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Consider following array:

$a = [['x'], ['y', 'z', 'w'], ['m', 'n']];

How can generate following array from it:

$output=[
[[x][y][m]],
[[x][z][n]],
[[x][w][m]],
[[x][y][n]],
[[x][z][m]],
[[x][w][n]],
];

I am searching for a more efficient code than mine. (My current code is presented as an answer below)

share|improve this question
2  
Is the order important? – Carlos Nov 23 '12 at 9:30
    
@jackflash It is not important vertically but is important horizontally. – PHPst Nov 23 '12 at 9:35
up vote 7 down vote accepted

Here we go. Assuming:

$array = [['x'], ['y', 'z', 'w'], ['m', 'n']];

EDIT: After some performance testing, I concluded the solution I posted before is about 300% slower than OP's code, surely due to nested function call stacking. So here is an improved version of OP's approach, which is around 40% faster:

$count     = array_map('count', $array);
$finalSize = array_product($count);
$arraySize = count($array);
$output    = array_fill(0, $finalSize, []);
$i = 0;
$c = 0;
for (; $i < $finalSize; $i++) {
    for ($c = 0; $c < $arraySize; $c++) {
        $output[$i][] = $array[$c][$i % $count[$c]];
    }
}

It is basically the same code but I used native functions when possible and also took out the loops some functionality that hadn't to be executed on each iteration.

share|improve this answer
    
+1 for effort, but, to me, it's not necessarily efficient, in the sense that it's easier to understand. But perhaps it more efficient performance-wise, I don't know. – Decent Dabbler Nov 23 '12 at 10:41
    
Thanks a lot, Can you please say which part has most effect in improvement. Indeed I was looking for an algorithm that is faster marginally. it's intresting that such modification had improved speed 40% – Reza 12 hours ago – PHPst Nov 25 '12 at 18:02
    
@Reza There is not one part that has most performance effect over others, it's the sum of all little improvements what makes that 40% speed increase possible. – Carlos Nov 26 '12 at 7:38
1  
I don't know why but this method produces unreliable output with 5.4.15. For example; $array = [['a','b'],['c','d']]; expected result: [['a','c'],['a','d'],['b','c']['b','d']] i got [['a','c'],['b','d'],['a','c']['b','d']] – edigu Aug 20 '13 at 14:42

"more efficient code" is such a subjective thing .... ;-)
You could use iterators instead of arrays so the complete result doesn't have to be stored in memory. On the other hand this solution is most likely much slower.

<?php
class PermIterator implements Iterator {
    protected $mi;
    protected $finalSize, $pos;

    public function __construct(array $src) {
        $mi = new MultipleIterator;
        $finalSize = 1;
        foreach ( $src as $a ) {
            $finalSize *= count($a);
            $mi->attachIterator( new InfiniteIterator(new ArrayIterator($a)) );
        }
        $this->mi = $mi;
        $this->finalSize = $finalSize;
        $this->pos = 0;
    }

    public function current() { return $this->mi->current(); }
    public function key() { return $this->mi->key(); }
    public function next() { $this->pos+=1; $this->mi->next(); }
    public function rewind() { $this->pos = 0; $this->mi->rewind(); }
    public function valid() { return ($this->pos < $this->finalSize) && $this->mi->valid(); }
}


$src = $a = [['x'], ['y', 'z', 'w'], ['m', 'n']];
$pi = new PermIterator($src); // <- you can pass this one around instead of the array
foreach ( $pi as $e ) {
    echo join(', ', $e), "\n";
}

prints

x, y, m
x, z, n
x, w, m
x, y, n
x, z, m
x, w, n

Or as an array (object) where you can access each element via an integer offset

<?php
class PermArray implements  ArrayAccess {
    // todo: constraints and error handling - it's just an example
    protected $source;
    protected $size;

    public function __construct($source) {
        $this->source = $source;
        $this->size = 1;
        foreach ( $source as $a ) {
            $this->size *= count($a);
        }
    }
    public function count() { return $this->size; }

    public function offsetExists($offset) { return is_int($offset) && $offset < $this->size; }
    public function offsetGet($offset) {
        $rv = array();
        for ($c = 0; $c < count($this->source); $c++) {
          $index = ($offset + $this->size) % count($this->source[$c]);
          $rv[] = $this->source[$c][$index];
        }
        return $rv;
    }

    public function offsetSet($offset, $value ){}
    public function offsetUnset($offset){}
}

$pa = new PermArray( [['x'], ['y', 'z', 'w'], ['m', 'n']] );
$cnt = $pa->count();
for($i=0; $i<$cnt; $i++) {
    echo join(', ', $pa[$i]), "\n";
}
share|improve this answer
    
+1 Nice one! I was fiddling around with MultipleIterator, InfiniteIterator, ArrayIterator and even with RecursiveIteratorIterator, but couldn't get my head around it. – Decent Dabbler Nov 23 '12 at 10:33
    
hm, ArrayAccess ...that's an option, too. Example added – VolkerK Nov 23 '12 at 10:59
1  
I'm using your last example (PermArray object) and it doesn't seem to be working correctly with this example: [['a', 'b'], ['a', 'b'], ['a', 'b'], ['a'], ['a'], ['a']]. It just lists these two combos a, a, a, a, a, a \ b, b, b, a, a, a four times. – Ayub Nov 8 '13 at 3:14
    
+1 this one is best ! – Hardik Thaker Nov 19 '13 at 6:34
<?php
function array_permutation(array $a)
{
    $count = array_map('count', $a);
    $finalSize = 1;

    foreach ($count as $val) {
        $finalSize *= $val;
    }

    $output = [];

    for ($i = 0; $i < $finalSize; $i++) {
        $output[$i] = [];
        for ($c = 0; $c < count($a); $c++) {
            $index = ($i + $finalSize) % $count[$c];
            array_push($output[$i], $a[$c][$index]);
        }
    }
    return $output;
}

$a = [['x'], ['y', 'z', 'w'], ['m', 'n']];
$output= array_permutation($a);
share|improve this answer
    
doesn't work in: $a = [['a'], ['b', 'c', 'd'], ['e', 'f','g']]; – Павел Иванов Feb 3 '15 at 12:22

It appears as though none of the answers, including the accepted one, will work if there are two arrays of the same length. I have personally tested the accepted answer and found this to be the case, and judging from the comments on the other two, they have the same issue.

I had to implement this algorithm recently, so I will post my solution. This solution is designed to work with associative arrays and also supports sets of columns that will be grouped together in the output and not permuted against each other; this is useful if any of the columns contain related information. If you don't need these features it should be fairly trivial to modify this algorithm to support your needs.

// the input column sets to be permuted
$column_sets = [
    [ //set 1
        ['Column 1' => 'c1v1']
    ],
    [ //set 2
        ['column 2' => 'c2v1', 'Column 3' => 'c3v1'],
        ['column 2' => 'c2v2', 'Column 3' => 'c3v2'],
    ],
    [ //set 3
        ['Column 4' => 'c4v1', 'Column 5' => 'c5v1'],
        ['Column 4' => 'c4v2', 'Column 5' => 'c5v2'],
    ],
    [ //set 4
        ['Column 6' => 'c6v1', 'Column 7' => 'c7v1'],
        ['Column 6' => 'c6v2', 'Column 7' => 'c7v2'],
        ['Column 6' => 'c6v3', 'Column 7' => 'c7v3'],
    ],
    [ //set 5
        ['Column 8' => 'c8v1', 'Column 9' => 'c9v1'],
        ['Column 8' => 'c8v2', 'Column 9' => 'c9v2'],
        ['Column 8' => 'c8v3', 'Column 9' => 'c9v3'],
    ],
];

// copy the first set into the output to start
$output_rows = $column_sets[0];

foreach ($column_sets as $column_set) {
    // save the current state of the rows for use within this loop
    $current_output = $output_rows;

    // calculate the number of permutations necessary to combine the output rows with the current column set
    $permutations = count($output_rows) * count($column_set);
    for ($permutation=0; $permutation < $permutations; $permutation++) {

        // if the current permutation index is grater than the number of rows in the output,
        // then copy a row from the pre-permutation output rows, repeating as necessary
        if ($permutation > count($output_rows) - 1) {
            $output_rows[] = $current_output[$permutation % count($current_output)];
        }

        // copy the columns from the column set
        foreach ($column_set[0] as $key => $value) {
            $output_rows[$permutation][$key] = $column_set[intval($permutation / count($current_output)) % count($column_set)][$key];
        }
    }
}


echo "After Permutaion:\n";
echo implode("\t", array_keys($output_rows[0])) . PHP_EOL;
foreach ($output_rows as $row) {
    echo implode("\t", array_values($row)) . PHP_EOL;
}
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