Consider:
var myArray = ['January', 'February', 'March'];
How can I select a random value from this array using JavaScript?
Consider:
var myArray = ['January', 'February', 'March'];
How can I select a random value from this array using JavaScript?
It's a simple one-liner:
const randomElement = array[Math.floor(Math.random() * array.length)];
For example:
const months = ["January", "February", "March", "April", "May", "June", "July"];
const random = Math.floor(Math.random() * months.length);
console.log(random, months[random]);
Math.floor(Math.random(...))
call, which rounds down.
var rand = myArray[Math.random() * myArray.length>>0]
being slightly faster
var rand = myArray[Math.random() * myArray.length | 0]
undefined
as soon as you pass an empty array. It might be helpful to throw an exception in that case.
If you've already got underscore or lodash included in your project you can use _.sample
.
// will return one item randomly from the array
_.sample(['January', 'February', 'March']);
If you need to get more than one item randomly, you can pass that as a second argument in underscore:
// will return two items randomly from the array using underscore
_.sample(['January', 'February', 'March'], 2);
or use the _.sampleSize
method in lodash:
// will return two items randomly from the array using lodash
_.sampleSize(['January', 'February', 'March'], 2);
You may consider defining a function on the Array prototype, in order to create a method [].sample()
which returns a random element.
First, to define the prototype function, place this snippet in your code:
Array.prototype.sample = function(){
return this[Math.floor(Math.random()*this.length)];
}
Later, to sample a random element from the array, just call .sample()
:
[1,2,3,4].sample() //=> a random element
_{I'm releasing these code snippets into the public domain, under the terms of the CC0 1.0 license.}
.sample()
on any array to get a random item
Commented
Jan 23, 2018 at 2:07
~~
is much faster than Math.Floor()
, so when it comes to performance optimization while producing output using UI elements, ~~
wins the game. MORE INFO
var rand = myArray[~~(Math.random() * myArray.length)];
But if you know that the array is going to have millions of elements then you might want to reconsider between Bitwise Operator and Math.Floor()
, as bitwise operators behave weirdly with large numbers. See below example explained with the output.
var number = Math.floor(14444323231.2); // => 14444323231
var number = 14444323231.2 | 0; // => 1559421343
Math.floor
now :)
~
is a bitwise not
, which reverses the 1
s and 0
s in a binary number. As with all bitwise operators, it first converts the number into a 32 bit integer, which all you really want. Using ~~
restores the original as a 32-bit integer.
Math.floor()
, All functions have an overhead which includes storing and restoring the original state. Generally, optimising compilers will look for opportunities to copy the code in place to avoid that overhead, but, with a dynamic language such as JavaScript, it’s harder to predict.
The shortest version:
var myArray = ['January', 'February', 'March'];
var rand = myArray[(Math.random() * myArray.length) | 0]
console.log(rand)
| 0
itself is a bitwise operation that does nothing, but in javascript floats are converted to ints before any bitwise operation. So it's something like how + ''
doesn't really do anything but can be used to convert things to strings.
Commented
Sep 19, 2018 at 7:26
Math.floor
but it is the correct thing to do here. It's an operator so it's faster than Math.floor
if only because at any time while running some code can do Math.floor = someOtherFunction
and they can't do the same for '|'. On the other hand as for Math.floor
and |
being different try Math.floor(-1.5)
vs -1.5 | 0
. By the way you don't need the parentheses. |
has a very low precedence.
Say you want to choose a random item that is different from the last time (not really random, but still a common requirement)...
/**
* Return a random element from an array that is
* different than `last` (as long as the array has > 1 items).
* Return null if the array is empty.
*/
function getRandomDifferent(arr, last = undefined) {
if (arr.length === 0) {
return null;
} else if (arr.length === 1) {
return arr[0];
} else {
let num = 0;
do {
num = Math.floor(Math.random() * arr.length);
} while (arr[num] === last);
return arr[num];
}
}
Implement like this:
const arr = [1,2,3];
const r1 = getRandomDifferent(arr);
const r2 = getRandomDifferent(arr, r1); // r2 is different than r1.
Many of the offered solutions add a method to a specific Array which restricts it's use to just that array. This solution is reusable code that works for any array and can be made type safe.
export function randChoice<T>(arr: Array<T>): T {
return arr[Math.floor(Math.random() * arr.length)]
}
function randChoice(arr) {
return arr[Math.floor(Math.random() * arr.length)]
}
If you have fixed values (like a month name list) and want a one-line solution
var result = ['January', 'February', 'March'][Math.floor(Math.random() * 3)]
The second part of the array is an access operation as described in Why does [5,6,8,7][1,2] = 8 in JavaScript?
Faker.js has many utility functions for generating random test data. It is a good option in the context of a test suite:
const faker = require('faker');
faker.helpers.arrayElement(['January', 'February', 'March']);
As commenters have mentioned, you generally should not use this library in production code.
Faker
which selects a random array element.
Editing Array prototype can be harmful. Here it is a simple function to do the job.
function getArrayRandomElement (arr) {
if (arr && arr.length) {
return arr[Math.floor(Math.random() * arr.length)];
}
// The undefined will be returned if the empty array was passed
}
Usage:
// Example 1
var item = getArrayRandomElement(['January', 'February', 'March']);
// Example 2
var myArray = ['January', 'February', 'March'];
var item = getArrayRandomElement(myArray);
if (arr && arr.length) {
check isn't necessary--indexing out of bounds will return undefined, so this is essentially a micro optimization to avoid a couple of already-optimized function calls for a rare edge case. Once you remove that, this is identical to dozens of existing answers. I suggest deletion.
If you need to fetch a random item more than once, then, obviously you would use a function. One way is to make that function a method of the Array.prototype
, but that will normally get you shouted down for tampering with built in prototypes.
However, you can add the method to the specific array itself:
var months = ['January', 'February', 'March'];
months.random = function() {
return this[Math.floor(Math.random()*this.length)];
};
That way you can use months.random()
as often as you like without interfering with the generic Array.prototype
.
As with any random function, you run the risk of getting the same value successively. If you don’t want that, you will need to track the previous value with another property:
months.random=function() {
var random;
while((random=this[Math.floor(Math.random()*this.length)]) == this.previous);
this.previous=random;
return random;
};
If you’re going to do this sort of thing often, and you don’t want to tamper with Array.prototype
, you can do something like this:
function randomValue() {
return this[Math.floor(Math.random()*this.length)];
}
var data = [ … ];
var moreData = [ … ];
data.random=randomValue;
moreData.random=randomValue;
random
is ever added to the core array, your app will likely break just the same, and it's still unreadable and confusing for other programmers, so it reduces to the same issues as tampering with the prototype. The while
loop you showed will run infinitely if the array length is 1, and avoiding repeated random choices is an unrelated requirement. Basically: future visitors should avoid this answer completely--it's misleading, providing a ton of potential footguns with no syntactical benefits.
To get crypto-strong random item form array use
let rndItem = a=> a[rnd()*a.length|0];
let rnd = ()=> crypto.getRandomValues(new Uint32Array(1))[0]/2**32;
var myArray = ['January', 'February', 'March'];
console.log( rndItem(myArray) )
Additional info from mdn:
Note:
Math.random()
does not provide cryptographically secure random numbers. Do not use them for anything related to security. Use the Web Crypto API instead, and more precisely theCrypto.getRandomValues()
method.
Math.random()
solution? Security, presumably? When should I use it?
Recursive, standalone function which can return any number of items (identical to lodash.sampleSize):
function getRandomElementsFromArray(array, numberOfRandomElementsToExtract = 1) {
const elements = [];
function getRandomElement(arr) {
if (elements.length < numberOfRandomElementsToExtract) {
const index = Math.floor(Math.random() * arr.length)
const element = arr.splice(index, 1)[0];
elements.push(element)
return getRandomElement(arr)
} else {
return elements
}
}
return getRandomElement([...array])
}
This is similar to, but more general than, @Jacob Relkin's solution:
This is ES2015:
const randomChoice = arr => {
const randIndex = Math.floor(Math.random() * arr.length);
return arr[randIndex];
};
The code works by selecting a random number between 0 and the length of the array, then returning the item at that index.
var item = myArray[Math.floor(Math.random()*myArray.length)];
or equivalent shorter version:
var item = myArray[(Math.random()*myArray.length)|0];
Sample code:
var myArray = ['January', 'February', 'March'];
var item = myArray[(Math.random()*myArray.length)|0];
console.log('item:', item);
Simple function:
var myArray = ['January', 'February', 'March'];
function random(array) {
return array[Math.floor(Math.random() * array.length)]
}
random(myArray);
Or:
var myArray = ['January', 'February', 'March'];
function random() {
return myArray[Math.floor(Math.random() * myArray.length)]
}
random();
MyArray.at(MyArray.length*Math.random())
I find this both concise and clear. Requires ES2022.
[].at(float)
floors the float/decimal number returned by .length * Math.random()
, which is why it works. Can you also provide evidence that this is in the spec and can be relied on universally, not an implementation detail?
By adding a method on prototype of array you can get random values easly.
In this example you can get single or multiple random values from array.
You can run to test code by clicking snippet button.
Array.prototype.random = function(n){
if(n&&n>1){
const a = [];
for(let i = 0;i<n;i++){
a.push(this[Math.floor(Math.random()*this.length)]);
}
return a;
} else {
return this[Math.floor(Math.random()*this.length)];
}
}
const mySampleArray = ['a','b','c','d','e','f','g','h'];
mySampleArray.random(); // return any random value etc. 'a', 'b'
mySampleArray.random(3); //retun an array with random values etc: ['b','f','a'] , ['d','b','d']
alert(mySampleArray.random());
alert(mySampleArray.random(3));