I was wondering what was the most efficient way to rotate a JavaScript array.

I came up with this solution, where a positive n rotates the array to the right, and a negative n to the left (-length < n < length) :

Array.prototype.rotateRight = function( n ) {
  this.unshift( this.splice( n, this.length ) );

Which can then be used this way:

var months = ["Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec"];
months.rotate( new Date().getMonth() );

My original version above has a flaw, as pointed out by Christoph in the comments bellow, a correct version is (the additional return allows chaining):

Array.prototype.rotateRight = function( n ) {
  this.unshift.apply( this, this.splice( n, this.length ) );
  return this;

Is there a more compact and/or faster solution, possibly in the context of a JavaScript framework? (none of the proposed versions bellow is either more compact or faster)

Is there any JavaScript framework out there with an array rotate built-in? (Still not answered by anyone)

  • 1
    I don’t get what your example should do. Why don’t you just use months[new Date().getMonth()] to get the name of the current month? – Gumbo Dec 31 '09 at 12:59
  • 1
    @Jean: the code is broken: the way you do it, it'll unshift the spliced elements as an array and not individually; you'll have to use apply() to make your implementation work – Christoph Dec 31 '09 at 13:24
  • Today the rotation would modify months to show this list (with Dec in the first position): ["Dec", "Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov"] – Jean Vincent Dec 31 '09 at 13:24
  • @Christoph, you are right, this would not work as a generic rotate function. It only works if used to convert to a string right after. – Jean Vincent Dec 31 '09 at 18:15
  • @Jean: you can fix your version via Array.prototype.unshift.apply(this, this.splice(...)) - my version does the same thing, but uses push() instead of unshift() – Christoph Dec 31 '09 at 19:00

37 Answers 37


Type-safe, generic version which mutates the array:

Array.prototype.rotate = (function() {
    // save references to array functions to make lookup faster
    var push = Array.prototype.push,
        splice = Array.prototype.splice;

    return function(count) {
        var len = this.length >>> 0, // convert to uint
            count = count >> 0; // convert to int

        // convert count to value in range [0, len)
        count = ((count % len) + len) % len;

        // use splice.call() instead of this.splice() to make function generic
        push.apply(this, splice.call(this, 0, count));
        return this;

In the comments, Jean raised the issue that the code doesn't support overloading of push() and splice(). I don't think this is really useful (see comments), but a quick solution (somewhat of a hack, though) would be to replace the line

push.apply(this, splice.call(this, 0, count));

with this one:

(this.push || push).apply(this, (this.splice || splice).call(this, 0, count));

Using unshift() instead of push() is nearly twice as fast in Opera 10, whereas the differences in FF were negligible; the code:

Array.prototype.rotate = (function() {
    var unshift = Array.prototype.unshift,
        splice = Array.prototype.splice;

    return function(count) {
        var len = this.length >>> 0,
            count = count >> 0;

        unshift.apply(this, splice.call(this, count % len, len));
        return this;
  • 2
    Nice caching of Array.prototype methods! +1 – James Dec 31 '09 at 14:17
  • Very nice bullet proof implementation but in general I would prefer to rely on exceptions, or just plain bad responses, for bad usage. This to keep the code clean and fast. It's the responsibility of the user to pass correct parameters or pay the consequences. I don't like the penalty for good users. Other than that this is perfect because it does modify the Array as requested and it does not suffer from the flaw in my implementation which unshifted an array instead of the individual elements as you noted. Returning this is also better to allow chaining. So thanks. – Jean Vincent Dec 31 '09 at 18:25
  • What is the cost of the closure here, just to cache push and splice? – Jean Vincent Dec 31 '09 at 18:29
  • @Jean: well, closures captures the whole scope chain; as long as the outer function is top-level, the impact should be negligible and it's O(1) anyway, whereas looking up the Array methods is O(n) in the number of invocations; optimizing implementations might inline the lookup so there won't be any gain, but with the rather stupid interpreters we've had to deal with for a long time, caching variables in a lower scope could have a significant impact – Christoph Dec 31 '09 at 18:54
  • 1
    This won't rotate large arrays. I checked today and it could handle only an array of 250891 items in length. Apparently the number of arguments you can pass by apply method is limited with a certain call stack size. In ES6 terms the spread operator would also suffer from the same stack size issue. Below i give a map method of doing the same thing. It's slower but works for millions of items. You may also implement map with a simple for or while loop and it will get much faster. – Redu Jun 27 '16 at 10:39

You can use push(), pop(), shift() and unshift() methods:

function arrayRotate(arr, reverse) {
  if (reverse) arr.unshift(arr.pop());
  else arr.push(arr.shift());
  return arr;


arrayRotate([1, 2, 3, 4, 5]);       // [2, 3, 4, 5, 1];
arrayRotate([1, 2, 3, 4, 5], true); // [5, 1, 2, 3, 4];

If you need count argument see my other answer:
https://stackoverflow.com/a/33451102 πŸ–€πŸ§‘πŸ’šπŸ’™πŸ’œ


I would probably do something like this:

Array.prototype.rotate = function(n) {
    n = n % this.length;
    return this.slice(n, this.length).concat(this.slice(0, n));

EditΒ Β Β Β Here’s a mutator version:

Array.prototype.rotate = function(n) {
    n = n % this.length;
    while (this.length && n < 0) n += this.length;
    this.push.apply(this, this.splice(0, n));
    return this;
  • keep in mind that this function keeps the original array unchanged – Christoph Dec 31 '09 at 13:52
  • It needs to modify the original Array (this), just like push, pop, shift, unshift, concat, and splice do. Other than that this is valid. – Jean Vincent Dec 31 '09 at 18:32
  • @Gumbo, why the while loop? We don't need to make n positive, splice works with negative values just as well. For the end, this is right but pretty much Christoph version which got it right first without the overloading caveat. – Jean Vincent Dec 31 '09 at 20:11
  • @Gumbo, correction on my previous comment, negative numbers work only the splice( n. this.length ) version. Using splice( 0, n ) as in your version, requires a positive int. – Jean Vincent Dec 31 '09 at 20:35
  • 2
    I've added n = n % this.length before the return statement to handle negative and/or out of boundary numbers. – iedmrc Jul 20 '20 at 10:49

This function works in both way and works with any number (even with number greater than array length):

function arrayRotate(arr, count) {
  count -= arr.length * Math.floor(count / arr.length);
  arr.push.apply(arr, arr.splice(0, count));
  return arr;


for(let i = -6 ; i <= 6 ; i++) {
  console.log(arrayRotate(["🧑","πŸ’š","πŸ’™","πŸ’œ","πŸ–€"], i), i);


[ "πŸ–€", "🧑", "πŸ’š", "πŸ’™", "πŸ’œ" ]    -6
[ "🧑", "πŸ’š", "πŸ’™", "πŸ’œ", "πŸ–€" ]    -5
[ "πŸ’š", "πŸ’™", "πŸ’œ", "πŸ–€", "🧑" ]    -4
[ "πŸ’™", "πŸ’œ", "πŸ–€", "🧑", "πŸ’š" ]    -3
[ "πŸ’œ", "πŸ–€", "🧑", "πŸ’š", "πŸ’™" ]    -2
[ "πŸ–€", "🧑", "πŸ’š", "πŸ’™", "πŸ’œ" ]    -1
[ "🧑", "πŸ’š", "πŸ’™", "πŸ’œ", "πŸ–€" ]    0
[ "πŸ’š", "πŸ’™", "πŸ’œ", "πŸ–€", "🧑" ]    1
[ "πŸ’™", "πŸ’œ", "πŸ–€", "🧑", "πŸ’š" ]    2
[ "πŸ’œ", "πŸ–€", "🧑", "πŸ’š", "πŸ’™" ]    3
[ "πŸ–€", "🧑", "πŸ’š", "πŸ’™", "πŸ’œ" ]    4
[ "🧑", "πŸ’š", "πŸ’™", "πŸ’œ", "πŸ–€" ]    5
[ "πŸ’š", "πŸ’™", "πŸ’œ", "πŸ–€", "🧑" ]    6
  • Using this function I ran into an issue because it alters the original array. I found some workarounds here: stackoverflow.com/questions/14491405 – ognockocaten Jun 5 '18 at 17:55
  • 1
    @ognockocaten It's not an issue, it's how this function works. if you want to keep original array unaltered, clone it before : var arr2 = arrayRotate(arr.slice(0), 5) – Yukulélé Jun 11 '18 at 14:28
  • This is indeed a great answer, and it helped me. However, providing an alternative that doesn't mutate the original array would be best. Sure it's easy to merely create a copy of the original, this isn't best practice as it uses memory unnecessarily. – Hybrid web dev May 27 '19 at 2:52
  • @Hybridwebdev use const immutatableArrayRotate = (arr, count) => ArrayRotate(arr.clone(), count) – Yukulélé Apr 18 '20 at 11:03

So many of these answers seem over-complicated and difficult to read. I don't think I saw anyone using splice with concat...

function rotateCalendar(){
    var cal=["Jan","Feb","Mar","Apr","May","Jun","Jul","Aug","Sep","Oct","Nov","Dec"],
    cal=cal.concat(cal.splice(0,new Date().getMonth()));
    console.log(cal);  // return cal;

console.log outputs (*generated in May):

["May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec", "Jan", "Feb", "Mar", "Apr"]

As for compactness, I can offer a couple of generic one-liner functions (not counting the console.log | return portion). Just feed it the array and the target value in the arguments.

I combine these functions into one for a four-player card game program where the array is ['N','E','S','W']. I left them separate in case anyone wants to copy/paste for their needs. For my purposes, I use the functions when seeking whose turn is next to play/act during different phases of the game (Pinochle). I haven't bothered testing for speed, so if someone else wants to, feel free to let me know the results.

*notice, the only difference between functions is the "+1".

function rotateToFirst(arr,val){  // val is Trump Declarer's seat, first to play
    console.log(arr); // return arr;
function rotateToLast(arr,val){  // val is Dealer's seat, last to bid
    console.log(arr); // return arr;

combination function...

function rotateArray(arr,val,pos){
    // set pos to 0 if moving val to first position, or 1 for last position
    return arr;
var adjustedArray=rotateArray(['N','E','S','W'],'S',1);


  • :) btw I used it here – Nick Nov 13 '20 at 8:08
  • @Wes Your tit-for-tat critique of my answer provides no reasoning for why concat and splice() should not be used. It appears to be a self-promoting comment which directs researchers from an upvoted answer to a non-upvoted answer. When you have a justification for blowing your whistle, you should include that in your whistleblowing comment. Your new answer makes no attempt to explain itself and it makes no attempt to explain why the technique in my answer should be avoided. I don't see anything wrong with concat&splice for the asked question -- array of unique months, rotate to front. – mickmackusa Jun 20 at 5:15
  • My answer has been updated with more detailed explanation. I made the comment above before you removed your downvote, and I will now delete it, since you rectified the matter. See my solution for the full explanation of concat and splice. In short, they're doing lots of work and each returns a new array. Also, the .indexOf method is an O(n) linear search. So, used inside splice (which is used inside concat), you have nearly an O(n^2) time complexity. It's also really hard to read your code when it's all close together, for what it's worth. Just some thoughts off the top of my head. – WesleyAC Jun 20 at 12:24
  • These functions appear nested, but their return values are passed in to the parent function just once. So, yes, even if they have a big O time complexity of n, they are not iterating in a nested fashion. This means that O(n ^ 2) is a false assertion. If the three functions are O(n), then the total worst case is O(n + n + n). More attractively, the little o time complexity is o(1 + 1 + 1) -- this may be conditionally superior to a mapping/looping technique that performs a conditional evaluation on every single element (o(n) and O(n)). My answer has no iterated conditions. – mickmackusa Jun 20 at 23:31

Using ES6's spread for an immutable example ...

[...array.slice(1, array.length), array[0]]


[array[array.items.length -1], ...array.slice(0, array.length -1)]

It's probably not the most efficient though but it's concise.


Easy solution with slice and destructuring:

const rotate = (arr, count = 1) => {
  return [...arr.slice(count, arr.length), ...arr.slice(0, count)];

const arr = [1,2,3,4,5];

console.log(rotate(arr, 1));  // [2, 3, 4, 5, 1]
console.log(rotate(arr, 2));  // [3, 4, 5, 1, 2]
console.log(rotate(arr, -2)); // [4, 5, 1, 2, 3]
console.log(rotate(arr, -1)); // [5, 1, 2, 3, 4]

  • 2
    This is really nice! You could avoid the need for checking for count === 0 by setting a default value. That would allow you to make this a one-liner: const rotate = (arr, n = 1) => [...arr.slice(n, arr.length), ...arr.slice(0, n)]; – Nick F Sep 15 '20 at 20:29

Here is a very simple way to shift items in an array:

function rotate(array, stepsToShift) {

    for (var i = 0; i < stepsToShift; i++) {

    return array;

When I couldn't find a ready-made snippet to start a list of days with 'today', I did it like this (not quite generic, probably far less refined than the above examples, but did the job):

//returns 7 day names with today first
function startday() {
    const days = ['Sun','Mon','Tue','Wed','Thu','Fri','Sat'];
    let today = new Date();
    let start = today.getDay(); //gets day number
    if (start == 0) { //if Sunday, days are in order
        return days
    else { //if not Sunday, start days with today
        return days.slice(start).concat(days.slice(0,start))

Thanks to a little refactor by a better programmer than me it's a line or two shorter than my initial attempt, but any further comments on efficiency are welcome.


@Christoph, you've done a clean code, but 60% slowest than this one i found. Look at the result on jsPerf : http://jsperf.com/js-rotate-array/2 [Edit] OK now there is more browsers an that not obvious witch methods the best

var rotateArray = function(a, inc) {
    for (var l = a.length, inc = (Math.abs(inc) >= l && (inc %= l), inc < 0 && (inc += l), inc), i, x; inc; inc = (Math.ceil(l / inc) - 1) * inc - l + (l = inc))
    for (i = l; i > inc; x = a[--i], a[i] = a[i - inc], a[i - inc] = x);
    return a;

var array = ['a','b','c','d','e','f','g','h','i'];

console.log(rotateArray(array.slice(), -1)); // Clone array with slice() to keep original
  • @molokocolo Intuitively your solution would run slower as the increment would be higher because you're using a loop. I have updated your test case with an increment of 5 and it does appear to then run slower: jsperf.com/js-rotate-array/3 – Jean Vincent Oct 23 '11 at 11:42
  • I don't figure what is doing rotateArray() function ^^ only that it's work :) (it's a weird code !) Chrome behave nearly the opposite of Firefox... – molokoloco Oct 23 '11 at 17:00
  • This method is very interesting, it works by swapping element references in the array. The array size never changes which is why it is very fast with the drawback of using loops. The interesting thing that it shows is that Firefox is the fastest at loops while chrome is the fastest at arrays manipulations. – Jean Vincent Oct 24 '11 at 9:37
  • 1
    After analyzing the code, I have found a weakness that shows that this solution is only faster for smaller arrays and certain rotation counts: jsperf.com/js-rotate-array/5 Among all browsers the fastest remains Google Chrome with the splice/unshift solution. This means that this is really a matter of Array method optimization that Chrome does better than the other browsers. – Jean Vincent Oct 24 '11 at 18:29

see http://jsperf.com/js-rotate-array/8

function reverse(a, from, to) {
  while (++from < --to) {
    var tmp = a[from];
    a[from] = a[to];
    a[to] = tmp;

function rotate(a, from, to, k) {
  var n = to - from;
  k = (k % n + n) % n;
  if (k > 0) {
    reverse(a, from, from + k);
    reverse(a, from + k, to);
    reverse(a, from, to);
function rotate(arr, k) {
for (var i = 0; i < k+1; i++) {
return arr;
//k work as an index array
console.log(rotate([1, 2, 7, 4, 5, 6, 7], 3)); //[5,6,7,1,2,7,4]
console.log(rotate([-1, -100, 3, 99], 2));     //[99,-1,-100,3]
// Example of array to rotate
let arr = ['E', 'l', 'e', 'p', 'h', 'a', 'n', 't'];

// Getting array length
let length = arr.length;

// rotation < 0 (move left), rotation > 0 (move right)
let rotation = 5;

// Slicing array in two parts
let first  = arr.slice(   (length - rotation) % length, length); //['p', 'h', 'a' ,'n', 't']
let second = arr.slice(0, (length - rotation) % length); //['E', 'l', 'e']

// Rotated element
let rotated = [...first, ...second]; // ['p', 'h', 'a' ,'n', 't', 'E', 'l', 'e']

In one line of code:

let rotated = [...arr.slice((length - rotation) % length, length), ...arr.slice(0, (length - rotation) % length)];
  • Does this technique provide any advantage over my concise "splice with concat" one-liner? – mickmackusa Jun 19 at 6:08
  • What would happen if you have an array with repeated elements? What if you don't know the value of the element to apply the rotation? Using this solution, you don't need to specify the element to apply the rotation. Moreover, depending on the rotation variable, you can rotate to the whole array to the left (rotation < 0) or to the right (rotation > 0). – Erik Martín Jordán Jun 19 at 8:45
  • I ask because with so many answers on this page, researchers may struggle to identify which one they should use in their own project and why. My answer can rely solely on an offset for rotation; indexOf() merely caters to the posted question. – mickmackusa Jun 19 at 13:33
  • So your answer is going beyond the scope of the posted question and answering in a general-use way. – mickmackusa Jun 20 at 5:06

The accepted answer has a flaw of not being able to handle arrays larger than the call stack size which depends on the session but should be around like 100~300K items. For instance, in the current Chrome session that i tried it was 250891. In many cases you may not even know to what size the array might dynamically grow into. So that's a serious problem.

To overcome this limitation, I guess one interesting method is utilizing Array.prototype.map() and mapping the elements by rearranging the indices in a circular fashion. This method takes one integer argument. If this argument is positive it will rotate on increasing indices and if negative on decreasing indices direction. This has only O(n) time complexity and will return a new array without mutating the one it's called upon while handling millions of items without any problem. Let see how it works;

Array.prototype.rotate = function(n) {
var len = this.length;
return !(n % len) ? this
                  : n > 0 ? this.map((e,i,a) => a[(i + n) % len])
                          : this.map((e,i,a) => a[(len - (len - i - n) % len) % len]);
var a = [1,2,3,4,5,6,7,8,9],
    b = a.rotate(2);
    b = a.rotate(-1);

Actually after i have been criticized on two matters as follows;

  1. There is no need for a conditional for positive or negative input since it reveals a violation of DRY .you could do this with one map because every negative n has a positive equivalent (Totally right..)
  2. An Array function should either change the current array or make a new array, your function could do either depending on whether a shift is necessary or not (Totally right..)

I have decided to modify the code as follows;

Array.prototype.rotate = function(n) {
var len = this.length;
return !(n % len) ? this.slice()
                  : this.map((e,i,a) => a[(i + (len + n % len)) % len]);
var a = [1,2,3,4,5,6,7,8,9],
    b = a.rotate(10);
    b = a.rotate(-10);

Then again; of course the JS functors like Array.prototype.map() are slow compared to their equivalents coded in plain JS. In order to gain more than 100% performance boost the following would probably be my choice of Array.prototype.rotate() if i ever need to rotate an array in production code like the one i used in my attempt on String.prototype.diff()

Array.prototype.rotate = function(n){
  var len = this.length,
      res = new Array(this.length);
  if (n % len === 0) return this.slice();
  else for (var i = 0; i < len; i++) res[i] = this[(i + (len + n % len)) % len];
  return res;
  • shift() and splice(), as slow as they might be are actually faster than using map() or any method using a function parameter. shift() and splice() being more declarative are also easier to optimize in the long term. – Jean Vincent Jun 24 '16 at 17:06
  • @Jean Vincent Yes you are right.. map in fact might turn out to be slower yet i believe the ideal rotating logic is this. I just tried to show the logical approach. Map can easily be simplified down with a for loop and would result significant improvement in speed... However the real thing is, the accepted answer has an approach developed with some other languages in mind. It is not ideal for JS.... won't even run when the array size is larger than the call stack size. (in my case and in this session it turned out to be limited with only 250891 items) So there is that..! – Redu Jun 27 '16 at 10:48
  • You are right about the call stack size that apply can exceed, this is a more valid argument than speed, consider editing your answer to emphasize this point with improved indentation too. – Jean Vincent Jun 27 '16 at 19:27

This function is a little faster than the accepted answer for small arrays but MUCH faster for large arrays. This function also allows for an arbitrary number of rotations greater than the length of the array, which is a limitation of the original function.

Lastly, the accepted answer rotates the opposite direction as described.

const rotateForEach = (a, n) => {
    const l = a.length;
    a.slice(0, -n % l).forEach(item => a.push( item ));
    return a.splice(n % l > 0 ? (-n % l) : l + (-n % l));

And the functional equivalent (which seems to also have some performance benefits):

const rotateReduce = (arr, n) => {
    const l = arr.length;
    return arr.slice(0, -n % l).reduce((a,b) => {
        a.push( b );
        return a;
    }, arr).splice(n % l> 0 ? l + (-n % l) : -n % l);

You can check out the performance breakdown here.

  • Unfortunately it does not work, it shrinks down the array to size zero which explains why it is so much faster, after the first run than any other correct implementation, especially on larger arrays. In your benchmark test if you swap the order of tests, and display a.length at the end, you'll see the problem. – Jean Vincent Nov 7 '16 at 17:17

EDIT:: Hey so turns out there's too much iteration happening. No loops, no branching.

Still works with negative n for right rotation and positive n for left rotation for any size n, Mutation free

function rotate(A,n,l=A.length) {
  const offset = (((n % l) + l) %l)
  return A.slice(offset).concat(A.slice(0,offset))

Here's the code golf version for giggles

const r = (A,n,l=A.length,i=((n%l)+l)%l)=>A.slice(i).concat(A.slice(0,i))

EDIT1::* Branchless, mutationless implementation.

So hey, turns out I had a branch where I didn't need it. Here is a working solution. negative num = right rotate by |num| positive num = left rotate by num

function r(A,n,l=A.length) {
  return A.map((x,i,a) => A[(((n+i)%l) + l) % l])

The equation ((n%l) + l) % l maps exactly positive and negative numbers of any arbitrarily large values of n


Rotate left and right. Rotate left with positive n, rotate right with negative n.

Works for obscenely large inputs of n.

No mutation mode. Too much mutation in these answers.

Also, fewer operations than most answers. No pop, no push, no splice, no shift.

const rotate = (A, num ) => {
   return A.map((x,i,a) => {
      const n = num + i
      return n < 0 
        ? A[(((n % A.length) + A.length) % A.length)]
        : n < A.length 
        ? A[n] 
        : A[n % A.length]


 const rotate = (A, num) => A.map((x,i,a, n = num + i) => 
  n < 0
    ? A[(((n % A.length) + A.length) % A.length)]
    : n < A.length 
    ? A[n] 
    : A[n % A.length])

rotate([...Array(5000).keys()],4101)   //left rotation
rotate([...Array(5000).keys()],-4101000)  //right rotation, num is negative

// will print the first index of the array having been rotated by -i
// demonstrating that the rotation works as intended
[...Array(5000).keys()].forEach((x,i,a) => {
// prints even numbers twice by rotating the array by i * 2 and getting the first value
//demonstrates the propper mapping of positive number rotation when out of range
[...Array(5000).keys()].forEach((x,i,a) => {


map each index of A to the value at index offset. In this case

offset = num

if the offset < 0 then offset + index + positive length of A will point to the inverse offset.

if offset > 0 and offset < length of A then simply map the current index to the offset index of A.

Otherwise, modulo the offset and the length to map the offset in the bounds of the array.

Take for instance offset = 4 and offset = -4.

When offset = -4, and A = [1,2,3,4,5], for each index, offset + index will make the magnitude (or Math.abs(offset)) smaller.

Let's explain the calculation for the index of negative n first. A[(((n % A.length) + A.length) % A.length)+0] and been intimidated. Don't be. It took me 3 minutes in a Repl to work it out.

  1. We know n is negative because the case is n < 0. If the number is larger than the range of the Array, n % A.length will map it into the range.
  2. n + A.length add that number to A.length to offset n the correct amount.
  3. We know n is negative because the case is n < 0. n + A.length add that number to A.length to offset n the correct amount.
  4. Next Map it to the range of the length of A using modulo. The second modulous is necessary to map the result of the calculation into an indexable range

    enter image description here

  5. First index: -4 + 0 = -4. A.length = 5. A.length - 4 = 1. A2 is 2. Map index 0 to 2. [2,... ]

  6. Next index, -4 + 1 = -3. 5 + -3 = 2. A2 is 3. Map index 1 to 3. [2,3... ]
  7. Etc.

The same process applies to offset = 4. When offset = -4, and A = [1,2,3,4,5], for each index, offset + index will make the magnitude bigger.

  1. 4 + 0 = 0. Map A[0] to the value at A[4]. [5...]
  2. 4 + 1 = 5, 5 is out of bounds when indexing, so map A2 to the value at the remainder of 5 / 5, which is 0. A2 = value at A[0]. [5,1...]
  3. repeat.

Update Feb 2021

A one-liner functions to perform rotate right and rotate left of array elements.

Rotate Left

const arrRotateLeft = (a,n) =>{while (n>0) {a.push(a.shift());n--;}return a;};

Rotate Right

const arrRotateRight= (a,n) =>{while (n>0) {a.unshift(a.pop());n--;}return a;};

const arrRotateLeft = (a,n)=>{while (n>0) {a.push(a.shift());n--;}return a;};

const arrRotateRight= (a,n)=>{while (n>0) {a.unshift(a.pop());n--;}return a;};

//=========== Test rotate Left =================
console.log(arrRotateLeft([1,2,3,4,5,6],0));       // [1,2,3,4,5,6]   <== rotate in this direction
console.log(arrRotateLeft([1,2,3,4,5,6],1));       // [2,3,4,5,6,1]
console.log(arrRotateLeft([1,2,3,4,5,6],2));       // [3,4,5,6,1,2]
console.log(arrRotateLeft([1,2,3,4,5,6],3));       // [4,5,6,1,2,3]
console.log(arrRotateLeft([1,2,3,4,5,6,7,8],5));   // [6,7,8,1,2,3,4,5]

//=========== Test rotate Right =================
console.log(arrRotateRight([1,2,3,4,5,6],0));      // [1,2,3,4,5,6]   ==> rotate in this direction
console.log(arrRotateRight([1,2,3,4,5,6],1));      // [6,1,2,3,4,5]
console.log(arrRotateRight([1,2,3,4,5,6],2));      // [5,6,1,2,3,4]
console.log(arrRotateRight([1,2,3,4,5,6],3));      // [4,5,6,1,2,3]
console.log(arrRotateRight([1,2,3,4,5,6,7,8],5));  // [4,5,6,7,8,1,2,3]

  • So what is the computational complexity of this? I am not a javascript SME, so I might be misunderstanding your approach. Is this a single loop which calls two functions per iteration? Does this have an advantage over my "splice with concat" approach? Is this just a modification of this earlier answer? stackoverflow.com/a/55757285/2943403 – mickmackusa Jun 19 at 6:11
Follow a simpler approach of running a loop to n numbers and shifting places upto that element.

function arrayRotateOne(arr, n) {
  for (let i = 0; i < n; i++) {
  return arr;
console.log( arrayRotateOne([1,2,3,4,5,6],2));

function arrayRotateOne(arr,n) {
  for(let i=0; i<n;i++){
     return arr;

console.log( arrayRotateOne([1,2,3,4,5,6],2));


Non mutating solution

var arr = ['a','b','c','d']

with mutation

var arr = ['a','b','c','d']
arr = arr.concat(arr.splice(0,1))

I am sharing my solution which I am using for rotating on carousel. It might break when array size is smaller than displayCount, but you could add extra condition to stop rotating when it's small, or concatenating the main array *displayCount times too.

function rotate(arr, moveCount, displayCount) {
  const size = arr.length;

  // making sure startIndex is between `-size` and `size`
  let startIndex = moveCount % size;
  if (startIndex < 0) startIndex += size; 

  return [...arr, ...arr].slice(startIndex, startIndex + displayCount);

// move 3 to the right and display 4 items
// rotate([1,2,3,4,5], 3, 4) -> [4,5,1,2]

// move 3 to the left and display 4 items
// rotate([1,2,3,4,5], -3, 4) -> [3,4,5,1]

// move 11 to the right and display 4
// rotate([1,2,3,4,5], 3, 4) -> [2,3,4,5]

How about incrementing a counter and then getting the remainder of a division by the array length to get where you are supposed to be.

var i = 0;
while (true);
    var position = i % months.length;

Language syntax aside this should work fine.

  • 3
    This does not rotate the Array in any way. – Jean Vincent Dec 31 '09 at 18:33
  • 1
    True (as stated in the answer), but it saves having to rotate the array. – tgandrews Jan 1 '10 at 13:08
  • 2
    But the whole point of this IS to rotate an Array, per the title, not to display an array from a certain offset. If you'd use the same loop to rebuild the new array it would terribly slower than other versions using native Array methods. Plus you forgot to break out of the infinite loop. – Jean Vincent Jan 1 '10 at 17:16

If your array is going to be large and/or you are going to rotate a lot, you might want to consider using a linked list instead of an array.

  • Agreed, but the question pertains to Arrays, and more specifically to extend Array verbs. – Jean Vincent Jan 1 '10 at 10:36

@molokoloco I needed a function that I could configure to rotate in a direction - true for forward and false for backward. I created a snippet that takes a direction, a counter and an array and outputs an object with the counter incremented in the appropriate direction as well as prior, current, and next values. It does NOT modify the original array.

I also clocked it against your snippet and although it is not faster, it is faster than the ones you compare yours with - 21% slower http://jsperf.com/js-rotate-array/7 .

function directionalRotate(direction, counter, arr) {
  counter = direction ? (counter < arr.length - 1 ? counter + 1 : 0) : (counter > 0 ? counter - 1 : arr.length - 1)
  var currentItem = arr[counter]
  var priorItem = arr[counter - 1] ? arr[counter - 1] : arr[arr.length - 1]
  var nextItem = arr[counter + 1] ? arr[counter + 1] : arr[0]
  return {
    "counter": counter,
    "current": currentItem,
    "prior": priorItem,
    "next": nextItem
var direction = true // forward
var counter = 0
var arr = ['a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i'];

directionalRotate(direction, counter, arr)
  • This does not rotate the Array. To answer this question, you need to return an Array where the first item it at counter. – Jean Vincent Nov 20 '12 at 20:58

I am coming late but I have a brick to add to these good answers. I was asked to code such a function and I first did:

Array.prototype.rotate = function(n)
    for (var i = 0; i < n; i++)
    return this;

But it appeared to be less efficient than following when n is big:

Array.prototype.rotate = function(n)
    var l = this.length;// Caching array length before map loop.

    return this.map(function(num, index) {
        return this[(index + n) % l]

I am not sure if this is the most efficient way but I like the way it reads, it's fast enough for most large tasks as I have tested it on production...

function shiftRight(array) {
  return array.map((_element, index) => {
    if (index === 0) {
      return array[array.length - 1]
    } else return array[index - 1]

function test() {
  var input = [{
    name: ''
  }, 10, 'left-side'];
  var expected = ['left-side', {
    name: ''
  }, 10]
  var actual = shiftRight(input)





Native, fast, small, semantic, works on old engines and "curryable".

function rotateArray(offset, array) {
    offset = -(offset % array.length) | 0 // ensure int
    return array.slice(offset).concat(
        array.slice(0, offset)

** Using Latest version of JS we can build it every easily **

 Array.prototype.rotateLeft = function (n) {
   this.unshift(...this.splice(-(n), n));
    return this

here moves: number of rotations ,a Array that you can pass random number

let a = [1, 2, 3, 4, 5, 6, 7];
let moves = 4;
let output = a.rotateLeft(moves);
console.log("Result:", output)

Array in JS has below built in method which can be used to rotate an array quite easily and obviously these methods are immutable in nature.

  • push: Inserts the item to end of the array.
  • pop: Removes the item from the end of the array.
  • unshift: Inserts the item to the beginning of the array.
  • shift: Removes the item from the beginning of the array.

The below solution (ES6) takes two arguments , array needs to be rotated and n , number of times the array should be rotated.

const rotateArray = (arr, n) => {
  while(arr.length && n--) {
  return arr;

rotateArray(['stack', 'overflow', 'is', 'Awesome'], 2) 
// ["is", "Awesome", "stack", "overflow"]

It can be added to Array.prototype and can be used all across your application

Array.prototype.rotate = function(n) {
 while(this.length && n--) {
 return this;
[1,2,3,4].rotate(3); //[2, 3, 4, 1]

Using for loop. Here are the steps

  1. Store first element of array as temp variable.
  2. Then swap from left to right.
  3. Then assign temp variable to last element of array.
  4. Repeat these steps for number of rotations.

function rotateLeft(arr, rotations) {
    let len = arr.length;
    for(let i=0; i<rotations; i++){ 
        let temp = arr[0];
        for(let i=0; i< len; i++){
    return arr;

let arr = [1,2,3,4,5];

let rotations = 3;
let output = rotateLeft(arr, rotations);
console.log("Result Array => ", output);


with es6 syntax

function rotLeft(a, d) {
    const removed = a.splice(0,d);
    return [...a, ...removed];

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