I have an array like this:
var arr1 = ["a", "b", "c", "d"];
How can I randomize / shuffle it?
I have an array like this:
var arr1 = ["a", "b", "c", "d"];
How can I randomize / shuffle it?
The de-facto unbiased shuffle algorithm is the Fisher-Yates (aka Knuth) Shuffle.
See https://github.com/coolaj86/knuth-shuffle
You can see a great visualization here (and the original post linked to this)
function shuffle(array) {
var currentIndex = array.length, temporaryValue, randomIndex;
// While there remain elements to shuffle...
while (0 !== currentIndex) {
// Pick a remaining element...
randomIndex = Math.floor(Math.random() * currentIndex);
currentIndex -= 1;
// And swap it with the current element.
temporaryValue = array[currentIndex];
array[currentIndex] = array[randomIndex];
array[randomIndex] = temporaryValue;
}
return array;
}
// Used like so
var arr = [2, 11, 37, 42];
arr = shuffle(arr);
console.log(arr);
Some more info about the algorithm used.
i--
not --i
. Also, the test if (i==0)...
is superfluous since if i == 0
the while loop will never be entered. The call to Math.floor
can be done faster using ...| 0
. Either tempi or tempj can be removed and the value be directly assigned to myArray[i] or j as appropriate.
– RobG
Jun 8 '11 at 7:21
Here is a JavaScript implementation of the Durstenfeld shuffle, a computer-optimized version of Fisher-Yates:
/**
* Randomize array element order in-place.
* Using Durstenfeld shuffle algorithm.
*/
function shuffleArray(array) {
for (var i = array.length - 1; i > 0; i--) {
var j = Math.floor(Math.random() * (i + 1));
var temp = array[i];
array[i] = array[j];
array[j] = temp;
}
}
The Fisher-Yates algorithm works by picking one random element for each original array element, and then excluding it from the next draw. Just like randomly picking from a deck of cards.
This exclusion is done in a clever way (invented by Durstenfeld for use by computers) by swapping the picked element with the current element, and then picking the next random element from the remainder. For optimal efficiency, the loop runs backwards so that the random pick is simplified (it can always start at 0), and it skips the last element because there are no other choices anymore.
The running time of this algorithm is O(n). Note that the shuffle is done in-place. So if you do not want to modify the original array, make a copy of it first with .slice(0)
.
The new ES6 allows us to assign two variables at once. This is especially handy when we want to swap the values of two variables, as we can do it in one line of code. Here is a shorter form of the same function, using this feature.
function shuffleArray(array) {
for (let i = array.length - 1; i > 0; i--) {
const j = Math.floor(Math.random() * (i + 1));
[array[i], array[j]] = [array[j], array[i]];
}
}
return array
since JavaScript passes arrays by reference when used as function arguments. I assume this is to save on stack space, but it's an interesting little feature. Performing the shuffle on the array will shuffle the original array.
– Joel Trauger
Aug 9 '16 at 13:31
Math.random() should not be multiplied with the loop counter + 1, but with
array.lengt()`. See Generating random whole numbers in JavaScript in a specific range? for a very comprehensive explanation.
– Marjan Venema
Dec 18 '16 at 20:17
[community edit: This answer is incorrect; see comments. It is being left here for future reference because the idea is not that rare.]
[1,2,3,4,5,6].sort(function() {
return .5 - Math.random();
});
One could (or should) use it as a protoype from Array:
From ChristopheD:
Array.prototype.shuffle = function() {
var i = this.length, j, temp;
if ( i == 0 ) return this;
while ( --i ) {
j = Math.floor( Math.random() * ( i + 1 ) );
temp = this[i];
this[i] = this[j];
this[j] = temp;
}
return this;
}
for...in
loops to iterate over arrays.
– Conor O'Brien
Nov 7 '15 at 3:27
Use the underscore.js library. The method _.shuffle()
is nice for this case.
Here is an example with the method:
var _ = require("underscore");
var arr = [1,2,3,4,5,6];
// Testing _.shuffle
var testShuffle = function () {
var indexOne = 0;
var stObj = {
'0': 0,
'1': 1,
'2': 2,
'3': 3,
'4': 4,
'5': 5
};
for (var i = 0; i < 1000; i++) {
arr = _.shuffle(arr);
indexOne = _.indexOf(arr, 1);
stObj[indexOne] ++;
}
console.log(stObj);
};
testShuffle();
shuffle
function.
– Blender
Jun 8 '13 at 20:42
You can do it easily with map and sort:
let unshuffled = ['hello', 'a', 't', 'q', 1, 2, 3, {cats: true}]
let shuffled = unshuffled
.map((a) => ({sort: Math.random(), value: a}))
.sort((a, b) => a.sort - b.sort)
.map((a) => a.value)
You can shuffle polymorphic arrays, and the sort is as random as Math.random, which is good enough for most purposes.
Since the elements are sorted against consistent keys that are not regenerated each iteration, and each comparison pulls from the same distribution, any non-randomness in the distribution of Math.random is canceled out.
NEW!
Shorter & probably *faster Fisher-Yates shuffle algorithm
function fy(a,b,c,d){//array,placeholder,placeholder,placeholder
c=a.length;while(c)b=Math.random()*(--c+1)|0,d=a[c],a[c]=a[b],a[b]=d
}
script size (with fy as function name): 90bytes
DEMO http://jsfiddle.net/vvpoma8w/
*faster probably on all browsers except chrome.
If you have any questions just ask.
EDIT
yes it is faster
PERFORMANCE: http://jsperf.com/fyshuffle
using the top voted functions.
EDIT There was a calculation in excess (don't need --c+1) and noone noticed
shorter(4bytes)&faster(test it!).
function fy(a,b,c,d){//array,placeholder,placeholder,placeholder
c=a.length;while(c)b=Math.random()*c--|0,d=a[c],a[c]=a[b],a[b]=d
}
Caching somewhere else var rnd=Math.random
and then use rnd()
would also increase slightly the performance on big arrays.
http://jsfiddle.net/vvpoma8w/2/
Readable version (use the original version. this is slower, vars are useless, like the closures & ";", the code itself is also shorter ... maybe read this How to 'minify' Javascript code , btw you are not able to compress the following code in a javascript minifiers like the above one.)
function fisherYates( array ){
var count = array.length,
randomnumber,
temp;
while( count ){
randomnumber = Math.random() * count-- | 0;
temp = array[count];
array[count] = array[randomnumber];
array[randomnumber] = temp
}
}
Edit: This answer is incorrect
See comments and https://stackoverflow.com/a/18650169/28234. It is being left here for reference because the idea isn't rare.
A very simple way for small arrays is simply this:
const someArray = [1, 2, 3, 4, 5];
someArray.sort(() => Math.random() - 0.5);
It's probably not very efficient, but for small arrays this works just fine. Here's an example so you can see how random (or not) it is, and whether it fits your usecase or not.
const resultsEl = document.querySelector('#results');
const buttonEl = document.querySelector('#trigger');
const generateArrayAndRandomize = () => {
const someArray = [0, 1, 2, 3, 4, 5, 6, 7, 8, 9];
someArray.sort(() => Math.random() - 0.5);
return someArray;
};
const renderResultsToDom = (results, el) => {
el.innerHTML = results.join(' ');
};
buttonEl.addEventListener('click', () => renderResultsToDom(generateArrayAndRandomize(), resultsEl));
<h1>Randomize!</h1>
<button id="trigger">Generate</button>
<p id="results">0 1 2 3 4 5 6 7 8 9</p>
Solutions could be shortened using ES6 syntax.
Shuffle Array In place
const shuffledArr = array => {
for (let i = array.length - 1; i > 0; i--) {
const rand = Math.floor(Math.random() * (i + 1));
[array[i], array[rand]] = [array[rand], array[i]]
}
}
Pure
const getShuffledArr = arr => {
const newArr = arr.slice()
for (let i = newArr.length - 1; i > 0; i--) {
const rand = Math.floor(Math.random() * (i + 1));
[newArr[i], newArr[rand]] = [newArr[rand], newArr[i]];
}
return newArr
};
I personally use this function as it is pure, relatively simple, and according to my tests on Google Chrome the most efficient (compared to other pure versions).
Reliability and Performance Test
As you can see in this page, there have been incorrect solutions offered here in the past. The following function tests any pure (no side effects) array randomizing function. I used it to test all the options presented in this answer.
function testShuffledArrayFun(getShuffledArrayFun){
const arr = [0,1,2,3,4,5,6,7,8,9]
let countArr = arr.map(el=>{
return arr.map(
el=> 0
)
}) // For each possible position in the shuffledArr and for
// each possible value, we'll create a counter.
const t0 = performance.now()
const n = 1000000
for (let i=0 ; i<n ; i++){
// We'll call getShuffledArrayFun n times.
// And for each iteration, we'll increment the counter.
const shuffledArr = getShuffledArrayFun(arr)
shuffledArr.forEach(
(value,key)=>{countArr[key][value]++}
)
}
const t1 = performance.now()
console.log(`Count Values in position`)
console.table(countArr)
const frequencyArr = countArr.map( positionArr => (
positionArr.map(
count => count/n
)
))
console.log("Frequency of value in position")
console.table(frequencyArr)
console.log(`total time: ${t1-t0}`)
}
Other es6 solutions, just for fun.
Pure, Recursive
const getShuffledArr = arr => {
if (arr.length === 1) {return arr};
const rand = Math.floor(Math.random() * arr.length);
return [arr[rand], ...getShuffledArr(arr.filter((_, i) => i != rand))];
};
Pure using array.map
const getShuffledArr = arr => [...arr].map(
(_, i, arrCopy) => {
var rand = i + ( Math.floor( Math.random() * (arrCopy.length - i) ) );
[arrCopy[rand], arrCopy[i]] = [arrCopy[i], arrCopy[rand]]
return arrCopy[i]
}
)
Pure using array.reduce
const getShuffledArr = arr => arr.reduce(
(newArr, _, i) => {
var rand = i + ( Math.floor( Math.random() * (newArr.length - i) ) );
[newArr[rand], newArr[i]] = [newArr[i], newArr[rand]]
return newArr
}, [...arr]
)
Typescript - type for a pure array randomizing function
type GetShuffledArr = <T>(arr:ReadonlyArray<T>) => Array<T>
[array[i], array[rand]]=[array[rand], array[i]]
? Maybe you can outline how that works. Why do you choose to iterate downwards?
– sheriffderek
Sep 11 '17 at 19:00
//one line solution
shuffle = (array) => array.sort(() => Math.random() - 0.5);
//Demo
let arr = [1, 2, 3];
shuffle(arr);
alert(arr);
https://javascript.info/task/shuffle
Math.random() - 0.5
is a random number that may be positive or negative, so the sorting function reorders elements randomly.
Adding to @Laurens Holsts answer. This is 50% compressed.
function shuffleArray(d) {
for (var c = d.length - 1; c > 0; c--) {
var b = Math.floor(Math.random() * (c + 1));
var a = d[c];
d[c] = d[b];
d[b] = a;
}
return d
};
var b =
in a loop instead of declaring b outside loop and assigning it with b =
in a loop?
– Alex K
Oct 28 '13 at 9:51
With ES2015 you can use this one:
Array.prototype.shuffle = function() {
let m = this.length, i;
while (m) {
i = (Math.random() * m--) >>> 0;
[this[m], this[i]] = [this[i], this[m]]
}
return this;
}
Usage:
[1, 2, 3, 4, 5, 6, 7].shuffle();
n >>> 0
instead of ~~n
. Array indices can be higher than 2³¹-1.
– Oriol
Jul 24 '16 at 3:46
I found this variant hanging out in the "deleted by author" answers on a duplicate of this question. Unlike some of the other answers that have many upvotes already, this is:
shuffled
name rather than shuffle
)Here's a jsfiddle showing it in use.
Array.prototype.shuffled = function() {
return this.map(function(n){ return [Math.random(), n] })
.sort().map(function(n){ return n[1] });
}
[1,2,3,4,5,6].sort(function() { return .5 - Math.random(); });
- it doesn't give a random sort, and if you use it you can end up embarrassed: robweir.com/blog/2010/02/microsoft-random-browser-ballot.html
– Daniel Martin
Jul 14 '15 at 22:58
.sort(function(a,b){ return a[0] - b[0]; })
if you want the sort to compare values numerically. The default .sort()
comparator is lexicographic, meaning it will consider 10
to be less than 2
since 1
is less than 2
.
– 4castle
Nov 10 '17 at 14:39
var shuffle = function(array) {
temp = [];
originalLength = array.length;
for (var i = 0; i < originalLength; i++) {
temp.push(array.splice(Math.floor(Math.random()*array.length),1));
}
return temp;
};
You can do it easily with:
// array
var fruits = ["Banana", "Orange", "Apple", "Mango"];
// random
fruits.sort(function(a, b){return 0.5 - Math.random()});
// out
console.log(fruits);
Please reference at JavaScript Sorting Arrays
A recursive solution:
function shuffle(a,b){
return a.length==0?b:function(c){
return shuffle(a,(b||[]).concat(c));
}(a.splice(Math.floor(Math.random()*a.length),1));
};
Update: Here I'm suggesting a relatively simple (not from complexity perspective) and short algorithm that will do just fine with small sized arrays, but it's definitely going to cost a lot more than the classic Durstenfeld algorithm when you deal with huge arrays. You can find the Durstenfeld in one of the top replies to this question.
Original answer:
If you don't wish your shuffle function to mutate the source array, you can copy it to a local variable, then do the rest with a simple shuffling logic.
function shuffle(array) {
var result = [], source = array.concat([]);
while (source.length) {
let index = Math.floor(Math.random() * source.length);
result.push(source[index]);
source.splice(index, 1);
}
return result;
}
Shuffling logic: pick up a random index, then add the corresponding element to the result array and delete it from the source array copy. Repeat this action until the source array gets empty.
And if you really want it short, here's how far I could get:
function shuffle(array) {
var result = [], source = array.concat([]);
while (source.length) {
let index = Math.floor(Math.random() * source.length);
result.push(source.splice(index, 1)[0]);
}
return result;
}
splice
being a horribly inefficient way to do what they called "striking out". If you don't want to mutate the original array, then just copy it, and then shuffle that copy in place using the much more efficient Durstenfeld variant.
– user9315861
Jul 9 '18 at 4:49
splice
method to create a copy like so: source = array.slice();
.
– Taiga
Apr 21 at 12:14
Fisher-Yates shuffle in javascript. I'm posting this here because the use of two utility functions (swap and randInt) clarifies the algorithm compared to the other answers here.
function swap(arr, i, j) {
// swaps two elements of an array in place
var temp = arr[i];
arr[i] = arr[j];
arr[j] = temp;
}
function randInt(max) {
// returns random integer between 0 and max-1 inclusive.
return Math.floor(Math.random()*max);
}
function shuffle(arr) {
// For each slot in the array (starting at the end),
// pick an element randomly from the unplaced elements and
// place it in the slot, exchanging places with the
// element in the slot.
for(var slot = arr.length - 1; slot > 0; slot--){
var element = randInt(slot+1);
swap(arr, element, slot);
}
}
First of all, have a look here for a great visual comparison of different sorting methods in javascript.
Secondly, if you have a quick look at the link above you'll find that the random order
sort seems to perform relatively well compared to the other methods, while being extremely easy and fast to implement as shown below:
function shuffle(array) {
var random = array.map(Math.random);
array.sort(function(a, b) {
return random[array.indexOf(a)] - random[array.indexOf(b)];
});
}
Edit: as pointed out by @gregers, the compare function is called with values rather than indices, which is why you need to use indexOf
. Note that this change makes the code less suitable for larger arrays as indexOf
runs in O(n) time.
Array.prototype.sort
passes in two values as a
and b
, not the index. So this code doesn't work.
– gregers
Mar 29 '16 at 13:34
yet another implementation of Fisher-Yates, using strict mode:
function shuffleArray(a) {
"use strict";
var i, t, j;
for (i = a.length - 1; i > 0; i -= 1) {
t = a[i];
j = Math.floor(Math.random() * (i + 1));
a[i] = a[j];
a[j] = t;
}
return a;
}
All the other answers are based on Math.random() which is fast but not suitable for cryptgraphic level randomization.
The below code is using the well known Fisher-Yates
algorithm while utilizing Web Cryptography API
for cryptographic level of randomization.
var d = [1,2,3,4,5,6,7,8,9,10];
function shuffle(a) {
var x, t, r = new Uint32Array(1);
for (var i = 0, c = a.length - 1, m = a.length; i < c; i++, m--) {
crypto.getRandomValues(r);
x = Math.floor(r / 65536 / 65536 * m) + i;
t = a [i], a [i] = a [x], a [x] = t;
}
return a;
}
console.log(shuffle(d));
Modern short inline solution using ES6 features:
['a','b','c','d'].map(x => [Math.random(), x]).sort(([a], [b]) => a - b).map(([_, x]) => x);
(for educational purposes)
Just to have a finger in the pie. Here i present a recursive implementation of Fisher Yates shuffle (i think). It gives uniform randomness.
Note: The ~~
(double tilde operator) is in fact behaves like Math.floor()
for positive real numbers. Just a short cut it is.
var shuffle = a => a.length ? a.splice(~~(Math.random()*a.length),1).concat(shuffle(a))
: a;
console.log(JSON.stringify(shuffle([0,1,2,3,4,5,6,7,8,9])));
A simple modification of CoolAJ86's answer that does not modify the original array:
/**
* Returns a new array whose contents are a shuffled copy of the original array.
* @param {Array} The items to shuffle.
* https://stackoverflow.com/a/2450976/1673761
* https://stackoverflow.com/a/44071316/1673761
*/
const shuffle = (array) => {
let currentIndex = array.length;
let temporaryValue;
let randomIndex;
const newArray = array.slice();
// While there remains elements to shuffle...
while (currentIndex) {
randomIndex = Math.floor(Math.random() * currentIndex);
currentIndex -= 1;
// Swap it with the current element.
temporaryValue = newArray[currentIndex];
newArray[currentIndex] = newArray[randomIndex];
newArray[randomIndex] = temporaryValue;
}
return newArray;
};
Though there are a number of implementations already advised but I feel we can make it shorter and easier using forEach loop, so we don't need to worry about calculating array length and also we can safely avoid using a temporary variable.
var myArr = ["a", "b", "c", "d"];
myArr.forEach((val, key) => {
randomIndex = Math.ceil(Math.random()*(key + 1));
myArr[key] = myArr[randomIndex];
myArr[randomIndex] = val;
});
// see the values
console.log('Shuffled Array: ', myArr)
the shortest arrayShuffle
function
function arrayShuffle(o) {
for(var j, x, i = o.length; i; j = parseInt(Math.random() * i), x = o[--i], o[i] = o[j], o[j] = x);
return o;
}
From a theoretical point of view, the most elegant way of doing it, in my humble opinion, is to get a single random number between 0 and n!-1 and to compute a one to one mapping from {0, 1, …, n!-1}
to all permutations of (0, 1, 2, …, n-1)
. As long as you can use a (pseudo-)random generator reliable enough for getting such a number without any significant bias, you have enough information in it for achieving what you want without needing several other random numbers.
When computing with IEEE754 double precision floating numbers, you can expect your random generator to provide about 15 decimals. Since you have 15!=1,307,674,368,000 (with 13 digits), you can use the following functions with arrays containing up to 15 elements and assume there will be no significant bias with arrays containing up to 14 elements. If you work on a fixed-size problem requiring to compute many times this shuffle operation, you may want to try the following code which may be faster than other codes since it uses Math.random
only once (it involves several copy operations however).
The following function will not be used, but I give it anyway; it returns the index of a given permutation of (0, 1, 2, …, n-1)
according to the one to one mapping used in this message (the most natural one when enumerating permuations); it is intended to work with up to 16 elements:
function permIndex(p) {
var fact = [1, 1, 2, 6, 24, 120, 720, 5040, 40320, 362880, 3628800, 39916800, 479001600, 6227020800, 87178291200, 1307674368000];
var tail = [];
var i;
if (p.length == 0) return 0;
for(i=1;i<(p.length);i++) {
if (p[i] > p[0]) tail.push(p[i]-1);
else tail.push(p[i]);
}
return p[0] * fact[p.length-1] + permIndex(tail);
}
The reciprocal of the previous function (required for your own question) is below; it is intended to work with up to 16 elements; it returns the permutation of order n of (0, 1, 2, …, s-1)
:
function permNth(n, s) {
var fact = [1, 1, 2, 6, 24, 120, 720, 5040, 40320, 362880, 3628800, 39916800, 479001600, 6227020800, 87178291200, 1307674368000];
var i, j;
var p = [];
var q = [];
for(i=0;i<s;i++) p.push(i);
for(i=s-1; i>=0; i--) {
j = Math.floor(n / fact[i]);
n -= j*fact[i];
q.push(p[j]);
for(;j<i;j++) p[j]=p[j+1];
}
return q;
}
Now, what you want merely is:
function shuffle(p) {
var fact = [1, 1, 2, 6, 24, 120, 720, 5040, 40320, 362880, 3628800, 39916800, 479001600, 6227020800, 87178291200, 1307674368000, 20922789888000];
return permNth(Math.floor(Math.random()*fact[p.length]), p.length).map(
function(i) { return p[i]; });
}
It should work for up to 16 elements with a little theoretical bias (though unnoticeable from a practical point of view); it can be seen as fully usable for 15 elements; with arrays containing less than 14 elements, you can safely consider there will be absolutely no bias.
Funny enough there was no non mutating recursive answer:
var shuffle = arr => {
const recur = (arr,currentIndex)=>{
console.log("What?",JSON.stringify(arr))
if(currentIndex===0){
return arr;
}
const randomIndex = Math.floor(Math.random() * currentIndex);
const swap = arr[currentIndex];
arr[currentIndex] = arr[randomIndex];
arr[randomIndex] = swap;
return recur(
arr,
currentIndex - 1
);
}
return recur(arr.map(x=>x),arr.length-1);
};
var arr = [1,2,3,4,5,[6]];
console.log(shuffle(arr));
console.log(arr);
Randomize array using array.splice()
function shuffleArray(array) {
var temp = [];
var len=array.length;
while(len){
temp.push(array.splice(Math.floor(Math.random()*array.length),1)[0]);
len--;
}
return temp;
}
//console.log("Here >>> "+shuffleArray([4,2,3,5,8,1,0]));
Array.prototype.shuffle=function(){
var len = this.length,temp,i
while(len){
i=Math.random()*len-- |0;
temp=this[len],this[len]=this[i],this[i]=temp;
}
return this;
}
n >>> 0
instead of n | 0
. Array indices can be higher than 2³¹-1.
– Oriol
Aug 11 '16 at 21:39