46

I'im trying to find all combinations of items in several arrays. The number of arrays is random (this can be 2, 3, 4, 5...). The number of elements in each array is random too...

For exemple, I have the 3 arrays :

$arrayA = array('A1','A2','A3');
$arrayB = array('B1','B2','B3');
$arrayC = array('C1','C2');

I would like to generate an array with 3 x 3 x 2 = 18 combinations :

  • A1, B1, C1
  • A1, B1, C2
  • A1, B2, C1
  • A1, B2, C2
  • A1, B3, C1
  • A1, B3, C2
  • A2, B1, C1
  • A2, B1, C2 ...

The problem is to create a function with a variable number of source arrays...

  • 2
    You always want one element from each array? – goat Dec 19 '11 at 20:30
76

Here is recursive solution:

function combinations($arrays, $i = 0) {
    if (!isset($arrays[$i])) {
        return array();
    }
    if ($i == count($arrays) - 1) {
        return $arrays[$i];
    }

    // get combinations from subsequent arrays
    $tmp = combinations($arrays, $i + 1);

    $result = array();

    // concat each array from tmp with each element from $arrays[$i]
    foreach ($arrays[$i] as $v) {
        foreach ($tmp as $t) {
            $result[] = is_array($t) ? 
                array_merge(array($v), $t) :
                array($v, $t);
        }
    }

    return $result;
}

print_r(
    combinations(
        array(
            array('A1','A2','A3'), 
            array('B1','B2','B3'), 
            array('C1','C2')
        )
    )
);
  • how should I change this function if I want the unique combinations for duplicated arrays? For instance, if I have array('A1','A2','A3'), array('A1','A2','A3'), array('C1','C2') and I want as result "A1, A2, C1", "A1, A3, C1", etc, but NO "A1, A1, C1" ? Also (if I'm not asking too much ;) , {"A1", "A2", "C1"} it's the same that {"A2", "A1", "C1"} so I only want 1 combination? – Alex Angelico May 30 '13 at 1:23
  • @AlexAngelico - and for anyone else with same question, see array_unique, php.net/manual/en/function.array-unique.php – Daniel Brose Apr 4 '17 at 3:25
  • saved my a[...] – Amin Eshtiaghi Aug 18 '20 at 14:38
14

This is a cartesian product, and I just asked the same question not too long ago. Here is the algorithm that is posted on the PHP website.

function array_cartesian_product($arrays)
{
    $result = array();
    $arrays = array_values($arrays);
    $sizeIn = sizeof($arrays);
    $size = $sizeIn > 0 ? 1 : 0;
    foreach ($arrays as $array)
        $size = $size * sizeof($array);
    for ($i = 0; $i < $size; $i ++)
    {
        $result[$i] = array();
        for ($j = 0; $j < $sizeIn; $j ++)
            array_push($result[$i], current($arrays[$j]));
        for ($j = ($sizeIn -1); $j >= 0; $j --)
        {
            if (next($arrays[$j]))
                break;
            elseif (isset ($arrays[$j]))
                reset($arrays[$j]);
        }
    }
    return $result;
}
  • The link to the PHP website doesn't apparently lead anything about this function. Could you give an example of invoking it? – JohnK Jul 9 '14 at 0:28
  • This function takes over 2.5 times as long as Lolo's function to process the same array. – Richard - Rogue Wave Limited Sep 11 '14 at 16:26
9

This code besides simplicity, get all combinations of multiple arrays and preserves keys.

function get_combinations($arrays) {
    $result = array(array());
    foreach ($arrays as $property => $property_values) {
        $tmp = array();
        foreach ($result as $result_item) {
            foreach ($property_values as $property_key => $property_value) {
                $tmp[] = $result_item + array($property_key => $property_value);
            }
        }
        $result = $tmp;
    }
    return $result;
}

Exemple:

Array
(
    Array
    (
        '1' => 'White',
        '2' => 'Green',
        '3' => 'Blue'
    ),
    Array
    (
        '4' =>' Small',
        '5' => 'Big'
    )
)

Will return:

Array
(
    [0] => Array
    (
        [1] => White
        [4] =>  Small
    )
    [1] => Array
    (
        [1] => White
        [5] => Big
    )
    [2] => Array
    (
        [2] => Green
        [4] =>  Small
    )
    [3] => Array
    (
        [2] => Green
        [5] => Big
    )
    [4] => Array
    (
        [3] => Blue
        [4] =>  Small
    )
    [5] => Array
    (
        [3] => Blue
        [5] => Big
    )
)
  • No idea why someone else downvoted this. This solution worked perfectly for me and preserved array keys like I wanted it to. +1 – Eric Seastrand Aug 16 '16 at 18:46
  • this solution worked perfectly for me, had to tweak a bit to combine multiple associative arrays. – mk1024 Nov 7 '18 at 18:01
4

I know this question is old, but I got the same issue today and decided to give the new Generator a try:

function generateCombinations(array $array) {
    foreach (array_pop($array) as $value) {
        if (count($array)) {
            foreach (generateCombinations($array) as $combination) {
                yield array_merge([$value], $combination);
            };
        } else {
            yield [$value];
        }
    }
}

foreach (generateCombinations(['a' => ['A'], 'b' => ['B'], 'c' => ['C', 'D'], 'd' => ['E', 'F', 'G']]) as $c) {
        var_dump($c);
    }

Result:

array(4) {
[0]=>
string(1) "E"
[1]=>
string(1) "C"
[2]=>
string(1) "B"
[3]=>
string(1) "A"
}
array(4) {
[0]=>
string(1) "E"
[1]=>
string(1) "D"
[2]=>
string(1) "B"
[3]=>
string(1) "A"
}
array(4) {
[0]=>
string(1) "F"
[1]=>
string(1) "C"
[2]=>
string(1) "B"
[3]=>
string(1) "A"
}
array(4) {
[0]=>
string(1) "F"
[1]=>
string(1) "D"
[2]=>
string(1) "B"
[3]=>
string(1) "A"
}
array(4) {
[0]=>
string(1) "G"
[1]=>
string(1) "C"
[2]=>
string(1) "B"
[3]=>
string(1) "A"
}
array(4) {
[0]=>
string(1) "G"
[1]=>
string(1) "D"
[2]=>
string(1) "B"
[3]=>
string(1) "A"
}
  • When the order doesn't matter, it is a Combination. When the order does matter it is a Permutation. In this case, it's a Permutation and not a Combination. – Pol Dellaiera Dec 20 '16 at 21:01
  • this is the most simple solution – clarkk Mar 27 '18 at 21:04
  • is there a way to achieve this ? array(4) { 'd' => string(1) "E" 'c' => string(1) "C" 'b' => string(1) "B" 'a' => string(1) "A" } – Glasset Mar 29 '18 at 14:36
  • workaround for my question: create array like that ['a' => [['key' => 'a', 'value' => 'A'], ['key' => 'a', 'value' => 'n']]] – Glasset Mar 29 '18 at 14:45
4

One more idea:

$ar = [
    'a' => [1,2,3],
    'b' => [4,5,6],
    'c' => [7,8,9]
];

$counts = array_map("count", $ar);
$total = array_product($counts);
$res = [];

$combinations = [];
$curCombs = $total;

foreach ($ar as $field => $vals) {
    $curCombs = $curCombs / $counts[$field];
    $combinations[$field] = $curCombs;
}

for ($i = 0; $i < $total; $i++) {
    foreach ($ar as $field => $vals) {
        $res[$i][$field] = $vals[($i / $combinations[$field]) % $counts[$field]];
    }
}

var_dump($res);
4

I like this solution: https://stackoverflow.com/a/33259643/3163536 but to answer the actual question (which assumes that the number of elements of each combination should be equal to the number of incoming arrays) the function should be modified:

function getCombinations(...$arrays)
    {
        $result = [[]];
        foreach ($arrays as $property => $property_values) {
            $tmp = [];
            foreach ($result as $result_item) {
                foreach ($property_values as $property_value) {
                    $tmp[] = array_merge($result_item, [$property => $property_value]);
                }
            }
            $result = $tmp;
        }
        return $result;
    }

The usage:

$arrayA = array('A1','A2','A3');
$arrayB = array('B1','B2','B3');
$arrayC = array('C1','C2');

print_r(getCombinations($arrayA, $arrayB, $arrayC));

The result:

Array
(
    [0] => Array
        (
            [0] => A1
            [1] => B1
            [2] => C1
        )

    [1] => Array
        (
            [0] => A1
            [1] => B1
            [2] => C2
        )

    [2] => Array
        (
            [0] => A1
            [1] => B2
            [2] => C1
        )

    [3] => Array
        (
            [0] => A1
            [1] => B2
            [2] => C2
        )

    [4] => Array
        (
            [0] => A1
            [1] => B3
            [2] => C1
        )

    [5] => Array
        (
            [0] => A1
            [1] => B3
            [2] => C2
        )

    [6] => Array
        (
            [0] => A2
            [1] => B1
            [2] => C1
        )

    [7] => Array
        (
            [0] => A2
            [1] => B1
            [2] => C2
        )

    [8] => Array
        (
            [0] => A2
            [1] => B2
            [2] => C1
        )

    [9] => Array
        (
            [0] => A2
            [1] => B2
            [2] => C2
        )

    [10] => Array
        (
            [0] => A2
            [1] => B3
            [2] => C1
        )

    [11] => Array
        (
            [0] => A2
            [1] => B3
            [2] => C2
        )

    [12] => Array
        (
            [0] => A3
            [1] => B1
            [2] => C1
        )

    [13] => Array
        (
            [0] => A3
            [1] => B1
            [2] => C2
        )

    [14] => Array
        (
            [0] => A3
            [1] => B2
            [2] => C1
        )

    [15] => Array
        (
            [0] => A3
            [1] => B2
            [2] => C2
        )

    [16] => Array
        (
            [0] => A3
            [1] => B3
            [2] => C1
        )

    [17] => Array
        (
            [0] => A3
            [1] => B3
            [2] => C2
        )

)
  • Awesome, seems to be a more accurate solution - I was having some inconsistencies with Luna's answer – friek108 Aug 28 '20 at 13:35
1

Here is a code that generates unique combinations from a set of numbers.

If you have a list of numbers, like 1,3,4,7,12 you can generate sets of X numbers, all unique, no repetitive.

The first function works in PHP 7.4 or higher, and the second one uses keys to store the values. Both work very well based on the benchmark.

function get_combos74($map, $size, &$generated = [], $loop = 1, $i = 0, $prefix = [])
{
    if ($loop == 1) {
        sort($map);
    }

    for (; $i < count($map); $i++) {
        if ($loop < $size) {
            get_combos74($map, $size, $generated, $loop + 1, $i + 1, [...$prefix, $map[$i]]);
        } else {
            $generated[] = [...$prefix, $map[$i]];
        }
    }

    return $generated;
}

function get_combosSTR($map, $size, &$generated = [], $loop = 1, $i = 0, $prefix = '')
{
    if ($loop == 1) {
        sort($map);
    }

    for (; $i < count($map); $i++) {
        if ($loop < $size) {
            get_combosSTR($map, $size, $generated, $loop + 1, $i + 1, "$prefix{$map[$i]}:");
        } else {
            $generated["$prefix{$map[$i]}"] = 0;
        }
    }

    return $generated;
}
-1

I got this from O'Relly (https://www.oreilly.com/library/view/php-cookbook/1565926811/ch04s25.html),

function pc_array_power_set($array) {
// initialize by adding the empty set
$results = array(array( ));

foreach ($array as $element)
    foreach ($results as $combination)
        array_push($results, array_merge(array($element), $combination));



   return $results;
}

Then call it using,

$set = array('A', 'B', 'C');
$power_set = pc_array_power_set($set);

That should do the trick!

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