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I am trying to deduce an algorithm which generates all possible combinations of a specific size something like a function which accepts an array of chars and size as its parameter and return an array of combinations.

Example: Let say we have a set of chars: Set A = {A,B,C}

a) All possible combinations of size 2: (3^2 = 9)


b) All possible combinations of size 3: (3^3 = 27)

.... ad so on total combinations = 27

Please note that the pair size can be greater than total size of pouplation. Ex. if set contains 3 characters then we can also create combination of size 4.

EDIT: Also note that this is different from permutation. In permutation we cannot have repeating characters for example AA cannot come if we use permutation algorithm. In statistics it is known as sampling.

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up vote 20 down vote accepted

I would use a recursive function. Here's a (working) example with comments. Hope this works for you!

function sampling($chars, $size, $combinations = array()) {

    # if it's the first iteration, the first set 
    # of combinations is the same as the set of characters
    if (empty($combinations)) {
        $combinations = $chars;

    # we're done if we're at size 1
    if ($size == 1) {
        return $combinations;

    # initialise array to put new values in
    $new_combinations = array();

    # loop through existing combinations and character set to create strings
    foreach ($combinations as $combination) {
        foreach ($chars as $char) {
            $new_combinations[] = $combination . $char;

    # call same function again for the next iteration
    return sampling($chars, $size - 1, $new_combinations);


// example
$chars = array('a', 'b', 'c');
$output = sampling($chars, 2);
array(9) {
  string(2) "aa"
  string(2) "ab"
  string(2) "ac"
  string(2) "ba"
  string(2) "bb"
  string(2) "bc"
  string(2) "ca"
  string(2) "cb"
  string(2) "cc"
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Instead of the double foreach, you could also write your own cartesian product function, but it seemed like overkill for this example. – Joel Hinz Sep 28 '13 at 14:14
i have tested the algorithm and works perfect. Thanks – asim-ishaq Sep 28 '13 at 14:22
This is not a iterative functions. It's recursive, since it clearly keeps calling onto itself... – Irdrah May 5 '14 at 10:16
Yup. Wrote the wrong word by accident. – Joel Hinz May 5 '14 at 10:18

A possible algorithm would be:

$array_elems_to_combine = array('A', 'B', 'C');
$size = 4;
$current_set = array('');

for ($i = 0; $i < $size; $i++) {
    $tmp_set = array();
    foreach ($current_set as $curr_elem) {
        foreach ($array_elems_to_combine as $new_elem) {
            $tmp_set[] = $curr_elem . $new_elem;
    $current_set = $tmp_set;

return $current_set;

Basically, what you will do is take each element of the current set and append all the elements of the element array.

In the first step: you will have as result ('a', 'b', 'c'), after the seconds step: ('aa', 'ab', 'ac', 'ba', 'bb', 'bc', 'ca', 'cb', 'cc') and so on.

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I am trying to test it. What is $arra_of_elem and also in the second and third loop use foreach instead of for – asim-ishaq Sep 28 '13 at 13:54
@asim-ishaq It is the array or set where you have the elements to combine. In your case: Array('A', 'B', 'C') – SanSS Sep 28 '13 at 13:55
Not working well. For any given size it generates combinations in size 3 – asim-ishaq Sep 28 '13 at 14:07
@asim-ishaq I just tested the code above in writecodeonline.com/php changing the return for a print_r and it works well for combinations of 4 elements – SanSS Sep 28 '13 at 14:13

You can do this recursively. Note that as per your definition, the "combinations" of length n+1 can be generated from the combinations of length n by taking each combination of length n and appending one of the letters from your set. If you care you can prove this by mathematical induction.

So for example with a set of {A,B,C} the combinations of length 1 are:

A, B, C

The combinations of length 2 are therefore

(A, B, C) + A = AA, BA, CA
(A, B, C) + B = AB, BB, BC
(A, B, C) + C = AC, CB, CC

This would be the code and here on ideone

function comb ($n, $elems) {
    if ($n > 0) {
      $tmp_set = array();
      $res = comb($n-1, $elems);
      foreach ($res as $ce) {
          foreach ($elems as $e) {
             array_push($tmp_set, $ce . $e);
       return $tmp_set;
    else {
        return array('');
$elems = array('A','B','C');
$v = comb(4, $elems);
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Yes that is correct, but how it can be generalized in an algorithm to create combinations of n sizes – asim-ishaq Sep 28 '13 at 13:48
@asim-ishaq That is due to the fact that this property that I described holds for all n. I'll edit. – cyon Sep 28 '13 at 13:49
@asim-ishaq updated with code. – cyon Sep 28 '13 at 14:19

You can try this open source code for this. It implements the iterator. Click

Available in PHP, Java.

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A link to a potential solution is always welcome, but please add context around the link so your fellow users will have some idea what it is and why it’s there. Always quote the most relevant part of an important link, in case the target site is unreachable or goes permanently offline. Take into account that being barely more than a link to an external site is a possible reason as to Why and how are some answers deleted?. – Rizier123 Mar 8 at 13:59

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