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asap.js | ||
LICENSE.md | ||
package.json | ||
README.md |
ASAP
This asap
CommonJS package contains a single asap
module that
exports a single asap
function that executes a function as soon as
possible.
asap(function () {
// ...
});
More formally, ASAP provides a fast event queue that will execute tasks until it is empty before yielding to the JavaScript engine's underlying event-loop. When the event queue becomes non-empty, ASAP schedules a flush event, preferring for that event to occur before the JavaScript engine has an opportunity to perform IO tasks or rendering, thus making the first task and subsequent tasks semantically indistinguishable. ASAP uses a variety of techniques to preserve this invariant on different versions of browsers and NodeJS.
By design, ASAP can starve the event loop on the theory that, if there is enough work to be done synchronously, albeit in separate events, long enough to starve input or output, it is a strong indicator that the program needs to push back on scheduling more work.
Take care. ASAP can sustain infinite recursive calls indefinitely without warning. This is behaviorally equivalent to an infinite loop. It will not halt from a stack overflow, but it will chew through memory (which is an oddity I cannot explain at this time). Just as with infinite loops, you can monitor a Node process for this behavior with a heart-beat signal. As with infinite loops, a very small amount of caution goes a long way to avoiding problems.
function loop() {
asap(loop);
}
loop();
ASAP is distinct from setImmediate
in that it does not suffer the
overhead of returning a handle and being possible to cancel. For a
setImmediate
shim, consider setImmediate.
If a task throws an exception, it will not interrupt the flushing of high-priority tasks. The exception will be postponed to a later, low-priority event to avoid slow-downs, when the underlying JavaScript engine will treat it as it does any unhandled exception.
Heritage
ASAP has been factored out of the Q asynchronous promise library.
It originally had a naïve implementation in terms of setTimeout
, but
Malte Ubl provided an insight that postMessage
might be
useful for creating a high-priority, no-delay event dispatch hack.
Since then, Internet Explorer proposed and implemented setImmediate
.
Robert Kratić began contributing to Q by measuring the performance of
the internal implementation of asap
, paying particular attention to
error recovery. Domenic, Robert, and I collectively settled on the
current strategy of unrolling the high-priority event queue internally
regardless of what strategy we used to dispatch the potentially
lower-priority flush event. Domenic went on to make ASAP cooperate with
NodeJS domains.
For further reading, Nicholas Zakas provided a thorough article on The Case for setImmediate.
License
Copyright 2009-2013 by Contributors MIT License (enclosed)