# Generate unique number within range (0 - X), keeping a history to prevent duplicates

I ran into the challenge where I need a function that returns a random number within a given range from `0 - X`. Not only that, but I require the number returned to be unique; not duplicating numbers that have already been returned on previous calls to the function.

Optionally, when this is done (e.g. the range has been 'exhausted'), just return a random number within the range.

How would one go about doing this?

• If you're expecting to do this a lot, and `X` isn't too big, you can build an array with the values `0 ... X` and then shuffle it. You can then just iterate though the array to get the random values, and re-shuffle when you reach the end. Aug 4, 2012 at 12:50

This should do it:

``````function makeRandomRange(x) {
var used = new Array(x),
exhausted = false;
return function getRandom() {
var random = Math.floor(Math.random() * x);
if (exhausted) {
return random;
} else {
for (var i=0; i<x; i++) {
random = (random + 1) % x;
if (random in used)
continue;
used[random] = true;
return random;
}
// no free place found
exhausted = true;
used = null; // free memory
return random;
}
};
}
``````

Usage:

``````var generate = makeRandomRange(20);

var x1 = generate(),
x2 = generate(),
...
``````

Although it works, it has no good performance when the x-th random is generated - it searches the whole list for a free place. This algorithm, a step-by-step Fisher–Yates shuffle, from the question Unique (non-repeating) random numbers in O(1)?, will perform better:

``````function makeRandomRange(x) {
var range = new Array(x),
pointer = x;
return function getRandom() {
pointer = (pointer-1+x) % x;
var random = Math.floor(Math.random() * pointer);
var num = (random in range) ? range[random] : random;
range[random] = (pointer in range) ? range[pointer] : pointer;
return range[pointer] = num;
};
}
``````

Extended version which does only generate one "group" of unique numbers:

``````function makeRandomRange(x) {
var range = new Array(x),
pointer = x;
return function getRandom() {
if (range) {
pointer--;
var random = Math.floor(Math.random() * pointer);
var num = (random in range) ? range[random] : random;
range[random] = (pointer in range) ? range[pointer] : pointer;
range[pointer] = num;
if (pointer <= 0) { // first x numbers had been unique
range = null; // free memory;
}
return num;
} else {
return Math.floor(Math.random() * x);
}
};
}
``````

(Demo)

• Works great! (and fast for large ranges), however it does not continue to produce random numbers after the initial unique ones have been created. I may be wrong, but your code outputs only a fixed amount. In my specific case I need an unlimited supply of random numbers within range 0-X, whenever the user presses the button and only the first X have to be unique. Aug 4, 2012 at 15:18
• No, it steadily produces random numbers in the range `0-X`. And if the output is grouped by every X numbers, in every of the groups you won't find duplicates. This "overfulfills" your requirement that only the first group (results 0 to X-1) needs to be unique. Aug 4, 2012 at 15:35
• Yes, now I see. But wouldn't clearing the 'NumHistory' array in my function do the same? Aug 4, 2012 at 15:49
• Frankly told, I don't really understand your approach. How can you pass in a different range each time the `generate` method is called? Is that a needed feature or a bug? Aug 4, 2012 at 16:03
• The amount is influenced by other scripts Aug 4, 2012 at 16:11

You got some great programming answer. Here's one with a more theoretical flavor to complete your panorama :-)

Your problem is called "sampling" or "subset sampling" and there are several ways you could do this. Let `N` be the range you are sampling frame (i.e., `N=X+1`) and `M` be the size of your sample (the number of elements you want to pick).

• if `N` is much larger than `M`, you'll want to use an algorithm such as the one suggested by Bentley and Floyd in his column "Programming Pearls: a sample of brilliance" (temporarily available without ACM's lock screen here), I really recommend this as they explicitly give code and discuss in terms of hash tables, etc.; there a few neat tricks in there

• if `N` is within the same range as `M`, then you might want to use the Fisher-Yates shuffle but stop after only `M` steps (instead of `N`)

• if you don't really know then the algorithm on page 647 of Devroye's book on random generation is pretty fast.

I wrote this function. It keeps its own array with a history of generated numbers, preventing initial duplicates, continuing to output a random number if all numbers in the range have been outputted once:

``````// Generates a unique number from a range
// keeps track of generated numbers in a history array
// if all numbers in the range have been returned once, keep outputting random numbers within the range
var UniqueRandom = { NumHistory: new Array(), generate: function(maxNum) {
var current = Math.round(Math.random()*(maxNum-1));
if (maxNum > 1 && this.NumHistory.length > 0) {
if (this.NumHistory.length != maxNum) {
while(\$.inArray(current, this.NumHistory) != -1) { current = Math.round(Math.random()*(maxNum-1)); }
this.NumHistory.push(current);
return current;
} else {
//unique numbers done, continue outputting random numbers, or we could reset the history array (NumHistory = [];)
return current;
}
} else {
//first time only
this.NumHistory.push(current);
return current;
}
}
};
``````

Here's a working Fiddle

I hope this is of use to someone!

Edit: as pointed out by Pointy below, it might get slow with a large range (here is a fiddle, going over a range from 0-1000, which seems to run fine). However; I didn't require a very large range, so perhaps this function is indeed not suited if you look to generate and keep track of an enormous range.

• This probably works fine, but it's not very efficient. If X is large this will get really slow after not too long. Aug 4, 2012 at 12:56
• Good point. I really don't know how it will handle large ranges. I have edited my answer with a link to a fiddle that generates unique values within a range from 0-1000 using a setTimeout. It seems to run fine, but that is probably due to the processing power of my machine Aug 4, 2012 at 13:09
• The problem is not in the range of numbers but the amount of numbers which you will generate. It will take O(n^2) time to generate n numbers. You should use an Object (`{}`) instead of an array and store the already taken numbers as keys. Aug 4, 2012 at 13:13
• JS Arrays are Objects (hash tables with string keys) and the lookup time by key is O(1) for both (pretty much instant). But in this case you are doing a lookup by value which is a for loop that checks all of the values 1 by 1. Aug 4, 2012 at 13:44
• According to this and this question there doesn't seem to be a way to create unique random numbers in O(1) time per number for variable intervals. So I guess there's not gonna be a better solution unless maxNum is a constant. Aug 4, 2012 at 14:20

You may try generating the number using the current date and time value which would make it unique. To make it within the range, you may have to use some mathematical function.