for the completion of the current event and previously
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scheduled tasks.
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```javascript
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asap(function () {
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// ...
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});
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```
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[Zalgo]: http://blog.izs.me/post/59142742143/designing-apis-for-asynchrony
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This CommonJS package provides an `asap` module that exports a function that
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executes a task function *as soon as possible*.
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ASAP strives to schedule events to occur before yielding for IO, reflow,
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or redrawing.
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Each event receives an independent stack, with only platform code in parent
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frames and the events run in the order they are scheduled.
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ASAP provides a fast event queue that will execute tasks until it is
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empty before yielding to the JavaScript engine's underlying event-loop.
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When a task gets added to a previously empty event queue, ASAP schedules a flush
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event, preferring for that event to occur before the JavaScript engine has an
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opportunity to perform IO tasks or rendering, thus making the first task and
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subsequent tasks semantically indistinguishable.
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ASAP uses a variety of techniques to preserve this invariant on different
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versions of browsers and Node.js.
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By design, ASAP prevents input events from being handled until the task
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queue is empty.
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If the process is busy enough, this may cause incoming connection requests to be
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dropped, and may cause existing connections to inform the sender to reduce the
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transmission rate or stall.
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ASAP allows this on the theory that, if there is enough work to do, there is no
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sense in looking for trouble.
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As a consequence, ASAP can interfere with smooth animation.
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If your task should be tied to the rendering loop, consider using
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`requestAnimationFrame` instead.
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A long sequence of tasks can also effect the long running script dialog.
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If this is a problem, you may be able to use ASAP’s cousin `setImmediate` to
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break long processes into shorter intervals and periodically allow the browser
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to breathe.
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`setImmediate` will yield for IO, reflow, and repaint events.
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It also returns a handler and can be canceled.
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For a `setImmediate` shim, consider [YuzuJS setImmediate][setImmediate].
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[setImmediate]: https://github.com/YuzuJS/setImmediate
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Take care.
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ASAP can sustain infinite recursive calls without warning.
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It will not halt from a stack overflow, and it will not consume unbounded
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memory.
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This is behaviorally equivalent to an infinite loop.
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Just as with infinite loops, you can monitor a Node.js process for this behavior
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with a heart-beat signal.
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As with infinite loops, a very small amount of caution goes a long way to
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avoiding problems.
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```javascript
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function loop() {
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asap(loop);
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}
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loop();
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```
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In browsers, if a task throws an exception, it will not interrupt the flushing
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of high-priority tasks.
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The exception will be postponed to a later, low-priority event to avoid
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slow-downs.
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In Node.js, if a task throws an exception, ASAP will resume flushing only if—and
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only after—the error is handled by `domain.on("error")` or
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`process.on("uncaughtException")`.
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## Raw ASAP
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Checking for exceptions comes at a cost.
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The package also provides an `asap/raw` module that exports the underlying
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implementation which is faster but stalls if a task throws an exception.
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This internal version of the ASAP function does not check for errors.
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If a task does throw an error, it will stall the event queue unless you manually
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call `rawAsap.requestFlush()` before throwing the error, or any time after.
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In Node.js, `asap/raw` also runs all tasks outside any domain.
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If you need a task to be bound to your domain, you will have to do it manually.
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```js
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if (process.domain) {
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task = process.domain.bind(task);
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}
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rawAsap(task);
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```
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## Tasks
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A task may be any object that implements `call()`.
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A function will suffice, but closures tend not to be reusable and can cause
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garbage collector churn.
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Both `asap` and `rawAsap` accept task objects to give you the option of
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recycling task objects or using higher callable object abstractions.
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See the `asap` source for an illustration.
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## Compatibility
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ASAP is tested on Node.js v0.10 and in a broad spectrum of web browsers.
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The following charts capture the browser test results for the most recent
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release.
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The first chart shows test results for ASAP running in the main window context.
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The second chart shows test results for ASAP running in a web worker context.
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Test results are inconclusive (grey) on browsers that do not support web
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workers.
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These data are captured automatically by [Continuous
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Integration][].
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[Continuous Integration]: https://github.com/kriskowal/asap/blob/master/CONTRIBUTING.md
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![Browser Compatibility](http://kriskowal-asap.s3-website-us-west-2.amazonaws.com/train/integration-2/saucelabs-results-matrix.svg)
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![Compatibility in Web Workers](http://kriskowal-asap.s3-website-us-west-2.amazonaws.com/train/integration-2/saucelabs-worker-results-matrix.svg)
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## Caveats
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When a task is added to an empty event queue, it is not always possible to
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guarantee that the task queue will begin flushing immediately after the current
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event.
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However, once the task queue begins flushing, it will not yield until the queue
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is empty, even if the queue grows while executing tasks.
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The following browsers allow the use of [DOM mutation observers][] to access
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the HTML [microtask queue][], and thus begin flushing ASAP's task queue
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immediately at the end of the current event loop turn, before any rendering or
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IO:
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[microtask queue]: http://www.whatwg.org/specs/web-apps/current-work/multipage/webappapis.html#microtask-queue
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[DOM mutation observers]: http://dom.spec.whatwg.org/#mutation-observers
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- Android 4–4.3
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- Chrome 26–34
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- Firefox 14–29
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- Internet Explorer 11
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- iPad Safari 6–7.1
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- iPhone Safari 7–7.1
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- Safari 6–7
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In the absense of mutation observers, there are a few browsers, and situations
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like web workers in some of the above browsers, where [message channels][]
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would be a useful way to avoid falling back to timers.
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Message channels give direct access to the HTML [task queue][], so the ASAP
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task queue would flush after any already queued rendering and IO tasks, but
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without having the minimum delay imposed by timers.
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However, among these browsers, Internet Explorer 10 and Safari do not reliably
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dispatch messages, so they are not worth the trouble to implement.
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[message channels]: http://www.whatwg.org/specs/web-apps/current-work/multipage/web-messaging.html#message-channels
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[task queue]: http://www.whatwg.org/specs/web-apps/current-work/multipage/webappapis.html#concept-task
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- Internet Explorer 10
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- Safair 5.0-1
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- Opera 11-12
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In the absense of mutation observers, these browsers and the following browsers
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all fall back to using `setTimeout` and `setInterval` to ensure that a `flush`
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occurs.
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The implementation uses both and cancels whatever handler loses the race, since
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`setTimeout` tends to occasionally skip tasks in unisolated circumstances.
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Timers generally delay the flushing of ASAP's task queue for four milliseconds.
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- Firefox 3–13
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- Internet Explorer 6–10
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- iPad Safari 4.3
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- Lynx 2.8.7
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## Heritage
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ASAP has been factored out of the [Q][] asynchronous promise library.
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It originally had a naïve implementation in terms of `setTimeout`, but
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[Malte Ubl][NonBlocking] provided an insight that `postMessage` might be
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useful for creating a high-priority, no-delay event dispatch hack.
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Since then, Internet Explorer proposed and implemented `setImmediate`.
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Robert Katić began contributing to Q by measuring the performance of
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the internal implementation of `asap`, paying particular attention to
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error recovery.
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Domenic, Robert, and Kris Kowal collectively settled on the current strategy of
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unrolling the high-priority event queue internally regardless of what strategy
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we used to dispatch the potentially lower-priority flush event.
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Domenic went on to make ASAP cooperate with Node.js domains.
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[Q]: https://github.com/kriskowal/q
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[NonBlocking]: http://www.nonblocking.io/2011/06/windownexttick.html
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For further reading, Nicholas Zakas provided a thorough article on [The
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Case for setImmediate][NCZ].
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[NCZ]: http://www.nczonline.net/blog/2013/07/09/the-case-for-setimmediate/
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Ember’s RSVP promise implementation later [adopted][RSVP ASAP] the name ASAP but
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further developed the implentation.
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Particularly, The `MessagePort` implementation was abandoned due to interaction
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[problems with Mobile Internet Explorer][IE Problems] in favor of an
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implementation backed on the newer and more reliable DOM `MutationObserver`
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interface.
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These changes were back-ported into this library.
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[IE Problems]: https://github.com/cujojs/when/issues/197
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[RSVP ASAP]: https://github.com/tildeio/rsvp.js/blob/cddf7232546a9cf858524b75cde6f9edf72620a7/lib/rsvp/asap.js
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In addition, ASAP factored into `asap` and `asap/raw`, such that `asap` remained
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exception-safe, but `asap/raw` provided a tight kernel that could be used for
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tasks that guaranteed that they would not throw exceptions.
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This core is useful for promise implementations that capture thrown errors in
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rejected promises and do not need a second safety net.
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At the same time, the exception handling in `asap` was factored into separate
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implementations for Node.js and browsers, using the the [Browserify][Browser
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Config] `browser` property in `package.json` to instruct browser module loaders
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and bundlers, including [Browserify][], [Mr][], and [Mop][], to use the
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browser-only implementation.
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[Browser Config]: https://gist.github.com/defunctzombie/4339901
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[Browserify]: https://github.com/substack/node-browserify
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[Mr]: https://github.com/montagejs/mr
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[Mop]: https://github.com/montagejs/mop
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## License
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Copyright 2009-2014 by Contributors
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MIT License (enclosed)
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