How does async code really work under the hood in JavaScript? [duplicate]

Question

I've spent the last two weeks learning about the following: setImmediate, process.nextTick, setTimeout, promises, callbacks, libuv, the event loop, job/microtask queue, event loop queue, call stacks, etc.

I've truly gone down a rabbit hole that I can't escape and while I find myself a lot more informed, I'm still have trouble grasping async code in JavaScript.

I'd like to take the following basic scenario and understand how I might implement it async.:

// does nothing; here to simulate functionality below
var data = new Array(10000000);

const displayTime = desc => {
  var time = new Date();
  console.log(
    ("0" + time.getHours()).slice(-2) + ":" +
    ("0" + time.getMinutes()).slice(-2) + ":" +
    ("0" + time.getSeconds()).slice(-2) + " " + desc
  );
}

displayTime('starting ...');

// --- async/await (a promise):

const processData = async(data) => {
  let dataLen = data.length;
  let processedData = [];
  //console.time('#1');
  for (let ctr = 0; ctr < dataLen; ctr++) {
    // something happens here; simulating a long task using a for-loop;
    // for purposes of this question, let's just assume it's necessary to do this
    processedData.push(ctr / 33 * 383739722);
  }
  //console.timeEnd('#1');
  return processedData;
}

(async() => {
  result = await processData(data);
  // console.log(result);
  displayTime('#1 completed ...');
})();

// --- promise:
const processData2 = data => {
  return new Promise((resolve, reject) => {
    let dataLen = data.length;
    let processedData = [];
    //console.time('#2');
    for (let ctr = 0; ctr < dataLen; ctr++) {
      processedData.push(ctr / 33 * 383739722);
    }
    //console.timeEnd('#2');
    resolve(processedData)
  });
}

processData2(data).then(data => {
  // console.log(data);
  displayTime('#2 completed ...');
});

displayTime('end of program ...');

Output is:

18:09:48 starting ...
18:09:52 end of program ...
18:09:52 #1 completed ...
18:09:52 #2 completed ...

As you can see from the output, "end of program ..." wasn't echoed to the screen until after the two long running processes completed (see time).

Why?

How could I have run these two tasks (which both use promises) in the background so that they don't block the event loop and my "end of program ..." string echo immediately?

Answer 1

JavaScript runs in a single thread, always. If you have heavy synchronous processing load, simply dropping that synchronous load in an async context is not sufficient: the execution may be delayed, but when it does come time for the function to execute, all code within still executes synchronously.

You have effectively two options:

1. Spawn a worker thread using node.js's cluster api and have the worker thread execute the synchronous processing
2. Manually delay your synchronous processing at certain points by using something like setImmediate and separating the processing into discrete chunks which can be processed one at a time.

For your research, you may be interested to read that node.js itself uses worker threads for filesystem operations. Network operations I believe are handled by polling. In both cases all processing load happens out of the main node.js process (either on another thread or another computer). If your goal is to have synchronous processing load be non-blocking you should do the same.

I also found this excellent guide in the node.js docs which cover essentially what I describe above but using better terminology and more detail: https://nodejs.org/en/docs/guides/dont-block-the-event-loop/#complex-calculations-without-blocking-the-event-loop