问题
I am curious about the relationship between Event Loop and Promise.
The demo exposes the question. I expected the p1 fulfilled appear in the middle, since they queue a task to the same task queue and are executed one by one.
var p1 = new Promise(function(resolve, reject){
resolve(1)
})
setTimeout(function(){
console.log("will be executed at the top of the next Event Loop")
},0)
p1.then(function(value){
console.log("p1 fulfilled")
})
setTimeout(function(){
console.log("will be executed at the bottom of the next Event Loop")
},0)
The console result is:
p1 fulfilled
will be executed at the top of the next Event Loop
will be executed at the bottom of the next Event Loop
The visualized effect shows the promise.then's callback didn't go to the task queue of the Event Loop. It's right?
【NOTE: The question is not the same as Promise vs setTimeout, since it focus more on the relationship between Event Loop and Promise】
回答1:
Each event loop has a microtask queue and a macrotask queue.
A microtask is a task that is originally to be queued on the microtask queue rather than a task queue. Refer to https://www.w3.org/TR/html51/webappapis.html#microtask-queue.
There are two kinds of microtasks:
- solitary callback microtasks, such as
Promise, - and compound microtasks, such as
Object.observe,MutationObserverandprocess.nextTickin Node.js.
And the macrotask queue mainly contains setTimeout, setInterval, setImmediate, requestAnimationFrame, I/O in Nodejs.
In a event Loop, these two task queues will run in two steps:
- First, check whether there is a macrotask (called it X) in old macrotask queue ;
- If X exists and it is running, wait for gotoing the next step until it was complete; otherwise, goto the next step immediately;
- Second, run all microtasks of the microtask queue;
- and when run the microtasks, we can still add some more microtaks into the queue, these tasks will also run.
In your example:
- First, your Promise initialize
new Promiseandresolveare synchronous; - and then synchronously add a
setTimeoutmacroTask into the macrotask queue; - then synchronously add the microtask
promise.then(function(){})to the microtask queue, this task will run immediately, because the Promise initialize and resolve are synchronous, this task run before any macrotask; so, console.log thep1 fulfilled; - then add the second macrotask
setTimeoutto macrotask queue; - after this event loop ended, run the two macrotasks;
for this code:
setTimeout(function(){
console.log("will be executed at the top of the next Event Loop")
},0)
var p1 = new Promise(function(resolve, reject){
setTimeout(function(){resolve(1)},0)
});
setTimeout(function(){
console.log("will be executed at the bottom of the next Event Loop")
},0)
for (var i = 0; i < 100; i++) {
(function(j){
p1.then(function(value){
console.log("promise then - " + j)
});
})(i)
}
the output order:
will be executed at the top of the next Event Loop
promise then - 0
promise then - 1
promise then - 2
...
promise then - 99
will be executed at the bottom of the next Event Loop
- First add three macrotask
setTimeoutto macrotask queue, and a microtaskpromise.then()to the microtask queue; - run a macrotask;
- If condition true run all microtasks, but it's false, so go to the next step;
- run the second macrotask;
- check whether the promise resolved or not, the condition is true, then run all microtasks;
- go on to run other macrotasks;
回答2:
Promises will not be called unless the stack is clear of application code as per Dr. Axel Rauschmayer here.
... the Promises/A+ specification demands that the latter mode of execution be always used. It states so via the following requirement (2.2.4) for the then() method:
onFulfilled or onRejected must not be called until the execution context stack contains only platform code.
It's important to note:
That means that you code can rely on run-to-completion semantics (as explained in part 1) and that chaining promises won’t starve other tasks of processing time.
来源:https://stackoverflow.com/questions/46375711/what-is-the-relationship-between-event-loop-and-promise