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Question is:

Write a method to randomly generate a set of m integers from an array of size n. Each element must have equal probability of being chosen.

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I pick a first integer uniformly randomly. pick next. if it already exists. I don't take it else take it. and continue till I have m integers.

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just struck that this process may not terminate ever, and we want a solution, which definitely terminates theoretically. is this right? –  xyz Jun 6 '11 at 11:58
Do you mean each subset has an equal probability of being chosen? –  Jeff Foster Jun 6 '11 at 12:04
It will always terminate eventually, although depending on the size of m and n, may not be terribly efficient. –  Rob Jun 7 '11 at 20:47

4 Answers 4

up vote 5 down vote accepted
let m be the number of elements to select
for i = 1; i <= m; i++
   pick a random number from 1 to n, call it j
   swap array[j] and array [n] (assuming 1 indexed arrays)

At the end of the loop, the last m elements of array is your random subset. There is a variation on fisher-yates shuffle.

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+1 (from a while back) I don't think you've written up the pseudo-code correctly, but the general idea of repeatedly swapping the just-selected element with the last unselected element in the vector is sound... that way you're maintaining the division between selected and unselected elements, and can use a single random number each time to reliably index to a not-yet-selected element.... –  Tony D Jun 7 '11 at 7:36
I'll when recheck the code when i have a minute. It's possible I made a mistake, but yes, this is the general idea –  frankc Jun 7 '11 at 14:26
I think this is right but if you see a mistake, feel free to edit the answer –  frankc Jun 7 '11 at 17:37
I've done so - summarily, changed how m is defined and the loop condition from i < m to i <= m... feel free to change again if you disagree.... –  Tony D Jun 8 '11 at 0:46

There are 2^n subsets. Pick a number between 0 and 2^n-1 and turn that into binary. Those with bits set should be taken from the array and stored.

e.g. Consider the set 1,2,3,4.

int[] a = new int[]{ 1, 2, 3, 4 }
int n = (2*2*2*2) - 1; // 2^n -1 
int items = new Random().nextInt(n);

// If items is 3 then this is 000011 so we would select 1 and 2
// If items is 5 then this is 000101 so we would select 1 and 3
// And so on
for (int i=0;i<a.length;++i) {
   if ((items & (1 << i)) != 0) {
       // The bit is set, grab this item
       System.out.println("Selected " + a[i]);
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But you don't want a random subset... you want there to be exactly m elements selected...? –  Tony D Jun 7 '11 at 5:24

Think of your original range to choose from as a list from 1-n, when you choose an element (number) remove that element from the list. Choose elements based on list index, rather than the actual number value.

int Choose1(List<int> elts)
    var idx = rnd.Next(0,elts.Count);
    var elt = elts[idx];
    return elt;

public List<int> Choose(int fromN, int chooseM)
    var range = new List<int>();
    for (int i = 1; i <= fromN; i++)
    var choices = new List<int>();
    for (int i = 0; i < chooseM; i++)
    return choices;

Using lists won't be efficient for large numbers, but you can use the same approach without actually constructing any lists, using a bit of arithmetic.

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With the help of wikipedia, just realised this is equivalent to the fisher-yates shuffle given by frankc –  Rob Jun 8 '11 at 9:33

If your picks are random then the probability of picking m items in the manner you described would be 1/pow(n,m). I think what you need is 1/C(n,m).

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