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Let's say that I have an Javascript array looking as following:

["Element 1","Element 2","Element 3",...]; // with close to a hundred elements.

What approach would be appropriate to chunk (split) the array into many smaller arrays with, lets say, 10 elements at its most?

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8 Answers

up vote 59 down vote accepted

The newer array.slice method can extract a slice from the beginning, middle, or end of an array for whatever purposes you require.

var i,j,temparray,chunk = 10;
for (i=0,j=array.length; i<j; i+=chunk) {
    temparray = array.slice(i,i+chunk);
    // do whatever
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You are the man! –  Squirrl Nov 16 '13 at 3:54
Remember if this is a util function to assert against chunk being 0. (infinite loop) –  Steven Lu Jan 25 at 0:51
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Modified from an answer by dbaseman: http://stackoverflow.com/a/10456344/711085

Array.prototype.chunk = function(chunkSize) {
    var array=this;
    return [].concat.apply([],
        array.map(function(elem,i) {
            return i%chunkSize ? [] : [array.slice(i,i+chunkSize)];


> [1,2,3,4,5,6,7].chunk(3)

minor addendum:

I should point out that the above is a not-that-elegant (in my mind) functional programming workaround. It basically does the following, where ~ is concatenation:

[[1,2,3]]~[]~[]~[] ~ [[4,5,6]]~[]~[]~[] ~ [[7]]

It has the same asymptotic running time as the method below, but perhaps a worse constant factor due to building empty lists. One could rewrite this as follows (mostly the same as Blazemonger's method, which is why I did not originally submit this answer):

Array.prototype.chunk = function(chunkSize) {
    var R = [];
    for (var i=0; i<this.length; i+=chunkSize)
    return R;
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+1 for making it a prototype function –  Steven Garcia Jun 12 '12 at 15:09
Eh, I'd avoid messing with the prototype as the feeling of coolness you get from calling the chunk function on the array doesn't really outweigh the extra complexity you're adding and the subtle bugs that messing with built-in prototypes can cause. –  Gordon Gustafson Jul 4 '12 at 1:19
He's not messing with them he's extending them for Arrays. I understand never touching Object.prototype because that would bubble to all objects (everything) but for this Array specific function I don't see any issues. –  rlemon Jul 24 '12 at 19:45
fyi this won't work in ie8 and below because it doesn't have the map function –  Andy Ray Nov 27 '12 at 2:16
Pretty sure that should be array.map(function(i) not array.map(function(elem,i) though –  Nigel Angel Mar 14 '13 at 17:19
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Try to avoid mucking with native prototypes, including Array.prototype, if you don't know who will be consuming your code (3rd parties, coworkers, yourself at a later date, etc.).

There are ways to safely extend prototypes (but not in all browsers) and there are ways to safely consume objects created from extended prototypes, but a better rule of thumb is to follow the Principle of Least Surprise and avoid these practices altogether.

If you have some time, watch Andrew Dupont's JSConf 2011 talk, "Everything is Permitted: Extending Built-ins", for a good discussion about this topic.

But back to the question, while the solutions above will work, they are overly complex and requiring unnecessary computational overhead. Here is my solution:

function chunk (arr, len) {

  var chunks = [],
      i = 0,
      n = arr.length;

  while (i < n) {
    chunks.push(arr.slice(i, i += len));

  return chunks;

// Optionally, you can do the following to avoid cluttering the global namespace:
Array.chunk = chunk;
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Very very helpful, thank you for posting. –  Joe Coder Sep 27 '12 at 20:49
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I'd prefer to use splice method:

var chunks = function(array, size) {
  var results = [];
  while (array.length) {
    results.push(array.splice(0, size));
  return results;
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Old question: New answer! I actually was working with an answer from this question and had a friend improve on it! So here it is:

Array.prototype.chunk = function ( n ) {
    if ( !this.length ) {
        return [];
    return [ this.slice( 0, n ) ].concat( this.slice(n).chunk(n) );

> [[1,2,3],[4,5,6],[7,8,9],[0]]
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fyi, the performance of this method is O(N^2), so it should not be used in performance-critical sections of code, or with long arrays (specifically, when the array's .length is much greater than the chunk-size n). If this was a lazy language (unlike javascript), this algorithm would not suffer from O(N^2) time. That said, the recursive implementation is elegant. You can probably modify it to improve performance by first defining a helper function that recurses on array,position, then dispatching: Array.prototype.chunk returns [your helper function](...) –  ninjagecko Aug 23 '12 at 1:52
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in coffeescript:

b = (a.splice(0, len) while a.length)

a = [1, 2, 3, 4, 5, 6, 7]

b = (a.splice(0, 2) while a.length)
[ [ 1, 2 ],
  [ 3, 4 ],
  [ 5, 6 ],
  [ 7 ] ]
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Give little bit explanation about your code. –  Sulthan Allaudeen Apr 11 at 10:12
a.splice(0, 2) removes the subarray of a[0..1] from a and returns the subarray a[0..1]. I am making an array of all those arrays –  Arpit Jain Apr 15 at 19:19
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EDIT: @mblase75 added more concise code to the earlier answer while I was writing mine, so I recommend going with his solution.

You could use code like this:

var longArray = ["Element 1","Element 2","Element 3", /*...*/];
var smallerArrays = []; // will contain the sub-arrays of 10 elements each
var arraySize = 10;
for (var i=0;i<Math.ceil(longArray.length/arraySize);i++) {

Change the value of arraySize to change the maximum length of the smaller arrays.

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Ok, let's start with a fairly tight one:

function chunk(arr, n) {
    return arr.slice(0,(arr.length+n-1)/n|0).
           map(function(c,i) { return arr.slice(n*i,n*i+n); });

Which is used like this:

chunk([1,2,3,4,5,6,7], 2);

Then we have this tight reducer function:

function chunker(p, c, i) {
    (p[i/this|0] = p[i/this|0] || []).push(c);
    return p;

Which is used like this:


Since a kitten dies when we bind this to a number, we can do manual currying like this instead:

// Fluent alternative API without prototype hacks.
function chunker(n) {
   return function(p, c, i) {
       (p[i/n|0] = p[i/n|0] || []).push(c);
       return p;

Which is used like this:


Then the still pretty tight function which does it all in one go:

function chunk(arr, n) {
    return arr.reduce(function(p, cur, i) {
        (p[i/n|0] = p[i/n|0] || []).push(cur);
        return p;

chunk([1,2,3,4,5,6,7], 3);
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