# Find combinations which do not have elements in common

I have array(A, B, C, D).

I choose 2 letters from above 4 letters in 6 combinations using combination formula

n! / r! (n-r)!

array(A, B), array(A, C), array(A, D), array(B, C), array(B, D), array(C, D)

How can I find combinations of groups of 2 or 3 or n (should be dynamic) which do not have letters in common. So I am expecting result to be below combinations for group of 2,

array(A, B), array(C, D)

array(A, C), array(B, D),

array(A, D), array(B, C),

This is just an example but i want the algorithm should work for large number of arrays (I have more than 35000 arrays). I want to find group of 2 or 3 or n (should be dynamic), each group should have arrays which do not have elements in common (all keys should be different, not a single elements should be repeated).

-

You don't say anything about how the sets are represented, so I use arrays for that purpose.

``````// The base set
\$baseSet = array('A', 'B', 'C', 'D');

// Build the subsets
\$subSets = array();
for (\$i = 0; \$i < 3; \$i++) {
for (\$j = \$i+1; \$j< 4; \$j++) {
\$subSets[] = array(\$baseSet[\$i], \$baseSet[\$j]);
}
}
``````

With that, the solution is straight forward:

``````foreach (\$subSets as \$subSet) {
\$complement = array_diff(\$baseSet, \$subSet);
printf("{%s, %s} - {\$s, %s}\n",
\$baseSet[0], \$baseSet[1],
\$complement[0], \$complement[1]
);
}
``````

In general, PHP offers a lot of set related functions for arrays.

If you just want to compare two subsets, use `array_intersect()`:

``````\$common = array_intersect(\$subSet1, \$subSet2);
if (empty(\$common)) {
echo 'The subsets are distinct.';
} else {
echo 'The subsets have these elements in common: ' . implode(', ', \$common);
}
``````
-
It works fine for small array but is there any way to handle large array ? I have array of size 9845. I want to find out unique combinations. –  user1191081 Apr 17 '13 at 11:31
Added a comparision example to my answer. –  nibra Apr 17 '13 at 11:43
It works for smaller number of array but when we have large number of arrays and having more array elements then it does not work. –  user1191081 Apr 18 '13 at 16:31
'Does not work' means ...? The comparision I suggested takes two out of any number of arrays. –  nibra Apr 19 '13 at 16:14
Logic is correct, but nested for loops goes take long time to execute for huge number of combinations. –  user1191081 Apr 19 '13 at 16:50