How can I generate some unique random numbers between 1 and 100 using JavaScript?

22Not really a dupe as this is focusing on javascript.– dottyMar 4 '10 at 14:41

2@dotty well there's no essential difference between doing this in Javascript and doing it in any other language, but I won't vote to close.– PointyMar 4 '10 at 14:56

1I won't vote to close either. This is specific enough.– Josh StodolaMar 4 '10 at 14:59

1stackoverflow.com/q/4353830/419436– JanDec 26 '10 at 21:58

1There is another cleaner way to do this stackoverflow.com/questions/51898200/…– HuangismAug 17 '18 at 15:45
For example: To generate 8 unique random numbers and store them to an array, you can simply do this:
var arr = [];
while(arr.length < 8){
var r = Math.floor(Math.random() * 100) + 1;
if(arr.indexOf(r) === 1) arr.push(r);
}
console.log(arr);

18Actual code is so much better for such questions than pseudocode ;) (deleted my answer that was pseudocode...) Mar 4 '10 at 14:47

3

15

45Wow. Naive seems a bit strong. It may not be the best solution, but it's simple, short, easy to see what's going on, and runs within acceptable operating parameters for what needs to be accomplished. On to the next task. Perfection is great, but 'done' is better than 'perfect'.– adam0101Mar 4 '10 at 17:03

4There is a chance the function returns a 0 in the array. According to this link: developer.mozilla.org/enUS/docs/Web/JavaScript/Reference/…, Math.random()
Returns a random number between 0 (inclusive) and 1 (exclusive)
. Ifthe Math.random()
accidentally returns 0, theMath.ceil(0)
is also 0, though the chance is low. Apr 22 '15 at 9:58
 Populate an array with the numbers 1 through 100.
 Shuffle it.
 Take the first 8 elements of the resulting array.

9surely it's more efficient to tweak the code to only do the first 8 shuffles? (and then take the last 8 elements of the semishuffled array)– secondMar 5 '10 at 10:06

1This is how I always do it, too. So if I wanted ten random lines from a file with a bunch of lines in it, I do
randlines file  head 10
.– tchristSep 9 '12 at 19:38 
1I think is is the proper answer, because it maintains the probability distrubtion, which the accepted answer does not Mar 23 '17 at 22:51

2

2@shinzou in the real world you wouldn't sort 10^12 numbers using JavaScript. A tirival question calls for a trivial answer. I am not here to solve world hunger. I am wellequipped to do that, but that is not what the question is about. May 28 '18 at 22:35
Modern JS Solution using Set (and average case O(n))
const nums = new Set();
while(nums.size !== 8) {
nums.add(Math.floor(Math.random() * 100) + 1);
}
console.log([...nums]);


@AnthonyWieser You're right, worst case. I was implying average case since Set.add is o(1)– AlisterOct 13 '18 at 10:31

I think this could return 0 like my answer used to before it was changed to use
Math.floor(Math.random()*100) + 1
– adam0101Nov 13 '18 at 15:48 
Very cool to discover
Set
in JS! However, wouldn't this solution cause unnecessary generation of numbers until one fits the requirement of uniqueness, especially in the last iterations, if 8 was closer to 100? Thus I think I prefer the alsoelegant answer withsort
below. May 6 '20 at 21:45
Another approach is to generate an 100 items array with ascending numbers and sort it randomly. This leads actually to a really short and (in my opinion) simple snippet.
const numbers = Array(100).fill().map((_, index) => index + 1);
numbers.sort(() => Math.random()  0.5);
console.log(numbers.slice(0, 8));

This is my favorite answer of them all. Dunno why it got only 6 votes. Elegant and with good complexity (provided
sort
is implemented well, which I'm sure it is). May 6 '20 at 21:43 
This is the method I'm using for a while, but there's a problem with it, because you'll often get "pseudo randomized arrays" which will already have grouped and sorted items at some parts. But there's a way for improve it.– NoxFlyJan 20 '21 at 11:04
Generate permutation of 100 numbers and then choose serially.
Use Knuth Shuffle(aka the FisherYates shuffle) Algorithm.
JavaScript:
function fisherYates ( myArray,stop_count ) {
var i = myArray.length;
if ( i == 0 ) return false;
int c = 0;
while ( i ) {
var j = Math.floor( Math.random() * ( i + 1 ) );
var tempi = myArray[i];
var tempj = myArray[j];
myArray[i] = tempj;
myArray[j] = tempi;
// Edited thanks to Frerich Raabe
c++;
if(c == stop_count)return;
}
}
EDIT:
Improved code:
function fisherYates(myArray,nb_picks)
{
for (i = myArray.length1; i > 1 ; i)
{
var r = Math.floor(Math.random()*i);
var t = myArray[i];
myArray[i] = myArray[r];
myArray[r] = t;
}
return myArray.slice(0,nb_picks);
}
Potential problem:
Suppose we have array of 100 numbers {e.g. [1,2,3...100]} and we stop swapping after 8 swaps; then most of the times array will look like {1,2,3,76,5,6,7,8,...numbers here will be shuffled ...10}.
Because every number will be swapped with probability 1/100 so prob. of swapping first 8 numbers is 8/100 whereas prob. of swapping other 92 is 92/100.
But if we run algorithm for full array then we are sure (almost)every entry is swapped.
Otherwise we face a question : which 8 numbers to choose?

5This approach is correct but suboptimal: you could stop shuffling after eight swaps, since you need only eight random numbers. The code above swaps the entire array (in this scenario, 100 elements). Mar 4 '10 at 15:56

The code could be seriously improved. Return values, side effects and function usage are all really blurry IMO. Maybe if you write a function that answers the original problem exactly, using your fisherYates function, it would be clearer. Mar 4 '10 at 18:50

1Answer updated with improved code. Also, @Frerich Raabe: problem with stopping after eight swaps is mentioned. Mar 5 '10 at 5:51

Your FisherYates algorithm is wrong. r should depend on i. See my anwser: stackoverflow.com/questions/2380019/… Mar 5 '10 at 8:56

Ooops sorry my horrible mistake!! Your implementation is cool. Liked it. +1 . Please let me know if anything else is wrong with it.Thanks. Mar 5 '10 at 9:37
The above techniques are good if you want to avoid a library, but depending if you would be alright with a library, I would suggest checking out Chance for generating random stuff in JavaScript.
Specifically to solve your question, using Chance it's as easy as:
// One line!
var uniques = chance.unique(chance.natural, 8, {min: 1, max: 100});
// Print it out to the document for this snippet so we can see it in action
document.write(JSON.stringify(uniques));
<script src="http://chancejs.com/chance.min.js"></script>
Disclaimer, as the author of Chance, I am a bit biased ;)


if I want to make a code (8 random alphanumeric string) for coupons, which has to be unique, how can I do it with Chance.js? note: the coupons will be made on demand, so the number of codes will be indefinite Jan 12 '15 at 7:04

@OscarYuandinata that's easy, just do
var codes = chance.unique(chance.string, 8)
If you need the codes pulled from a particular character pool, you can specify that like this:chance.unique(chance.string, 8, {pool: "abcd1234"})
where abcd1234 can be any characters you want in the pool. See chancejs.com/#string Jan 16 '15 at 0:43 
@VictorQuinn, sorry i didn't make myself clear. I mean the coupon code will be 8 characters random alphanumeric string, not an array of 8 random alphanumeric string. hahaha.. Jan 16 '15 at 4:04

Oh @OscarYuandinata that's far easier heh
chance.string({ length: 8 })
and if you only want certain characters to appear in that string,chance.string({ pool: 'abcd1234', length: 8 })
which would return a random 8 character string from the characters abcd1234, so for example "2c2c44bc" or "331141cc" Jan 16 '15 at 20:15
To avoid any long and unreliable shuffles, I'd do the following...
 Generate an array that contains the number between 1 and 100, in order.
 Generate a random number between 1 and 100
 Look up the number at this index in the array and store in your results
 Remove the elemnt from the array, making it one shorter
 Repeat from step 2, but use 99 as the upper limit of the random number
 Repeat from step 2, but use 98 as the upper limit of the random number
 Repeat from step 2, but use 97 as the upper limit of the random number
 Repeat from step 2, but use 96 as the upper limit of the random number
 Repeat from step 2, but use 95 as the upper limit of the random number
 Repeat from step 2, but use 94 as the upper limit of the random number
 Repeat from step 2, but use 93 as the upper limit of the random number
Voila  no repeated numbers.
I may post some actual code later, if anybody is interested.
Edit: It's probably the competitive streak in me but, having seen the post by @Alsciende, I couldn't resist posting the code that I promised.
<!DOCTYPE HTML PUBLIC "//W3C//DTD HTML 3.2 Final//EN">
<html>
<head>
<title>8 unique random number between 1 and 100</title>
<script type="text/javascript" language="Javascript">
function pick(n, min, max){
var values = [], i = max;
while(i >= min) values.push(i);
var results = [];
var maxIndex = max;
for(i=1; i <= n; i++){
maxIndex;
var index = Math.floor(maxIndex * Math.random());
results.push(values[index]);
values[index] = values[maxIndex];
}
return results;
}
function go(){
var running = true;
do{
if(!confirm(pick(8, 1, 100).sort(function(a,b){return a  b;}))){
running = false;
}
}while(running)
}
</script>
</head>
<body>
<h1>8 unique random number between 1 and 100</h1>
<p><button onclick="go()">Click me</button> to start generating numbers.</p>
<p>When the numbers appear, click OK to generate another set, or Cancel to stop.</p>
</body>

But then your eighth number is random from 1 to 92, not 1 to 100. If you had to pick 90 numbers, your last number would only be picked from 1 to 10, wouldn't it?– adam0101Mar 4 '10 at 16:05

@adam0101 No, because he removes numbers as he picks them. So in step 5, there are only 99 numbers in his array. @belugabob You are not more efficient than Knuth Shuffle. In fact, the splice is probably more expensive than the shuffle (which is perfectly reliable) Mar 4 '10 at 16:11

@adam0101: He's removing the chosen element from the array (see step 4 above), thus avoiding that any elements gets chosen twice. He then uses a lower upper bound for the next random number, simply because the array is shorter. Mar 4 '10 at 16:12

@Alsciende, Yes  thought that there would be a way of doing this more efficiently using a shuffle, but wasn't completely sure. To to avoid deleting the item from the array, simply copy the last entry from the array (providing it wasn't the one that you picked) into the position which you picked from. Mar 4 '10 at 16:24

1The reason for not decrementing values.length, is that there is no guarantee that decreasing the length of an array is not done by reallocating memory. Using maxIndex has the same effect, by simply ignoring the last entries in the array, as they become irrelevant. Mar 5 '10 at 9:12
I would do this:
function randomInt(min, max) {
return Math.round(min + Math.random()*(maxmin));
}
var index = {}, numbers = [];
for (var i=0; i<8; ++i) {
var number;
do {
number = randomInt(1, 100);
} while (index.hasOwnProperty("_"+number));
index["_"+number] = true;
numbers.push(number);
}
delete index;
This is a very generic function I have written to generate random unique/nonunique integers for an array. Assume the last parameter to be true in this scenario for this answer.
/* Creates an array of random integers between the range specified
len = length of the array you want to generate
min = min value you require
max = max value you require
unique = whether you want unique or not (assume 'true' for this answer)
*/
function _arrayRandom(len, min, max, unique) {
var len = (len) ? len : 10,
min = (min !== undefined) ? min : 1,
max = (max !== undefined) ? max : 100,
unique = (unique) ? unique : false,
toReturn = [], tempObj = {}, i = 0;
if(unique === true) {
for(; i < len; i++) {
var randomInt = Math.floor(Math.random() * ((max  min) + min));
if(tempObj['key_'+ randomInt] === undefined) {
tempObj['key_'+ randomInt] = randomInt;
toReturn.push(randomInt);
} else {
i;
}
}
} else {
for(; i < len; i++) {
toReturn.push(Math.floor(Math.random() * ((max  min) + min)));
}
}
return toReturn;
}
Here the 'tempObj' is a very useful obj since every random number generated will directly check in this tempObj if that key already exists, if not, then we reduce the i by one since we need 1 extra run since the current random number already exists.
In your case, run the following
_arrayRandom(8, 1, 100, true);
That's all.
Shuffling the numbers from 1 to 100 is the right basic strategy, but if you need only 8 shuffled numbers, there's no need to shuffle all 100 numbers.
I don't know Javascript very well, but I believe it's easy to create an array of 100 nulls quickly. Then, for 8 rounds, you swap the n'th element of the array (n starting at 0) with a randomly selected element from n+1 through 99. Of course, any elements not populated yet mean that the element would really have been the original index plus 1, so that's trivial to factor in. When you're done with the 8 rounds, the first 8 elements of your array will have your 8 shuffled numbers.
var arr = []
while(arr.length < 8){
var randomnumber=Math.ceil(Math.random()*100)
if(arr.indexOf(randomnumber) === 1){arr.push(randomnumber)}
}
document.write(arr);
shorter than other answers I've seen
Implementing this as a generator makes it pretty nice to work with. Note, this implementation differs from ones that require the entire input array to be shuffled first.
This
sample
function works lazily, giving you 1 random item per iteration up toN
items you ask for. This is nice because if you just want 3 items from a list of 1000, you don't have to touch all 1000 items first.
// sample :: Integer > [a] > [a]
const sample = n => function* (xs) {
let ys = xs.slice(0);
let len = xs.length;
while (n > 0 && len > 0) {
let i = (Math.random() * len) >> 0;
yield ys.splice(i,1)[0];
n; len;
}
}
// example inputs
let items = ['a', 'b', 'c', 'd', 'e', 'f', 'g'];
let numbers = [0, 1, 2, 3, 4, 5, 6, 7, 8, 9];
// get 3 random items
for (let i of sample(3) (items))
console.log(i); // f g c
// partial application
const lotto = sample(3);
for (let i of lotto(numbers))
console.log(i); // 3 8 7
// shuffle an array
const shuffle = xs => Array.from(sample (Infinity) (xs))
console.log(shuffle(items)) // [b c g f d e a]
I chose to implement sample
in a way that does not mutate the input array, but you could easily argue that a mutating implementation is favourable.
For example, the shuffle
function might wish to mutate the original input array. Or you might wish to sample from the same input at various times, updating the input each time.
// sample :: Integer > [a] > [a]
const sample = n => function* (xs) {
let len = xs.length;
while (n > 0 && len > 0) {
let i = (Math.random() * len) >> 0;
yield xs.splice(i,1)[0];
n; len;
}
}
// deal :: [Card] > [Card]
const deal = xs => Array.from(sample (2) (xs));
// setup a deck of cards (13 in this case)
// cards :: [Card]
let cards = 'A234567890JQK'.split('');
// deal 6 players 2 cards each
// players :: [[Card]]
let players = Array.from(Array(6), $=> deal(cards))
console.log(players);
// [K, J], [6, 0], [2, 8], [Q, 7], [5, 4], [9, A]
// `cards` has been mutated. only 1 card remains in the deck
console.log(cards);
// [3]
sample
is no longer a pure function because of the array input mutation, but in certain circumstances (demonstrated above) it might make more sense.
Another reason I chose a generator instead of a function that just returns an array is because you may want to continue sampling until some specific condition.
Perhaps I want the first prime number from a list of 1,000,000 random numbers.
 "How many should I sample?" – you don't have to specify
 "Do I have to find all the primes first and then select a random prime?" – Nope.
Because we're working with a generator, this task is trivial
const randomPrimeNumber = listOfNumbers => {
for (let x of sample(Infinity) (listOfNumbers)) {
if (isPrime(x))
return x;
}
return NaN;
}
This will continuously sample 1 random number at a time, x
, check if it's prime, then return x
if it is. If the list of numbers is exhausted before a prime is found, NaN
is returned.
Note:
This answer was originally shared on another question that was closed as a duplicate of this one. Because it's very different from the other solutions provided here, I've decided to share it here as well
var numbers = [];
for (let i = 0; i < 8; i++) {
let a = true,
n;
while(a) {
n = Math.floor(Math.random() * 100) + 1;
a = numbers.includes(n);
}
numbers.push(n);
}
console.log(numbers);
Same permutation algorithm as The Machine Charmer, but with a prototyped implementation. Better suited to large number of picks. Uses js 1.7 destructuring assignment if available.
// swaps elements at index i and j in array this
// swapping is easy on js 1.7 (feature detection)
Array.prototype.swap = (function () {
var i=0, j=1;
try { [i,j]=[j,i]; }
catch (e) {}
if(i) {
return function(i,j) {
[this[i],this[j]] = [this[j],this[i]];
return this;
}
} else {
return function(i,j) {
var temp = this[i];
this[i] = this[j];
this[j] = temp;
return this;
}
}
})();
// shuffles array this
Array.prototype.shuffle = function() {
for(var i=this.length; i>1; i) {
this.swap(i1, Math.floor(i*Math.random()));
}
return this;
}
// returns n unique random numbers between min and max
function pick(n, min, max) {
var a = [], i = max;
while(i >= min) a.push(i);
return a.shuffle().slice(0,n);
}
pick(8,1,100);
Edit: An other proposition, better suited to small number of picks, based on belugabob's answer. To guarantee uniqueness, we remove the picked numbers from the array.
// removes n random elements from array this
// and returns them
Array.prototype.pick = function(n) {
if(!n  !this.length) return [];
var i = Math.floor(this.length*Math.random());
return this.splice(i,1).concat(this.pick(n1));
}
// returns n unique random numbers between min and max
function pick(n, min, max) {
var a = [], i = max;
while(i >= min) a.push(i);
return a.pick(n);
}
pick(8,1,100);

Nice recursive implementation  I've posted an alternative, in my answer, that doesn't use splice, as I feel that this is an avoidable performance hit (Not that the OP had any issues with performance) Mar 5 '10 at 8:53

Your solution is clever, but I won't use it in my Array#pick method because I don't want this to have its elements shuffled around when I return it. Mar 5 '10 at 9:17

Which array do you not want to be shuffled, the original 1100 array or the results? The former shouldn't matter, as it's a working array, and the latter will, by the nature of the code, come out in a random order anyway. Not quite sure that I understand your reasons. Mar 5 '10 at 14:12

The original one. I implemented a generic Array#pick method, which I find useful. This function doesn't know if this is a working array or not. To be generic, it doesn't alter this more than necessary. Mar 5 '10 at 14:28

But it still alters it, even if only a little, which is unaviodable when using this technique. Mar 5 '10 at 17:16
for arrays with holes like this [,2,,4,,6,7,,]
because my problem was to fill these holes. So I modified it as per my need :)
the following modified solution worked for me :)
var arr = [,2,,4,,6,7,,]; //example
while(arr.length < 9){
var randomnumber=Math.floor(Math.random()*9+1);
var found=false;
for(var i=0;i<arr.length;i++){
if(arr[i]==randomnumber){found=true;break;}
}
if(!found)
for(k=0;k<9;k++)
{if(!arr[k]) //if it's empty !!MODIFICATION
{arr[k]=randomnumber; break;}}
}
alert(arr); //outputs on the screen
The best earlier answer is the answer by sje397
. You will get as good random numbers as you can get, as quick as possible.
My solution is very similar to his solution. However, sometimes you want the random numbers in random order, and that is why I decided to post an answer. In addition, I provide a general function.
function selectKOutOfN(k, n) {
if (k>n) throw "k>n";
var selection = [];
var sorted = [];
for (var i = 0; i < k; i++) {
var rand = Math.floor(Math.random()*(n  i));
for (var j = 0; j < i; j++) {
if (sorted[j]<=rand)
rand++;
else
break;
}
selection.push(rand);
sorted.splice(j, 0, rand);
}
return selection;
}
alert(selectKOutOfN(8, 100));
Here is my ES6 version I cobbled together. I'm sure it can be a little more consolidated.
function randomArray(i, min, max) {
min = Math.ceil(min);
max = Math.floor(max);
let arr = Array.from({length: i}, () => Math.floor(Math.random()* (max  min)) + min);
return arr.sort();
}
let uniqueItems = [...new Set(randomArray(8, 0, 100))]
console.log(uniqueItems);
How about using object properties as a hash table? This way your best scenario is to only randomize 8 times. It would only be effective if you want a small part of the range of numbers. It's also much less memory intensive than FisherYates because you don't have to allocate space for an array.
var ht={}, i=rands=8;
while ( i>0  keys(ht).length<rands) ht[Math.ceil(Math.random()*100)]=i;
alert(keys(ht));
I then found out that Object.keys(obj) is an ECMAScript 5 feature so the above is pretty much useless on the internets right now. Fear not, because I made it ECMAScript 3 compatible by adding a keys function like this.
if (typeof keys == "undefined")
{
var keys = function(obj)
{
props=[];
for (k in ht) if (ht.hasOwnProperty(k)) props.push(k);
return props;
}
}
var bombout=0;
var checkArr=[];
var arr=[];
while(arr.length < 8 && bombout<100){
bombout++;
var randomNumber=Math.ceil(Math.random()*100);
if(typeof checkArr[randomNumber] == "undefined"){
checkArr[randomNumber]=1;
arr.push(randomNumber);
}
}
// untested  hence bombout
if you need more unique you must generate a array(1..100).
var arr=[];
function generateRandoms(){
for(var i=1;i<=100;i++) arr.push(i);
}
function extractUniqueRandom()
{
if (arr.length==0) generateRandoms();
var randIndex=Math.floor(arr.length*Math.random());
var result=arr[randIndex];
arr.splice(randIndex,1);
return result;
}
function extractUniqueRandomArray(n)
{
var resultArr=[];
for(var i=0;i<n;i++) resultArr.push(extractUniqueRandom());
return resultArr;
}
above code is faster:
extractUniqueRandomArray(50)=>
[2, 79, 38, 59, 63, 42, 52, 22, 78, 50, 39, 77, 1, 88, 40, 23, 48, 84, 91, 49, 4, 54, 93, 36, 100, 82, 62, 41, 89, 12, 24, 31, 86, 92, 64, 75, 70, 61, 67, 98, 76, 80, 56, 90, 83, 44, 43, 47, 7, 53]
Adding another better version of same code (accepted answer) with JavaScript 1.6 indexOf function. Do not need to loop thru whole array every time you are checking the duplicate.
var arr = []
while(arr.length < 8){
var randomnumber=Math.ceil(Math.random()*100)
var found=false;
if(arr.indexOf(randomnumber) > 1){found=true;}
if(!found)arr[arr.length]=randomnumber;
}
Older version of Javascript can still use the version at top
PS: Tried suggesting an update to the wiki but it was rejected. I still think it may be useful for others.
This is my personal solution :
<script>
var i, k;
var numbers = new Array();
k = Math.floor((Math.random()*8));
numbers[0]=k;
for (var j=1;j<8;j++){
k = Math.floor((Math.random()*8));
i=0;
while (i < numbers.length){
if (numbers[i] == k){
k = Math.floor((Math.random()*8));
i=0;
}else {i++;}
}
numbers[j]=k;
}
for (var j=0;j<8;j++){
alert (numbers[j]);
}
</script>
It randomly generates 8 unique array values (between 0 and 7), then displays them using an alert box.
function getUniqueRandomNos() {
var indexedArrayOfRandomNo = [];
for (var i = 0; i < 100; i++) {
var randNo = Math.random();
indexedArrayOfRandomNo.push([i, randNo]);
}
indexedArrayOfRandomNo.sort(function (arr1, arr2) {
return arr1[1]  arr2[1]
});
var uniqueRandNoArray = [];
for (i = 0; i < 8; i++) {
uniqueRandNoArray.push(indexedArrayOfRandomNo[i][0]);
}
return uniqueRandNoArray;
}
I think this method is different from methods given in most of the answers, so I thought I might add an answer here (though the question was asked 4 years ago).
We generate 100 random numbers, and tag each of them with numbers from 1 to 100. Then we sort these tagged random numbers, and the tags get shuffled randomly. Alternatively, as needed in this question, one could do away with just finding top 8 of the tagged random numbers. Finding top 8 items is cheaper than sorting the whole array.
One must note here, that the sorting algorithm influences this algorithm. If the sorting algorithm used is stable, there is slight bias in favor of smaller numbers. Ideally, we would want the sorting algorithm to be unstable and not even biased towards stability (or instability) to produce an answer with perfectly uniform probability distribution.
This can handle generating upto 20 digit UNIQUE random number
JS
var generatedNumbers = [];
function generateRandomNumber(precision) { // input > number precision in integer
if (precision <= 20) {
var randomNum = Math.round(Math.random().toFixed(precision) * Math.pow(10, precision));
if (generatedNumbers.indexOf(randomNum) > 1) {
if (generatedNumbers.length == Math.pow(10, precision))
return "Generated all values with this precision";
return generateRandomNumber(precision);
} else {
generatedNumbers.push(randomNum);
return randomNum;
}
} else
return "Number Precision shoould not exceed 20";
}
generateRandomNumber(1);
This solution uses the hash which is much more performant O(1) than checking if the resides in the array. It has extra safe checks too. Hope it helps.
function uniqueArray(minRange, maxRange, arrayLength) {
var arrayLength = (arrayLength) ? arrayLength : 10
var minRange = (minRange !== undefined) ? minRange : 1
var maxRange = (maxRange !== undefined) ? maxRange : 100
var numberOfItemsInArray = 0
var hash = {}
var array = []
if ( arrayLength > (maxRange  minRange) ) throw new Error('Cannot generate unique array: Array length too high')
while(numberOfItemsInArray < arrayLength){
// var randomNumber = Math.floor(Math.random() * (maxRange  minRange + 1) + minRange)
// following line used for performance benefits
var randomNumber = (Math.random() * (maxRange  minRange + 1) + minRange) << 0
if (!hash[randomNumber]) {
hash[randomNumber] = true
array.push(randomNumber)
numberOfItemsInArray++
}
}
return array
}
document.write(uniqueArray(1, 100, 8))
You can also do it with a one liner like this:
[...((add, set) => add(set, add))((set, add) => set.size < 8 ? add(set.add(Math.floor(Math.random()*100) + 1), add) : set, new Set())]
getRandom (min, max) {
return Math.floor(Math.random() * (max  min)) + min
}
getNRandom (min, max, n) {
const numbers = []
if (min > max) {
return new Error('Max is gt min')
}
if (min === max) {
return [min]
}
if ((max  min) >= n) {
while (numbers.length < n) {
let rand = this.getRandom(min, max + 1)
if (numbers.indexOf(rand) === 1) {
numbers.push(rand)
}
}
}
if ((max  min) < n) {
for (let i = min; i <= max; i++) {
numbers.push(i)
}
}
return numbers
}
Using a Set
is your fastest option. Here is a generic function for getting a unique random that uses a callback generator. Now it's fast and reusable.
// Get a unique 'anything'
let unique = new Set()
function getUnique(generator) {
let number = generator()
while (!unique.add(number)) {
number = generator()
}
return number;
}
// The generator. Return anything, not just numbers.
const between_1_100 = () => 1 + Math.floor(Math.random() * 100)
// Test it
for (var i = 0; i < 8; i++) {
const aNumber = getUnique(between_1_100)
}
// Dump the 'stored numbers'
console.log(Array.from(unique))
This is a implementation of Fisher Yates/Durstenfeld Shuffle, but without actual creation of a array thus reducing space complexity or memory needed, when the pick size is small compared to the number of elements available.
To pick 8 numbers from 100, it is not necessary to create a array of 100 elements.
Assuming a array is created,
 From the end of array(100), get random number(
rnd
) from 1 to 100  Swap 100 and the random number
rnd
 Repeat step 1 with array(99)
If a array is not created, A hashMap may be used to remember the actual swapped positions. When the second random number generated is equal to the one of the previously generated numbers, the map provides the current value in that position rather than the actual value.
const getRandom_ = (start, end) => {
return Math.floor(Math.random() * (end  start + 1)) + start;
};
const getRealValue_ = (map, rnd) => {
if (map.has(rnd)) {
return getRealValue_(map, map.get(rnd));
} else {
return rnd;
}
};
const getRandomNumbers = (n, start, end) => {
const out = new Map();
while (n) {
const rnd = getRandom_(start, end);
out.set(getRealValue_(out, rnd), end + 1);
}
return [...out.keys()];
};
console.info(getRandomNumbers(8, 1, 100));
console.info(getRandomNumbers(8, 1, Math.pow(10, 12)));
console.info(getRandomNumbers(800000, 1, Math.pow(10, 15)));
Here is an example of random 5 numbers taken from a range of 0 to 100 (both 0 and 100 included) with no duplication.
let finals = [];
const count = 5; // Considering 5 numbers
const max = 100;
for(let i = 0; i < max; i++){
const rand = Math.round(Math.random() * max);
!finals.includes(rand) && finals.push(rand)
}
finals = finals.slice(0, count)