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I have a set of elements and i need to choose any one element out of it. Each element is associated with a percentage chance. The percentages add to 100.

I need to choose one out of those element so that the chances of an element being chosen is equal to the percent value. So if a element has 25% chance, it is supposed to have 25% chances of getting chosen. In other words, if we choose elements 1 mil times, that element should be chosen near 250k times.

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Show us what you have tried so far. – Leigh Jan 24 '12 at 12:32
i did manage to calculate the probabilities from the raw data. (By summing and calculating percentage of the sum for each element) I have no idea how to go ahead from here. – Aditya Singh Jan 24 '12 at 12:45
up vote 5 down vote accepted

What you describe is a multinomial process.


They way to generate such random process is like this: ( I'll use pseudo code but it should be easy to make it in to real code. )

  1. Sort the 'boxes' in reverse order of their probability: (not needed. it's just an optimization) so that you have for example values=[0.45,0.3,0.15,0.1]

  2. then create the 'cumulative' distribution, which is the sum of all elements with index <=i. pseudocode:

    cumulant=[0,0,0,0]    // initiate it
    for j=0 to size()-1 {
       s=s+values[i] ; 

    in our case cumulant=[0.45,0.70,0.85 ,1 ]

  3. make a uniform random number x between 0 and 1. For php: http://php.net/manual/en/function.rand.php

  4. the resulting random box index i is

    the highest i for which cumulant[i]< x


for j=0 to size()-1 {
  if !(cumulant[i]<){
     print "your index is ",i

that is it. Get another random index i by going back to point 3.

if you sort like suggested above, that means that the final search will be faster. For example, if you have this vector of probabilities: 0.001 0.001 0.001 0.001 0.996 then, when you sort it, you will almost always only have to look only at index i=0, since the random number x will almost always be lower than 0.996. If the sort pays off or not depends on if you repeatedly use the same 'boxes'. So, yes with 250k tries it will help a lot. Just remember that the box index i you get is for the sorted vector.

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+1 for expanding my knowledge :) - I shall henceforth make use of the word cumulant more often. And thanks for clarifying what the sorting was for, makes perfect sense. – Leigh Jan 24 '12 at 12:59
Also, i guess for a high throughput application, it makes sense to hold the cumulants with the original data in memory so that we don't keep calculating it on every query. – Aditya Singh Jan 24 '12 at 13:03
Modified the PHP code in my answer to do this. – Leigh Jan 24 '12 at 13:10

I guess it was faster for me to write it than it was for you to show us what you did so far.

Probably not the best solution, but as it stands, it looks like it's the only one you've got.

Here you go:

$elements = array(
    'This' => 25,
    'is' => 15,
    'a' => 15,
    'crappy' => 20,
    'list' => 25

$elements = array_reverse($elements);

// Precalc cumulative value
$cumulant = 0;
foreach ($elements as $key => &$value) {
    $cumulant += $value;
    $value = $cumulant;

function pickAnElement($elements) {
    $random = rand(1, 100);
    foreach ($elements as $key => $value) {
        if ($random <= $value) {
            return $key;

$picks = array();

for ($i = 0; $i < 10000; $i++) {
    $element = pickAnElement($elements);
    if (!array_key_exists($element, $picks)) {
        $picks[$element] = 0;


Inspired by Johans answer, I added a loop to sort and pre-calculate the cumulant.

share|improve this answer
damn. Let me play around a bit with it :) – Aditya Singh Jan 24 '12 at 12:48

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