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I have a scenario where I need to show a different page to a user for the same url based on a probability distribution,

so for e.g. for 3 pages the distribution might be

page 1 - 30% of all users
page 2 - 50% of all users
page 3 - 20% of all users

When deciding what page to load for a given user, what technique can I use to ensure that the overall distribution matches the above?

I am thinking I need a way to choose an object at "random" from a set X { x1, x2....xn } except that instead of all objects being equally likely the probability of an object being selected is defined beforehand.

Thanks for the input everyone, after doing some prototyping, this is what I ended up using

private static int RandomIndexWithPercentage(Random random, int[] percentages) {
    if (random == null) {
        throw new ArgumentNullException("random");

    if (percentages == null || percentages.Length == 0) {
        throw new ArgumentException("percentages cannot be null or empty", "percentages");

    if(percentages.Sum() != 100) {
        throw new ArgumentException("percentages should sum upto 100");

    if (percentages.Any(n => n < 0)) {
        throw new ArgumentException("percentages should be non-negative");

    var randomNumber = random.Next(100);
    var sum = 0;
    for (int i = 0; i < percentages.Length; ++i) {
        sum += percentages[i];
        if (sum > randomNumber) {
            return i;

    //This should not be reached, because randomNumber < 100 and sum will hit 100 eventually
    throw new Exception("Unexpected");
share|improve this question
How strict is your use of the term "ensure" here? Obviously if we just pick numbers at random you're not ensuring that 30% of your users will land on Page1 - you're merely stacking the odds in favor of that outcome. Is the complexity here that you have to guarantee that for any set of N users, the page distribution will absolutely be within a very small margin of error of your target percentages? – Andrew Anderson Jun 11 '10 at 20:57
That's a good point Andrew, this test runs for a couple of days so I don't need a tight margin for any set of N users. Is there an algorithm that will provide minimum variation from this distribution for all values of N? – Sijin Jun 11 '10 at 21:07
You could adapt the algorithm to bias itself depending on which users are on which pages, but it would be a lot more overhead for very little payoff. The best way to do that would be not use random numbers at all - if 3 users are viewing page one, 4 are viewing page two, and 2 are viewing page three, place the next user on page two (obviously). If another user comes, place him in page two as well, because it's the largest pool - so a single additional user there would impact your overall distribution the least. – dlras2 Jun 11 '10 at 21:14
Andrew and cyclotis04 are right. Going probability wise won't give you what you want (if you want exact distribution). Say you just had 2 pages and wanted to get 50% users on pg1 and 50% on pg2. If you selected pages randomly (with 50%) chance, then after n trials, the expected value of |number_pg1 - number_pg2| is sqrt(n). Not zero as you think it would. Check out 1-d random walk. – Aryabhatta Jun 11 '10 at 23:03
Of course, if you are willing to live with approximate distribution of users, then this should be fine for large number of page serves. For instance, in the above 2 page case, for n=10000 we get expected 4950 vs 5050. For n=100, it becomes 45 vs 55. – Aryabhatta Jun 11 '10 at 23:10

1 Answer 1

up vote 4 down vote accepted

Generate a number 0-9. If the number is less than 3, give them page one. If it's less than 8, give them page two, or else give them page three.

Some code, to get you started:

private int ChoosePage()
    int[] weights = new int[] { 3, 5, 2 };
    int sum = 0;
    int i;
    for (i = 0; i < weights.Length; i++)
        sum += weights[i];
    int selection = (new Random()).Next(sum);
    int count = 0;
    for (i = 0; i < weights.Length - 1; i++)
        count += weights[i];
        if (selection < count)
            return i;
    return weights.Length - 1;

Note that weights doesn't have to add up to anything in particular. If sum = 100, then weight[i] is th percent chance of getting page i. If it doesn't, however, it's just relative - if weight[i] is twice weight[j], then page i will get twice as many hits as page j. This is nice because you can arbitrarily increase or decrease page traffic without recalculating anything. Alternatively, you could make sure the sum is always N, and hardcode N in, rather than summing all the values every time. There are a lot more optimizations you could do, I'm sure.

share|improve this answer
I think number between 0-100 would be better to take care of percentages like 19 which would end up in decimal land if i try to translate to the 0-10 range. – Sijin Jun 11 '10 at 20:54
See my edit - all percentages are converted to weights, anyways, so whether it's out of 10 or 100 is irrelevant, if that's how you choose to do it. (If you need %s, then yes - stick with 100.) – dlras2 Jun 11 '10 at 20:58
Also note you shouldn't do (new Random()) for every random number - it should probably be initialized once then stored in a class variable somewhere. – dlras2 Jun 11 '10 at 21:18
Yup, I saw the issue with (new Random()) when testing, so I take that as a parameter to the function now and initialize that at a global level for the entire run. Thanks. – Sijin Jun 11 '10 at 22:22

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