PHP Array: join each sub-array together (Probability)

Question

I want simply to find-out better way to do this:

$array = array(
    array('a', 'b', 'c'),
    array('e', 'f', 'g'),
    array('h', 'i', 'j', 'k', 'l')
);

The goals is to print something like this:

a e h
a e i
a e j
a e k
a e l

a f h
a f i
a f j
a f k
a f l

a g h
a g i
a g j
a g k
a g l

Then doing same for b and c.

Currently, I am using this code:

foreach ($array[0] as $val1) {
    foreach ($array[1] as $val2) {
        foreach ($array[2] as $val3) {
            echo "$val1  $val2  $val3 \n";
        }
        echo "--------\n";
    }
}

I also tried to create above code dynamically and execute it with eval:

$eval         = '
     $data =array();
     ';
$eval_blocks  = '';
$eval_foreach = '';
$eval_data    = '
    $data[] = ';
$looplength   = count($array);

for ($i = 0; $i < $looplength; $i++) {
    $eval_foreach .= '
     foreach($array[' . $i . '] as $val' . ($i + 1) . '){
     ';
    if (($i + 1) == $looplength) {
        $eval_data .= ' $val' . ($i + 1) . ';';
    } else {
        $eval_data .= ' $val' . ($i + 1) . ' ." ".';
    }
    $eval_blocks .= '
     }
     ';
}
$eval = $eval . $eval_foreach . $eval_data . $eval_blocks;
eval($eval);
print_r($data);

But I still want to find better way for doing this, if possible.

Update:

Note: the $array is dynamic, It might contain two sub-array or more

Answer 1

I tried another approach but eventually ended with something similar to Valentin CLEMENT's solution although my function is more verbose.

Still, the originality is that this function gets you a tree of combinations, which may (or may not) be usefull depending on what you intend to do.

Here is the code :

function getCombinations( $arrayList, $index = 0  )
{
    $subCombinations = $combinations = '';

    if ( $index < count( $arrayList )-1 )
    {
        $subCombinations = getCombinations( $arrayList,  $index+1 );
    }

    foreach( $arrayList[$index] as $item )
    {
        $combinations[$item] = $subCombinations ;
    }
    return $combinations;
}

$combinations = getCombinations( $array );

print_r( $combinations );

With example data :

$array = array(
    array('a', 'b', 'c'),
    array('e', 'f', 'g'),
    array('h', 'i', 'j', 'k', 'l')
);

It will output :

Array
(
    [a] => Array
        (
            [e] => Array
                (
                    [h] => 
                    [i] => 
                    [j] => 
                    [k] => 
                    [l] => 
                )

            [f] => Array
                (
                    [h] => 
                    [i] => 
                    [j] => 
                    [k] => 
                    [l] => 
                )

            [g] => Array
                (
                    [h] => 
                    [i] => 
                    [j] => 
                    [k] => 
                    [l] => 
                )

        )

    [b] => Array
        (
            [e] => Array
                (
                    [h] => 
                    [i] => 
                    [j] => 
                    [k] => 
                    [l] => 
                )

            [f] => Array
                (
                    [h] => 
                    [i] => 
                    [j] => 
                    [k] => 
                    [l] => 
                )

            [g] => Array
                (
                    [h] => 
                    [i] => 
                    [j] => 
                    [k] => 
                    [l] => 
                )

        )

    [c] => Array
        (
            [e] => Array
                (
                    [h] => 
                    [i] => 
                    [j] => 
                    [k] => 
                    [l] => 
                )

            [f] => Array
                (
                    [h] => 
                    [i] => 
                    [j] => 
                    [k] => 
                    [l] => 
                )

            [g] => Array
                (
                    [h] => 
                    [i] => 
                    [j] => 
                    [k] => 
                    [l] => 
                )

        )

)

And then it requires additional code to draw expected result :

function drawCombinations( $combinations, $line = array() )
{
    foreach( $combinations as $value => $children )
    {
        array_push( $line, $value );

        if ( is_array( $children ) ) 
        {
            drawCombinations( $children, $line );
        }
        else
        { 
            echo implode( " ", $line ) ." \n";
        }

        array_pop( $line );
    }

}


drawCombinations( $combinations );

To produce :

a e h
a e i
a e j
a e k
a e l
a f h
a f i
a f j
a f k
a f l
a g h
a g i
a g j
a g k
a g l
b e h
b e i
b e j
b e k
b e l
b f h
b f i
b f j
b f k
b f l
b g h
b g i
b g j
b g k
b g l
c e h
c e i
c e j
c e k
c e l
c f h
c f i
c f j
c f k
c f l
c g h
c g i
c g j
c g k
c g l

As I said eariler, if you don't need this tree of results (that your questions did not mention, I just produced this while searching the best way), Valentin CLEMENT's approach could be better (if you don't use too large dataset, I will explain why after).

I rewrote it a bit, in a way I think more readable and usable :

function expand( $array, $from = 0, $length = false ) 
{
    if ( $length === false )
    {
        $length = count( $array );
    }

    if ( $length == $from )
    {
        return array('');
    }
    else 
    {
        $result = array();

        foreach( $array[$from] as $x ) 
        {
            foreach( expand( $array, $from+1, $length ) as $tail )
            {
                $result[] = trim("$x $tail");
            }
        }
        return $result;
    }
}


$combinations = expand( $array );

print_r( $combinations );

It returns the following array :

Array
(
    [0] => a e h
    [1] => a e i
    [2] => a e j
    [3] => a e k
    [4] => a e l
    [5] => a f h
    [6] => a f i
    [7] => a f j
    [8] => a f k
    [9] => a f l
    [10] => a g h
    [11] => a g i
    [12] => a g j
    [13] => a g k
    [14] => a g l
    [15] => b e h
    [16] => b e i
    [17] => b e j
    [18] => b e k
    [19] => b e l
    [20] => b f h
    [21] => b f i
    [22] => b f j
    [23] => b f k
    [24] => b f l
    [25] => b g h
    [26] => b g i
    [27] => b g j
    [28] => b g k
    [29] => b g l
    [30] => c e h
    [31] => c e i
    [32] => c e j
    [33] => c e k
    [34] => c e l
    [35] => c f h
    [36] => c f i
    [37] => c f j
    [38] => c f k
    [39] => c f l
    [40] => c g h
    [41] => c g i
    [42] => c g j
    [43] => c g k
    [44] => c g l
)

And it is then easy to achieve expected result :

echo implode( "\n", $combinations )."\n";

Will output :

a e h
a e i
a e j
a e k
a e l
a f h
a f i
a f j
a f k
a f l
a g h
a g i
a g j
a g k
a g l
b e h
b e i
b e j
b e k
b e l
b f h
b f i
b f j
b f k
b f l
b g h
b g i
b g j
b g k
b g l
c e h
c e i
c e j
c e k
c e l
c f h
c f i
c f j
c f k
c f l
c g h
c g i
c g j
c g k
c g l

I thought, at first, that my solution was cosuming more memory than Valentin's one because it uses arrays, but when I tested it out, I realized that it indeed it uses slightly less memory.

Displaying the memory metrics against the two methods gave those results :

drawCombinations(  getCombinations( $array ));

echo memory_get_usage()." ". memory_get_peak_usage()."\n";

// 238736 244896





echo implode( "\n", expand( $array ) )."\n";

echo memory_get_usage()." ". memory_get_peak_usage()."\n";

// 238912 252304

But it gets more important when using bigger input values, with :

$array = array(
    array('a', 'b', 'c'),
    array('e', 'f', 'g'),
    array('h', 'i', 'j', 'k', 'l'),
    array('m', 'n', 'o', 'p', 'q', 'r', 's'),
    array('t', 'u', 'v', 'x', 'y', 'z')
);

getCombinations gives :

drawCombinations(  getCombinations( $array ));

echo memory_get_usage()." ". memory_get_peak_usage()."\n";

// 242376 253008

expand gives :

echo implode( "\n", expand( $array ) )."\n";

echo memory_get_usage()." ". memory_get_peak_usage()."\n";

//242544 704520

The reason is obvious if we look at the array produced by each function, since the first solution stores less duplicate values (I am not sure how PHP handles the duplicates arrays ending each branch of the tree).

Once again, depending on what you plain to achieve, you will care or not.

"Echoing" each rows on the fly instead of creating a big result array decreases slightly the memory peak issue but expand() remains more memory consuming as dataset grows.

I hope it helps, at least that was interesting to me ;)

Answer 2

I first opted for some iteration (counting) based solution directly working on the arrays. As it turned out, this was just a loop with multiple counters. Then I thought, why limit this onto arrays? Why not using a CartesianProductIterator that creates an iteration over the cartesian product of multiple iterators?

It works similar to an AppendIterator and MultipleIterator (see as well: Iterating over Multiple Iterators at Once (Apr 2012; by hakre)) and can be easily used with your array:

$array = [
    ['a', 'b', 'c'],
    ['e', 'f', 'g'],
    ['h', 'i', 'j', 'k', 'l'],
];

$it = new CartesianProductIterator();

foreach($array as $sub)
{
    $it->append(new ArrayIterator($sub));
}

foreach ($it as $tuple)
{
    echo implode(',', $tuple), "\n";
}

The output is as expected:

a,e,h
a,e,i
a,e,j
...
c,g,j
c,g,k
c,g,l

A benefit of such an iterator is that it is more flexible for what it accepts as input.

Also those products can be extremely memory demaning, an iterator is a good tool to reduce memory requirements by solving the problem iteratively.

Another benefit is that an Iterator already keeps track of counting, so the counting problem per each dimension of the product is already solved.

As long as the memory consumption is concerned, instead of an iterator that implements the counting for you, you can do the iteration over all tuples in the product as well with a loop. This variant btw. should actually take care of keys, so should work with different inputs (the example code is reduced for reading):

...

// working loop
$valid = TRUE;
while ($valid)
{
    // create segment
    foreach ($array as $key => $sub)
    {
        echo $sub[$keys[$key][$counters[$key]]];
    }
    echo "\n";

    // count up
    foreach ($order as $key)
    {
        if (++$counters[$key] == $lengths[$key])
        {
            $counters[$key] = 0;
            continue;
        }
        continue 2;
    }
    $valid = FALSE;
};

As this example shows, each iteration in the loop outputs one tuple of the product, so memory requirements are low, too. If you replace the echo with a yield statement this is a good boilerplate to create a generator from.

As the CartesianProdcutIterator is an object so it can do a little more than a loop or generator, therefore it has some more features: You can specify the iteration or counting or sort mode: Move on the last iterator first (default), or the first first:

$it = new CartesianProductIterator(CartesianProductIterator::ORDER_FIRST_FIRST);

This will do the following iteration:

a,e,h
b,e,h
c,e,h
...
a,g,l
b,g,l
c,g,l

But not only that, it can be even controlled more by specifying a $countOrder parameter when appending. It specifies the actual sort-keys to be ordered on by the order-mode:

$array = [
    0 => ['a', 'b', 'c'],
    2 => ['e', 'f', 'g'],
    1 => ['h', 'i', 'j', 'k', 'l'],
];

$it = new CartesianProductIterator();

foreach($array as $countOrder => $sub)
{
    $it->append(new ArrayIterator($sub), $countOrder);
}

foreach ($it as $tuple)
{
    echo implode(',', $tuple), "\n";
}

This (as the default mode is last-first) specifies to first iterate in the middle (e-g), then at the end (h-l) and then on the first one (a-c):

a,e,h
a,f,h
a,g,h
a,e,i
...
c,g,k
c,e,l
c,f,l
c,g,l

Hope this is helpful and qualifies as "a better way".

Answer 3

This should work:

function expand($arr){
    function recexpand($arr, $from, $len) {
        if ($from == $len) {
            yield "\n";
        } else {
            foreach($arr[$from] as $x) {
                foreach(expand($arr, $from+1, $len) as $tail) {
                    yield "$x $tail";
                }
            }
        }
    }
    return recexpand($arr, 0, count($arr);
}
$array = array(
    array('a', 'b', 'c'),
    array('e', 'f', 'g'),
    array('h', 'i', 'j', 'k', 'l')
);
foreach(expand($array) as $row) {
    echo $row;
}

echoes:

a e h
a e i
a e j
a e k
a e l
a f h
a f i
a f j
a f k
a f l
a g h
a g i
a g j
a g k
a g l
b e h
b e i
b e j
b e k
b e l
b f h
b f i
b f j
b f k
b f l
b g h
b g i
b g j
b g k
b g l
c e h
c e i
c e j
c e k
c e l
c f h
c f i
c f j
c f k
c f l
c g h
c g i
c g j
c g k
c g l

I'm not a PHP guy, so there is probably a more idiomatic way to write it, but it will work for any length of the array.

For PHP<5 (or any version which has no 'yield' statement)

function expand($arr) {
    function recexpand($arr, $from, $len) {
        if ($from == $len) {
            return array("\n");
        } else {
            $result = array();
            foreach($arr[$from] as $x) {
                foreach(expand($arr, $from+1, $len) as $tail) {
                    $result[] = "$x " . $tail;
                }
            }
            return $result;
        }
    }
    return recexpand($arr, 0, count($arr));
}
$arr = array(
    array('a', 'b', 'c'),
    array('e', 'f', 'g'),
    array('h', 'i', 'j', 'k', 'l')
);
foreach(expand($arr) as $row) {
    echo "$row";
}

Answer 4

I'm impressed about the great algorithms you guys came up with. However i think that the right method in PHP, is to use an Iterator: http://php.net/manual/fr/class.iterator.php

I implemented an example of what you could do for your problem.

class CombinationIterator implements Iterator {
    private $position = 0;
    private $array = array();

    public function __construct($array) {
        $this->array = $array;
        $this->position = array_fill(0,sizeof($this->array),0);
    }

    function rewind() {
        $this->position = array_fill(0,sizeof($this->array),0);
    }

    function current() {
        $word = array();
        foreach ($this->position as $i=>$pos) {
            $word[]=$this->array[$i][$pos];
        }
        return implode(" ",$word);
    }

    function key() {
        return $this->position;
    }
    function next() {
        foreach (array_reverse($this->position,true) as $i=>$pos) {
            # if position in this array has reached end, set it to 0 and increse next one
            if ($pos == sizeof($this->array[$i])-1) {
                $this->position[$i] = 0;
                if (array_key_exists($i-1,$this->position)) {
                    continue;
                } else {
                    $this->rewind();
                }
                break;
            } else {
                $this->position[$i]++;
                break;
            }

        }
    }
    function valid() {
        $valid = false;
        foreach ($this->position as $i=>$pos) {
            if ($pos < sizeof($this->array[$i])-1) { return true; }
        }
        return $valid;
    }

}

And here is how you could use it to display your words :

$array = array(
    array('a', 'b', 'c'),
    array('e', 'f', 'g'),
    array('h', 'i', 'j', 'k', 'l'),
    array('m', 'n', 'o', 'p', 'q', 'r', 's'),
    array('t', 'u', 'v', 'x', 'y', 'z')
);


$c = new CombinationIterator($array);
while ($c->valid()) {
    echo $c->current()."\n";
    $c->next();
}

I didn't write the previous() method, but you can easily create it from the next() method.

Also memory usage is very low here because you only get the position stored.

I hope it can help you for your project.

Bye

Answer 5

My non-recursive way:

<?php
$array = array(
    array('a', 'b', 'c'),
    array('e', 'f', 'g'),
    array('h', 'i', 'j', 'k', 'l')
);

$upperBounds = array();
foreach ($array as $arr) {
    $upperBounds[] = count($arr);
}

$counterArray = array_pad(array(), count($array), 0);

do {
    foreach ($counterArray as $key => $c) {
        echo $array[$key][$c];
    }
    echo PHP_EOL;
} while (incrementCounter($counterArray, $upperBounds));

function incrementCounter(&$counterArray, $upperBounds)
{
    if (count($counterArray) == 0 || count($counterArray) != count($upperBounds)) {
        return false;
    }
    $counterArray[0]++;
    foreach ($counterArray as $key => $value) {
        if ($counterArray[$key] >= $upperBounds[$key]) {
            $counterArray[$key] = 0;
            if (isset($counterArray[$key+1])) {
                $counterArray[$key+1]++;
            }
            else {
                $counterArray[$key+1] = 1;
                return false;
            }
        }
        else {
            break;
        }
    }
    return true;
}