# Generating non-repeating random numbers in JS

I have the following function

``````function randomNum(max, used){
newNum = Math.floor(Math.random() * max + 1);

if(\$.inArray(newNum, used) === -1){
console.log(newNum + " is not in array");
return newNum;

}else{
return randomNum(max,used);
}
}
``````

Basically I am creating a random number between 1 - 10 and checking to see if that number has already been created, by adding it to an array and checking the new created number against it. I call it by adding it to a variable..

``````UPDATED:
for(var i=0;i < 10;i++){

randNum = randomNum(10, usedNums);
usedNums.push(randNum);

//do something with ranNum
}
``````

This works, but in Chrome I get the following error:

``````Uncaught RangeError: Maximum call stack size exceeded
``````

Which I guess it's because I am calling the function inside itself too many times. Which means my code is no good.

Can someone help me with the logic? what's a best way to make sure my numbers are not repeating?

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Instead of recursion, you could try using a loop instead. However, you may want to introduce some logic to only check x amount of times. This is commonly known as the halting problem. –  Justin Wood Sep 14 '13 at 20:49

If I understand right then you're just looking for a permutation (i.e. the numbers randomised with no repeats) of the numbers 1-10? Maybe try generating a randomised list of those numbers, once, at the start, and then just working your way through those?

This will calculate a random permutation of the numbers in `nums`:

``````var nums = [1,2,3,4,5,6,7,8,9,10],
ranNums = [],
i = nums.length,
j = 0;

while (i--) {
j = Math.floor(Math.random() * (i+1));
ranNums.push(nums[j]);
nums.splice(j,1);
}
``````

So, for example, if you were looking for random numbers between 1 - 20 that were also even, then you could use:

``````nums = [2,4,6,8,10,12,14,16,18,20];
``````

Then just read through `ranNums` in order to recall the random numbers.

This runs no risk of it taking increasingly longer to find unused numbers, as you were finding in your approach.

EDIT: After reading this and running a test on jsperf, it seems like a much better way of doing this is a Fisher–Yates Shuffle:

``````function shuffle(array) {
var i = array.length,
j = 0,
temp;

while (i--) {

j = Math.floor(Math.random() * (i+1));

// swap randomly chosen element with current element
temp = array[i];
array[i] = array[j];
array[j] = temp;

}

return array;
}

var ranNums = shuffle([1,2,3,4,5,6,7,8,9,10]);
``````

Basically, it's more efficient by avoiding the use of 'expensive' array operations.

BONUS EDIT: Another possibility is using generators (assuming you have support):

``````function* shuffle(array) {

var i = array.length;

while (i--) {
yield array.splice(Math.floor(Math.random() * (i+1)), 1)[0];
}

}
``````

Then to use:

``````var ranNums = shuffle([1,2,3,4,5,6,7,8,9,10]);

ranNums.next().value;    // first random number from array
ranNums.next().value;    // second random number from array
ranNums.next().value;    // etc.
``````

where `ranNums.next().value` will eventually evaluate to `undefined` once you've run through all the elements in the shuffled array.

Overall this won't be as efficient as the Fisher–Yates Shuffle because you're still `splice`-ing an array. But the difference is that you're now doing that work only when you need it rather than doing it all upfront, so depending upon your use case, this might be better.

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This is exactly what I needed. Thanks everyone who replied. I enjoy programing, but takes me a while to get this concepts. Thanks. –  gdaniel Sep 14 '13 at 21:15

The issue is that as you approach saturation you begin to take longer and longer to generate a unique number "randomly". For instance, in the example you provided above the max is 10. Once the used number array contains 8 numbers it can potentially take a long time for the 9th and 10th to be found. This is probably where the maximum call stack error is being generated.

`jsFiddle Demo showing iteration count being maxed`

By iterating inside of your recursion, you can see that a large amount of execution occurs when the array is completely saturated, but the function is called. In this scenario, the function should exit.

`jsFiddle Demo with early break`

``````if( used.length >= max ) return undefined;
``````

And one last way to accomplish both the iteration checks and the infinite recursion would be like this `jsFiddle Demo`:

``````function randomNum(max, used, calls){
if( calls == void 0 ) calls = 0;
if( calls++ > 10000 ) return undefined;
if( used.length >= max ) return undefined;
var newNum = Math.floor(Math.random() * max + 1);
if(\$.inArray(newNum, used) === -1){
return newNum;
}else{
return randomNum(max,used,calls);
}
}
``````
-
Right, I understand that. What's a best way to achieve it then? –  gdaniel Sep 14 '13 at 20:50
@gdaniel - See edits and demos. Basically you should protect against the infinite recursion or a large amount of misses in case a high number is used for max. –  Travis J Sep 14 '13 at 21:02
``````function randomNumbers(max) {
function range(upTo) {
var result = [];
for(var i = 0; i < upTo; i++) result.push(i);
return result;
}
function shuffle(o){
for(var j, x, i = o.length; i; j = Math.floor(Math.random() * i), x = o[--i], o[i] = o[j], o[j] = x);
return o;
}
var myArr = shuffle(range(max));
return function() {
return myArr.shift();
};
}
``````

Built a little test, try this on jsfiddle:

``````var randoms = randomNumbers(10),
rand = randoms(),
result = [];
while(rand != null) {
result.push(rand);
rand = randoms();
}
console.log(result);
``````

Shuffle function courtesy of dzone.com.

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