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Say that I have an array like the following:

Array
(
    [arm] => Array
        (
            [0] => A
            [1] => B
            [2] => C
        )
    [gender] => Array
        (
            [0] => Female
            [1] => Male
        )
    [location] => Array
        (
            [0] => Vancouver
            [1] => Calgary
        )
)

How can I find the cartesian product while preserving the keys of the outer associative array and using them in the inner ones? The result of the algorithm should be this:

Array
(
    [0] => Array
        (
            [arm] => A
            [gender] => Female
            [location] => Vancouver
        )

    [1] => Array
        (
            [arm] => A
            [gender] => Female
            [location] => Calgary
        )

    [2] => Array
        (
            [arm] => A
            [gender] => Male
            [location] => Vancouver
        )

...etc.

I've looked up quite a number of cartesian product algorithms but I'm getting stuck on the specifics of how to preserve the associative keys. The current algorithm I am using gives numerical indices only:

    $result = array();
    foreach ($map as $a) {
        if (empty($result)) {
            $result = $a;
            continue;
        }
        $res = array();
        foreach ($result as $r) {
            foreach ($a as $v) {
                $res[] = array_merge((array)$r, (array)$v);
            }
        }
        $result = $res;
    }

    print_r($result);

Any help would be appreciated.

share|improve this question
    
Related: Concatenate values of n arrays in php (Feb 2010) – hakre Aug 11 '13 at 9:51
up vote 40 down vote accepted

Here's a solution I wouldn't be ashamed to show.

Rationale

Assume that we have an input array $input with N sub-arrays, as in your example. Each sub-array has Cn items, where n is its index inside $input, and its key is Kn. I will refer to the ith item of the nth sub-array as Vn,i.

The algorithm below can be proved to work (barring bugs) by induction:

1) For N = 1, the cartesian product is simply array(0 => array(K1 => V1,1), 1 => array(K1 => V1,2), ... ) -- C1 items in total. This can be done with a simple foreach.

2) Assume that $result already holds the cartesian product of the first N-1 sub-arrays. The cartesian product of $result and the Nth sub-array can be produced this way:

3) In each item (array) inside $product, add the value KN => VN,1. Remember the resulting item (with the added value); I 'll refer to it as $item.

4a) For each array inside $product:

4b) For each value in the set VN,2 ... VN,CN, add to $product a copy of $item, but change the value with the key KN to VN,m (for all 2 <= m <= CN).

The two iterations 4a (over $product) and 4b (over the Nth input sub-array) ends up with $result having CN items for every item it had before the iterations, so in the end $result indeed contains the cartesian product of the first N sub arrays.

Therefore the algorithm will work for any N.

This was harder to write than it should have been. My formal proofs are definitely getting rusty...

Code

function cartesian($input) {
    $result = array();

    while (list($key, $values) = each($input)) {
        // If a sub-array is empty, it doesn't affect the cartesian product
        if (empty($values)) {
            continue;
        }

        // Seeding the product array with the values from the first sub-array
        if (empty($result)) {
            foreach($values as $value) {
                $result[] = array($key => $value);
            }
        }
        else {
            // Second and subsequent input sub-arrays work like this:
            //   1. In each existing array inside $product, add an item with
            //      key == $key and value == first item in input sub-array
            //   2. Then, for each remaining item in current input sub-array,
            //      add a copy of each existing array inside $product with
            //      key == $key and value == first item of input sub-array

            // Store all items to be added to $product here; adding them
            // inside the foreach will result in an infinite loop
            $append = array();

            foreach($result as &$product) {
                // Do step 1 above. array_shift is not the most efficient, but
                // it allows us to iterate over the rest of the items with a
                // simple foreach, making the code short and easy to read.
                $product[$key] = array_shift($values);

                // $product is by reference (that's why the key we added above
                // will appear in the end result), so make a copy of it here
                $copy = $product;

                // Do step 2 above.
                foreach($values as $item) {
                    $copy[$key] = $item;
                    $append[] = $copy;
                }

                // Undo the side effecst of array_shift
                array_unshift($values, $product[$key]);
            }

            // Out of the foreach, we can add to $results now
            $result = array_merge($result, $append);
        }
    }

    return $result;
}

Usage

$input = array(
    'arm' => array('A', 'B', 'C'),
    'gender' => array('Female', 'Male'),
    'location' => array('Vancouver', 'Calgary'),
);

print_r(cartesian($input));

See it in action!

share|improve this answer
    
Tnx dude, this helped a lot! – Nemke Dec 19 '14 at 10:16
    
Is there a reason you did while (list($key, $values) = each($input)) { instead of foreach ($input as $key => $values) { – FunBeans Feb 10 '15 at 17:35
    
@FunBeans: No reason. Actually I am myself surprised that I chose to write it like that, even though it was several years ago. – Jon Feb 11 '15 at 20:12

Here is optimized version of @Jon's cartesian function:

function cartesian($input) {
    // filter out empty values
    $input = array_filter($input);

    $result = array(array());

    foreach ($input as $key => $values) {
        $append = array();

        foreach($result as $product) {
            foreach($values as $item) {
                $product[$key] = $item;
                $append[] = $product;
            }
        }

        $result = $append;
    }

    return $result;
}

And here is the math behind this algorithm: http://en.wikipedia.org/wiki/Cartesian_product

share|improve this answer
1  
FYI, this technique returns a product in the 'order' I would expect - the accepted answer does not. – Matthew Oct 24 '15 at 17:40
    
@Matthew, thanks for noticing this, I guess that's due to the fact that "array_merge" is used in the accepted solution. – Serg Oct 25 '15 at 18:12

Here's what I could come up with:

function inject($elem, $array) {
    return array_map(function ($n) use ($elem) { return array_merge((array)$elem, (array)$n); }, $array);
}

function zip($array1, $array2) {
    return array_reduce($array1, function ($v, $n) use ($array2) { return array_merge($v, inject($n, $array2));  }, array());
}

function cartesian_product($array) {
    $keys = array_keys($array);
    $prod = array_shift($array);
    $prod = array_reduce($array, 'zip', $prod);
    return array_map(function ($n) use ($keys) { return array_combine($keys, $n); }, $prod);
}

(Using pseudo array/list/dictionary notation below since PHP is simply too verbose for such things.)

The inject function transforms a, [b] into [(a,b)], i.e. it injects a single value into each value of an array, returning an array of arrays. It doesn't matter whether a or b already is an array, it'll always return a two dimensional array.

inject('a', ['foo', 'bar'])
    =>  [('a', 'foo'), ('b', 'bar')]

The zip function applies the inject function to each element in an array.

zip(['a', 'b'], ['foo', 'bar'])
    =>  [('a', 'foo'), ('a', 'bar'), ('b', 'foo'), ('b', 'bar')]

Note that this actually produces a cartesian product, so zip is a slight misnomer. Simply applying this function to all elements in a data set in succession gives you the cartesian product for an array of any length.

zip(zip(['a', 'b'], ['foo', 'bar']), ['42', '76'])
    =>  [('a', 'foo', '42'), ('a', 'foo', '76'), ('a', 'bar', '42'), …]

This does not contain the keys, but since the elements are all in order within the result set, you can simply re-inject the keys into the result.

array_combine(['key1', 'key2', 'key3'], ['a', 'foo', '42'])
    =>  [ key1 : 'a', key2 : 'foo', key3 : '42' ]

Applying this to all elements in the product gives the desired result.

You can collapse the above three functions into a single long statement if you wish (which would also clear up the misnomers).


An "unrolled" version without anonymous functions for PHP <= 5.2 would look like this:

function inject($elem, $array) {
    $elem = (array)$elem;
    foreach ($array as &$a) {
        $a = array_merge($elem, (array)$a);
    }
    return $array;
}

function zip($array1, $array2) {
    $prod = array();
    foreach ($array1 as $a) {
        $prod = array_merge($prod, inject($a, $array2));
    }
    return $prod;
}

function cartesian_product($array) {
    $keys = array_keys($array);
    $prod = array_shift($array);
    $prod = array_reduce($array, 'zip', $prod);

    foreach ($prod as &$a) {
        $a = array_combine($keys, $a);
    }
    return $prod;
}
share|improve this answer

I quickly adjusted your code a bit , my attempt is crude i think but see if this works as you want:

$result = array();
$nm = '';
foreach ($map as $name => $a) {
    if (empty($result)) {
        $result = $a;
        $nm = $name;
        continue;
    }

    $res = array();
    foreach ($result as $r) {
        foreach ($a as $v) {
            $myr = $r;
            $myv = $v;
            if(!is_array($r)) $myr = array($nm => $r);
            if(!is_array($v)) $myv = array($name => $v);

            $res[] = array_merge($myr, $myv);
        }
    }
    $result = $res;
}
echo "<pre>";
print_r($result);
share|improve this answer

Another solution:

function getAllVariations($input) {
    $result = array();
    $cnt = array_product(array_map('count', $input));
    $step = 1;
    foreach ($input as $key=>$array) {
        for ($i=0; $i<$cnt; $i++) {
            foreach ($array as $value) {
                for ($k=0; $k<$step; $k++) {
                    $result[$i+$k][$key] = $value;
                }
                $i += $step;
            }
            $i--;
        }
        $step = $step * count($array);
    }
    return $result;
}

Usage:

$input = array(
    'arm' => array('A', 'B', 'C'),
    'gender' => array('Female', 'Male'),
    'location' => array('Vancouver', 'Calgary'),
    'name' => array('Rio', 'Mark')
);

echo "<pre>";
var_dump(getAllVariations($input));
share|improve this answer

Why not use a database to do this?

It's easy in MySQL..

table arm
   id integer primary key
   label char

table gender
   id integer primary key
   gender enum('male','female')

table location
   id integer primary key
   city varchar(255)

Then do a query

$query = mysql_query(" 
  SELECT a.label, g.gender, l.city
  FROM arm a
  CROSS JOIN gender g
  CROSS JOIN location l
  ORDER BY a.id
") or die("Could not execute query");

while($row = mysql_fetch_array($query) )
{
   ....
}

And read that out:

share|improve this answer
    
Thanks for your solution but I can not do this particular problem in a database. I will definitely use your query as a reference if I do later on, however. – Lotus Notes Jun 11 '11 at 18:47

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