# Generating well-distributed random numbers

I have a set of 455 items from which I select at most 160 items randomly, with replacement. First I seed with `srand()` and then use `rand()` to select each number. I observe that in my selections of up to 160 items, I tend to see at least 10 items selected more than once. This seems to indicate that the random numbers are not evenly distributed.

Is there a way to have more evenly distributed random numbers?

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You (and your "senior", whatever that means) are confusing random with unique. You can get 4 all day long and the generator can still be perfectly random. –  Blindy Nov 28 '11 at 5:38
@Blindy I think it's safe to assume that his first language is not English. You don't have to be mean about it. –  awfullyjohn Nov 28 '11 at 5:40
@Blindy That's not entirely correct. Pseudo-random generators may be inefficient/bad, especially when combined with an inexperienced coder. I understand the point you're trying to make, but it is not answering the specific question asked. –  littleadv Nov 28 '11 at 5:40
There's a big difference between unique and random. –  Naftuli Tzvi Kay Nov 28 '11 at 6:21
@awfullyjohn: Your generalisation edit removed key information - the specific numbers involved here are actually quite important to understanding the probabilities involved. –  caf Nov 28 '11 at 6:51

Your intuition about the results is wrong. If the numbers are truly random and distributed evenly between 0 and 455, then the probability of there being at least 10 duplicates in the set of 160 numbers is actually quite high (in fact it is a virtual certainty). Informally this is called the "Birthday Paradox", although it is not actually a paradox.

This chart shows the probability of different numbers of duplicates appearing when you select 160 indepedent identically distributed values with replacement from a set of 455. As you can see it is actually most likely that you get 22 duplicated values, with there being almost no chance that you get less than 10 or more than 35.

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AFAIK, you should start expecting to see repeats in half your samples at a sample size of ~25 and you should be seeing repeats in the twenties with a sample size of 160. What's the polite way of telling your senior that he needs a probability lesson? –  mu is too short Nov 28 '11 at 6:07

It sounds like your underlying implementation of generating random numbers is working perfectly fine. What seems to be the problem is the way you are selecting items from among the total population. This wikipedia article on simple random samples describes the difference between choosing a subset with replacement vs. one without replacement. You want the latter.

Imagine you have a box with many uniquely numbered balls in it. What you are doing is choosing a ball at random, but after writing down what you have chosen, putting the ball back into the box before choosing again. This allows for the possibility of making a repeated choice. However, what you want is to eliminate that possibility once that ball has been chosen. In order to do that you will have to change the mechanism you have used for making the random choice based on your randomly generated number. A good example can be found here.

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A proper set of random number generators is implemented in the gnu gsl library. You can pick from a quite variety of well tested random number generators. For serious computations, do not use rand(). In your case I would use a gsl_ran_sample from the given input set. This would look like this:

``````#include <stdlib.h>
#include <gsl/gsl_rng.h>
#include <gsl/gsl_randist.h>

#define N 455
#define K 160

int main(int argc, char **argv)
{
double arr[N];
double randarr[K];
gsl_rng *r = NULL;
const gsl_rng_type *T;
int seed = 31456;   // intial seed of the random number generator
int i;

//        gsl_rng_env_setup(); // if you want to set different random number generators etc.. or set external seeds
T = gsl_rng_ranlxs2;
r = gsl_rng_alloc(T);
gsl_rng_set(r, seed);

for (i = 0; i < N; i++) {
arr[i] = i;
}

//      gsl_ran_choose(r, randarr, K, arr, N, sizeof(double)); // without replacement
//      in case of choose: you will need to call gsl_ran_shuffle(r, randarr, K, sizeof(double)) if you want to randomize the order.

gsl_ran_sample(r, randarr, K, arr, N, sizeof(double));  // with replacement
fprintf(stdout, "Picked array elements:\n");

for (i = 0; i < K; i++) {
fprintf(stdout, "%f\n", randarr[i]);
}
gsl_rng_free(r);
return 0;
}
``````

if you have a properly installed gsl. compile with

``````gcc -Wall main.c  `gsl-config --cflags --libs`
``````
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Try using `arc4random()` from `stdlib.h`. It has a better pseudo-random number generation algorithm than `rand()`, and it doesn't require you to set an initial seed.

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I can't understand this downvote...The user asked for another function to generate random numbers and so I gave an alternative to `rand()`... –  Luiz Carlos Querino Filho Nov 28 '11 at 5:44
Carlos Thanks...I will try this –  Lipika Deka Nov 28 '11 at 5:48
@Juggler - you might need additional library to link with if you want to use this function, it's not always in libc. –  littleadv Nov 28 '11 at 5:52
Using a different pseudo random number generator won't help you defeat the laws of probability. –  mu is too short Nov 28 '11 at 6:09
Originally, before the question was edited, it was asking about a different function to generate random numbers, and it wasn't saying that this new function should generate only unique values. –  Luiz Carlos Querino Filho Nov 28 '11 at 6:33

Well, without seeing your code its hard to tell what's wrong, but you can always use the `/dev/random` device to draw random numbers. Just open it as a file and read from it.

However, you still might get repetitions. Just filter them out.

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downvoter - do share the objections, don't be shy. –  littleadv Nov 28 '11 at 5:40

Create an array of 455 integers from 0 to 454, randomly shuffle it, then use its first 160 numbers as indices into the array of the original 455 items. That'll guarantee uniqueness of the selection.

I should add a little pic from Dilbert explaining probability in a funny way.

There's also a good article on statistical randomness on Wikipedia.

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What's the point? if the random numbers generator is not good, you'll get bad shuffling anyway. The underlying dependency on the random numbers generator is still there. –  littleadv Nov 28 '11 at 5:38
if you just shuffle it randomly itd be impossible to get duplicate numbers - key here is you dont modify the array of 455 ints and keep them as 0-454 –  DanZimm Nov 28 '11 at 5:40
note: I am not sure what a good algo for shuffling would be , i would ask the person who made this answer –  DanZimm Nov 28 '11 at 5:40
@Dan, I understand why it provides for uniqueness, I just don't understand how it answers the question asked. –  littleadv Nov 28 '11 at 5:42
Any standard library random number generator is very likely good enough (for casual use, which is what this sounds like.) Generating a random permutation and taking the leading elements from it is a typical way of getting a random subset with a determined size. –  phs Nov 28 '11 at 5:44

While I'm sure there are other pseudo-random number generators you could use, its besides the point. Your expectations are unrealistic. Using a random number generator that I have reason to trust*, I find that you need to pick fewer than 100 items from a set of 455 in order to expect fewer than 10 items to be duplicates. If uniqueness is important, its fairly easy to implement; if randomness is important, then you're fine as is. I can just about guarantee that your random number distribution is just fine.

*I used various transformations on the raw random number to pick from a set. If there was a problem with the generator, the different transformations would have shown different biases. They did not, so I'm satisfied that the generator is close enough to random for the problem at hand.

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