can anyone tell me whats the reason that array.forEach is slower than for loop in javascript. Is there any particular reason.

Here's the code that I was trying to find the performance.

// Populate the base array
    var arr = [];
    for (var i = 0; i < 1000; i++) {
      arr[i] = i;

    function someFn(i) {
      return i * 3 * 8;

Using Array.forEach :

arr.forEach(function (item){

Using for loop :

for (var i = 0, len = arr.length; i < len; i++) {

I tested it on test runner . Here are the results: enter image description here

As you can see Array.ForEach is 96% slower than for loop. Thanks in advance.

  • This may help stackoverflow.com/questions/43031988/…
    – LF00
    May 6, 2017 at 14:48
  • 1
    It's probably because forEach requires a function call for each element. That doesn't quite explain why it's 96% faster though, you'd expect 50% since you make 1 function call instead of 2 for each element. It's possible the engine is able to optimize the someFn function which means it doesn't need to make a function call. Perhaps you can modify your performance test to check this.
    – Halcyon
    May 6, 2017 at 14:53
  • This is also good, stackoverflow.com/questions/22155280/…
    – parlad
    May 6, 2017 at 14:53
  • 1
    Even if forEach is slower, unlike the JSPerf (which i don't trust) results, it's only slightly slower... Yet sometimes it can turn out to be significantly faster than the for loop. Check this out.
    – Redu
    May 6, 2017 at 21:33
  • youtu.be/EhpmNyR2Za0?t=17m15s
    – Bergi
    Apr 6, 2018 at 14:39

1 Answer 1


Updated based on feedback from @BenAston & @trincot

Roughly, this is what's happening in both cases:

For loop

  1. Set the index variable to its initial value
  2. Check whether or not to exit the loop
  3. Run the body of your loop
  4. Increment the index variable
  5. Back to step 2

The only overhead that happens on every iteration is the check & the increment, which are very low-load operations.

forEach loop

  1. Instantiate the callback function
  2. Check if there's a next element to process
  3. Call the callback for the next element to process, with a new execution context (this comprises the "scope" of the function; so its context, arguments, inner variables, and references to any outer variables -- if used)
  4. Run the contents of your callback
  5. Teardown of callback function call
  6. Return to step 2

The overhead of the function setup & teardown in steps 3 & 5 here are much greater than that of incrementing & checking an integer for the vanilla for-loop.

That said, many modern browsers recognize & optimize forEach calls, and in some cases, the forEach might even be faster!

  • 'Closure' and 'teardown' seem unfamiliar to me, could you elaborate on that please? May 6, 2017 at 15:09
  • 2
    A closure (answer updated with link) is what gives you access to the variables of an outer function (i.e. whatever's calling the forEach, or wherever you've declared your callback if not inline) from an inner function (your callback). It takes some CPU cycles & memory to set that up for each call. By teardown, I just meant the additional work that the JavaScript engine has to do to clean up after itself following any function call. All function calls have some overhead at the start and at the end that, if not optimized out by e.g. function inlining, will impact performance.
    – tavnab
    May 6, 2017 at 15:18
  • Great! Thanks :) Upvoted! May 6, 2017 at 15:21
  • 2
    The creation of a closure is not linked to forEach itself as one might pass a simple arrow function like x => y += x, which has no closure.
    – trincot
    May 6, 2017 at 15:27
  • 1
    this is a fair and interesting question. Yes, creating the callback inline probably affected the results (because the filtering function would be re-created on each re-run of the forEach in the timing loop). But [].forEach is also an order of magnitude slower than its obvious implementation, which runs as fast or faster than the for loop: function forEach(a, fn) { for (var i=0; i<a.length; i++) fn(a[i]); }
    – Andras
    May 8, 2017 at 22:49

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