I was trying to find the fastest way of running a for loop with its own scope. The three methods I compared were:

var a = "t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t,t".split();

// lodash .each -> 1,294,971 ops/sec
lodash.each(a, function(item) { cb(item); });

// native .forEach -> 398,167 ops/sec
a.forEach(function(item) { cb(item); });

// native for -> 1,140,382 ops/sec
var lambda = function(item) { cb(item); };
for (var ix = 0, len = a.length; ix < len; ix++) {

This is on Chrome 29 on OS X. You can run the tests yourself here:


How is lodash's .each almost twice as fast as native .forEach? And moreover, how is it faster than the plain for? Sorcery? Black magic?


4 Answers 4


_.each() is not fully compatible to [].forEach(). See the following example:

var a = ['a0'];
a[3] = 'a3';
_.each(a, console.log); // runs 4 times
a.forEach(console.log); // runs twice -- that's just how [].forEach() is specified


So lodash's implementation is missing an if (... in ...) check, which might explain the performance difference.

As noted in the comments above, the difference to native for is mainly caused by the additional function lookup in your test. Use this version to get more accurate results:

for (var ix = 0, len = a.length; ix < len; ix++) {


  • 1
    Thanks for that. Worth pointing out though that the for without the closure is not entirely equivalent. The inside of the for block doesn't get its own scope. Sep 19, 2013 at 1:55
  • 1
    @MattZukowski Your original testcase for (...) {(function(item) {cb(item);})(a[ix]);} is fine for that matter. Contrary to your comment above, this does not create considerable overhead for each iteration. Related: stackoverflow.com/questions/17308446/… Sep 19, 2013 at 2:09
  • 4
    Lo-Dash gets its speed by treating all arrays as dense & hoisting out .call from the loop. Some JS engines may also have problems inlining across the native method boundary which lodash avoids by being plain JS. Treating all arrays as dense is more consistent cross-browser as IE < 9 will treat the literal undefined value in an array like [null, undefined, false] as a hole & skip it while others won't. Sep 20, 2013 at 2:57
  • 25
    I get a 404 on that jsperf link.
    – hpaulj
    Oct 6, 2013 at 21:46
  • 1
    I'm getting 404 as well. Did anyone see the results and which was faster?
    – PrimeLens
    Dec 29, 2016 at 14:59


The lo-dash developers explain (here and on a video) that the relative speed of the native forEach varies among browsers. Just because forEach is native does not mean that it is faster than a simple loop built with for or while. For one thing, the forEach has to deal with more special cases. Secondly, forEach uses callbacks, with the (potential) overhead of function invocation etc.

chrome in particular is known (at least to the lo-dash developers) to have a relatively slow forEach. So for that browser, lo-dash uses it's own simple while loop to gain speed. Hence the speed advantage that you see (but others don't).

By smartly opting into native methods — only using a native implementation if it’s known to be fast in a given environment — Lo-Dash avoids the performance cost and consistency issues associated with natives.


Yes, lodash/underscore each don't even have same semantics as .forEach. There is a subtle detail that will make the function really slow unless the engine can check for sparse arrays without getters quickly.

This will be 99% spec compliant and runs at the same speed as lodash each in V8 for the common case:

function FastAlmostSpecForEach( fn, ctx ) {
    "use strict";
    if( arguments.length > 1 ) return slowCaseForEach();
    if( typeof this !== "object" ) return slowCaseForEach();
    if( this === null ) throw new Error("this is null or not defined");
    if( typeof fn !== "function" ) throw new Error("is not a function");
    var len = this.length;
    if( ( len >>> 0 ) !== len ) return slowCaseForEach();

    for( var i = 0; i < len; ++i ) {
        var item = this[i];
        //Semantics are not exactly the same,
        //Fully spec compliant will not invoke getters
       //but this will.. however that is an insane edge case
        if( item === void 0 && !(i in this) ) {
        fn( item, i, this );

Array.prototype.fastSpecForEach = FastAlmostSpecForEach;

By checking for undefined first, we don't punish normal arrays in the loop at all. An engine could use its internals to detect strange arrays but V8 doesn't.


Here's an updated link (circa 2015) showing the performance difference which compares all three, for(...), Array.forEach and _.each: https://jsperf.com/native-vs-underscore-vs-lodash

Note: Put here since I didn't have enough points yet to comment on the accepted answer.

  • 2
    So it seems that lodash.each is no longer faster than forEach (Chrome 78, 2020) Jan 3, 2020 at 18:58
  • Lodash is still faster on my machine (i9-9900k cpu @ 5Ghz 8core 16 thread) than native forEach, but a native for loop is double as fast as both of them (all of this according to running the test at that above URL).
    – agm1984
    May 23, 2020 at 18:48

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