164

I was looking at some snippets of code, and I found multiple elements calling a function over a node list with a forEach applied to an empty array.

For example I have something like:

[].forEach.call( document.querySelectorAll('a'), function(el) {
   // whatever with the current node
});

but I can't understand how it works. Can anyone explain me the behaviour of the empty array in front of the forEach and how the call works?

14 Answers 14

244

[] is an array.
This array isn't used at all.

It's being put on the page, because using an array gives you access to array prototypes, like .forEach.

This is just faster than typing Array.prototype.forEach.call(...);

Next, forEach is a function which takes a function as an input...

[1,2,3].forEach(function (num) { console.log(num); });

...and for each element in this (where this is array-like, in that it has a length and you can access its parts like this[1]) it will pass three things:

  1. the element in the array
  2. the index of the element (third element would pass 2)
  3. a reference to the array

Lastly, .call is a prototype which functions have (it's a function which gets called on other functions).
.call will take its first argument and replace this inside of the regular function with whatever you passed call, as the first argument (undefined or null will use window in everyday JS, or will be whatever you passed, if in "strict-mode"). The rest of the arguments will be passed to the original function.

[1, 2, 3].forEach.call(["a", "b", "c"], function (item, i, arr) {
    console.log(i + ": " + item);
});
// 0: "a"
// 1: "b"
// 2: "c"

Therefore, you're creating a quick way to call the forEach function, and you're changing this from the empty array to a list of all <a> tags, and for each <a> in-order, you are calling the function provided.

EDIT

Logical Conclusion / Cleanup

Below, there's a link to an article suggesting that we scrap attempts at functional programming, and stick to manual, inline looping, every time, because this solution is hack-ish and unsightly.

I'd say that while .forEach is less helpful than its counterparts, .map(transformer), .filter(predicate), .reduce(combiner, initialValue), it still serves purposes when all you really want to do is modify the outside world (not the array), n-times, while having access to either arr[i] or i.

So how do we deal with the disparity, as Motto is clearly a talented and knowledgeable guy, and I would like to imagine that I know what I'm doing/where I'm going (now and then... ...other times it's head-first learning)?

The answer is actually quite simple, and something Uncle Bob and Sir Crockford would both facepalm, due to the oversight:

clean it up.

function toArray (arrLike) { // or asArray(), or array(), or *whatever*
  return [].slice.call(arrLike);
}

var checked = toArray(checkboxes).filter(isChecked);
checked.forEach(listValues);

Now, if you're questioning whether you need to do this, yourself, the answer may well be no...
This exact thing is done by... ...every(?) library with higher-order features these days.
If you're using lodash or underscore or even jQuery, they're all going to have a way of taking a set of elements, and performing an action n-times.
If you aren't using such a thing, then by all means, write your own.

lib.array = (arrLike, start, end) => [].slice.call(arrLike, start, end);
lib.extend = function (subject) {
  var others = lib.array(arguments, 1);
  return others.reduce(appendKeys, subject);
};

Update for ES6(ES2015) and Beyond

Not only is a slice( )/array( )/etc helper method going to make life easier for people who want to use lists just like they use arrays (as they should), but for the people who have the luxury of operating in ES6+ browsers of the relatively-near future, or of "transpiling" in Babel today, you have language features built in, which make this type of thing unnecessary.

function countArgs (...allArgs) {
  return allArgs.length;
}

function logArgs (...allArgs) {
  return allArgs.forEach(arg => console.log(arg));
}

function extend (subject, ...others) { /* return ... */ }


var nodeArray = [ ...nodeList1, ...nodeList2 ];

Super-clean, and very useful.
Look up the Rest and Spread operators; try them out at the BabelJS site; if your tech stack is in order, use them in production with Babel and a build step.


There's no good reason not to be able to use the transform from non-array into array... ...just don't make a mess of your code doing nothing but pasting that same ugly line, everywhere.

15
  • Now I'm a bit confused cause if I did: console.log(this); I will always get the window object And I thought that .call changes the value of this Commented Apr 17, 2015 at 16:03
  • 3
    @MuhammadSaleh .call doesn't change the value of this inside of what you pass to forEach, .call changes the value of this inside of forEach. If you are confused as to why this doesn't get passed from forEach into the function you wanted called, you should look up the behaviour of this in JavaScript. As an addendum, applicable only here (and map/filter/reduce), there is a second argument to forEach, which sets this inside the function arr.forEach(fn, thisInFn) or [].forEach.call(arrLike, fn, thisInFn); or just use .bind; arr.forEach(fn.bind(thisInFn));
    – LetterEh
    Commented Apr 19, 2015 at 12:03
  • 1
    @thetrystero that's exactly the point. [] is just there as an array, so that you can .call the .forEach method, and change the this to the set you want to do work on. .call looks like this: function (thisArg, a, b, c) { var method = this; method(a, b, c); } except that there's internal black-magic to set this inside of method to equal what you passed as thisArg.
    – LetterEh
    Commented Nov 23, 2015 at 19:47
  • 1
    so in short... Array.from()?
    – zakius
    Commented Feb 17, 2019 at 16:15
  • 2
    @LukeHutchison to wit, [].forEach.call(arr, fn) will run for the length of arr, passed into call; not the array that is being used at the start of the forEach (as stated in the first two sentences, and elaborated thereafter). The length of the initial array is wholly inconsequential. When you use the second argument of the forEach function, you are using the index; the same as if you passed the function directly to forEach instead of call. Were you to log the first argument, you would get "a", "b", "c", not 1, 2, 3, due to how call replaces this and how forEach works.
    – LetterEh
    Commented Sep 24, 2020 at 8:00
65

The querySelectorAll method returns a NodeList, which is similar to an array, but it's not quite an array. Therefore, it doesn't have a forEach method (which array objects inherit via Array.prototype).

Since a NodeList is similar to an array, array methods will actually work on it, so by using [].forEach.call you are invoking the Array.prototype.forEach method in the context of the NodeList, as if you had been able to simply do yourNodeList.forEach(/*...*/).

Note that the empty array literal is just a shortcut to the expanded version, which you will probably see quite often too:

Array.prototype.forEach.call(/*...*/);
5
  • 11
    So, to clarify, there's no advantage in using [].forEach.call(['a','b'], cb) over ['a','b'].forEach(cb) in everyday applications with standard arrays, just when trying to iterate over array-like structures that don't have forEach on their own prototype? Is that correct? Commented Jan 30, 2015 at 12:16
  • 3
    @MattFletcher: Yes that's correct. Both will work but why overcomplicate things? Just call the method directly on the array itself. Commented Jan 30, 2015 at 12:21
  • Cool, thanks. And I don't know why, maybe just for street cred, impressing old ladies in ALDI and such. I'll stick to [].forEach() :) Commented Jan 30, 2015 at 12:23
  • var section = document.querySelectorAll(".section"); section.forEach((item)=>{ console.log(item.offsetTop) }) works well
    – daslicht
    Commented Oct 10, 2018 at 16:32
  • 1
    @daslicht not in older versions of IE! (that do, however, support forEach on arrays, but not NodeList objects)
    – Djave
    Commented Dec 2, 2019 at 8:48
22

The other answers have explained this code very well, so I'll just add a suggestion.

This is a good example of code that should be refactored for simplicity and clarity. Instead of using [].forEach.call() or Array.prototype.forEach.call() every time you do this, make a simple function out of it:

function forEach( list, callback ) {
    Array.prototype.forEach.call( list, callback );
}

Now you can call this function instead of the more complicated and obscure code:

forEach( document.querySelectorAll('a'), function( el ) {
   // whatever with the current node
});
0
7
[].forEach.call( document.querySelectorAll('a'), function(el) {
   // whatever with the current node
});

It is basically the same as:

var arr = document.querySelectorAll('a');
arr.forEach(function(el) {
   // whatever with the current node
});
6

It can be better written using

Array.prototype.forEach.call( document.querySelectorAll('a'), function(el) {

});

What is does is document.querySelectorAll('a') returns an object similar to an array, but it does not inherit from the Array type. So we calls the forEach method from the Array.prototype object with the context as the value returned by document.querySelectorAll('a')

5

Want to update on this old question:

The reason to use [].foreach.call() to loop through elements in the modern browsers is mostly over. We can use document.querySelectorAll("a").foreach() directly.

NodeList objects are collections of nodes, usually returned by properties such as Node.childNodes and methods such as document.querySelectorAll().

Although NodeList is not an Array, it is possible to iterate over it with forEach(). It can also be converted to a real Array using Array.from().

However, some older browsers have not implemented NodeList.forEach() nor Array.from(). This can be circumvented by using Array.prototype.forEach() — see this document's Example.

4

Lots of good info on this page (see answer+answer+comment), but I recently had the same question as the OP, and it took some digging to get the whole picture. So, here's a short version:

The goal is to use Array methods on an array-like NodeList that doesn't have those methods itself.

An older pattern co-opted Array's methods via Function.call(), and used an array literal ([]) rather than than Array.prototype because it was shorter to type:

[].forEach.call(document.querySelectorAll('a'), a => {})

A newer pattern (post ECMAScript 2015) is to use Array.from():

Array.from(document.querySelectorAll('a')).forEach(a => {})
3

An empty array has a property forEach in its prototype which is a Function object. (The empty array is just an easy way to obtain a reference to the forEach function that all Array objects have.) Function objects, in turn, have a call property which is also a function. When you invoke a Function's call function, it runs the function with the given arguments. The first argument becomes this in the called function.

You can find documentation for the call function here. Documentation for forEach is here.

1

Just add one line:

NodeList.prototype.forEach = HTMLCollection.prototype.forEach = Array.prototype.forEach;

And voila!

document.querySelectorAll('a').forEach(function(el) {
  // whatever with the current node
});

Enjoy :—)

Warning: NodeList is a global class. Don't use this recomendation if you writing public library. However it's very convenient way for increasing self-efficacy when you work on website or node.js app.

0
1

Just a quick and dirty solution I always end up using. I wouldn't touch prototypes, just as good practice. Of course, there are a lot of ways to make this better, but you get the idea.

const forEach = (array, callback) => {
  if (!array || !array.length || !callback) return
  for (var i = 0; i < array.length; i++) {
    callback(array[i], i);
  }
}

forEach(document.querySelectorAll('.a-class'), (item, index) => {
  console.log(`Item: ${item}, index: ${index}`);
});
0

[] always returns a new array, it is equivalent to new Array() but is guaranteed to return an array because Array could be overwritten by the user whereas [] can not. So this is a safe way to get the prototype of Array, then as described, call is used to execute the function on the arraylike nodelist (this).

Calls a function with a given this value and arguments provided individually. mdn

2
  • While [] will in fact always return an array, while window.Array can be overwritten with anything (in all old browsers), so too can window.Array.prototype.forEach be overwritten with anything. There is no guarantee of safety in either case, in browsers which don't support getters/setters or object sealing/freezing (freezing causing its own extensibility issues).
    – LetterEh
    Commented Apr 19, 2015 at 14:31
  • Feel free to edit the answer to add the extra information regarding the possibility of overwriting the prototype or it's methods: forEach.
    – Xotic750
    Commented Apr 19, 2015 at 20:29
0

let's say you have : const myList= document.querySelectorAll("p"); This will return an list/array of all

in your HTML. Now Array.prototype.forEach.call(myList, myCallback) is equivalent to [].forEach.call(myList, myCallback) where 'myCallback' is a callback function. You are basically running the callback function on each element of myList. Hope this helped you!

0

Norguard explained WHAT [].forEach.call() does and James Allardice WHY we do it: because querySelectorAll returns a NodeList that doesn't have a forEach method...

Unless you have modern browser like Chrome 51+, Firefox 50+, Opera 38, Safari 10.

If not you can add a Polyfill:

if (window.NodeList && !NodeList.prototype.forEach) {
    NodeList.prototype.forEach = function (callback, thisArg) {
        thisArg = thisArg || window;
        for (var i = 0; i < this.length; i++) {
            callback.call(thisArg, this[i], i, this);
        }
    };
}
-1

I don't know if there is any restriction, but it works. I turned the nodeList into an iterator object using the spread operator and mapped it:

let _btns = document.querySelectorAll('.btn');

[..._btns].map(function(elem, i) {
  elem.addEventListener('click', function (e) {
    console.log(elem.textContent);
  })
})
.btn {
  padding: 5px; 
  color:#fff; 
  background-color: darkred; 
  text-align:center;
  color: white;
}
<button class="btn">button 1</button>
<button class="btn">button 2</button>

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