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# Array permutations in multidimensional array keeping the keys PHP

For two days I've been running crazy trying to accomplish this, maybe you can enlighten me. This is for a horse betting permutation. Every time a user plays, I get a multidimensional array (2 levels). The first level contains the race ID, the the second level contains thee horses selected by the user for that race. It looks like this:

``````\$play = array
(
'4' => array(7, 32),
'8' => array(4),
'2' => array(9),
'12' => array('5'),
'83' => array('10', '11', '12', ''),
'9' => array('3'),
);
``````

I need to know what are all the possible combinations for that play. Which is easily done with this function:

``````function permutations(array \$array)
{
switch (count(\$array)) {
case 1:
return \$array[0];
break;
case 0:
throw new InvalidArgumentException('Requires at least one array');
break;
}

\$a = array_shift(\$array);
\$b = permutations(\$array);

\$return = array();
foreach (\$a as \$key => \$v) {
if(is_numeric(\$v))
{
foreach (\$b as \$key2 => \$v2) {
\$return[] = array_merge(array(\$v), (array) \$v2);
}
}
}

return \$return;
}
``````

This returns an array with all the possible combinations beautifully. So far so good, and the result looks like this:

``````Array
(
[0] => Array
(
[0] => 7
[1] => 4
[2] => 9
[3] => 5
[4] => 10
[5] => 3
)

[1] => Array
(
[0] => 7
[1] => 4
[2] => 9
[3] => 5
[4] => 11
[5] => 3
)

[2] => Array
(
[0] => 7
[1] => 4
[2] => 9
[3] => 5
[4] => 12
[5] => 3
)

[3] => Array
(
[0] => 32
[1] => 4
[2] => 9
[3] => 5
[4] => 10
[5] => 3
)

[4] => Array
(
[0] => 32
[1] => 4
[2] => 9
[3] => 5
[4] => 11
[5] => 3
)

[5] => Array
(
[0] => 32
[1] => 4
[2] => 9
[3] => 5
[4] => 12
[5] => 3
)

)
``````

My problem: I need the array "key" for every horse to be the "race ID", not 0,1,2,3. I need the result to be like this:

``````Array
(
[0] => Array
(
[4] => 7
[8] => 4
[2] => 9
[12] => 5
[83] => 10
[9] => 3
)

[1] => Array
(
[4] => 7
[8] => 4
[2] => 9
[12] => 5
[83] => 11
[9] => 3
)

[2] => Array
(
[4] => 7
[8] => 4
[2] => 9
[12] => 5
[83] => 12
[9] => 3
)

[3] => Array
(
[4] => 32
[8] => 4
[2] => 9
[12] => 5
[83] => 10
[9] => 3
)

[4] => Array
(
[4] => 32
[8] => 4
[2] => 9
[12] => 5
[83] => 11
[9] => 3
)

[5] => Array
(
[4] => 32
[8] => 4
[2] => 9
[12] => 5
[83] => 12
[9] => 3
)

)
``````

How can I accomplish this? I know its a long post but I needed to graph this. I am having problems to wrap my head around the function recursion and I get totally lost in each loop.

-
Why are some values numbers in your initial array and some strings? Why the empty one? – Samir Talwar May 11 '11 at 16:31
Because it comes from a HTML checkboxes array, so the user may leave some of the checkboxes empty. The permutations() function ignores the values that are not integers. That's not a problem :) – Danny H May 11 '11 at 16:34
how it should be with a key please paste some sample of valid array you looking forward to make. – Khurram Ijaz May 11 '11 at 16:40
The last code block contains the needed array structure. Thanks! – Danny H May 11 '11 at 17:01

Here's what you need. I have commented as necessary:

``````function permutations(array \$array)
{
switch (count(\$array)) {
case 1:
// Return the array as-is; returning the first item
// of the array was confusing and unnecessary
return \$array;
break;
case 0:
throw new InvalidArgumentException('Requires at least one array');
break;
}

// We 'll need these, as array_shift destroys them
\$keys = array_keys(\$array);

\$a = array_shift(\$array);
\$k = array_shift(\$keys); // Get the key that \$a had
\$b = permutations(\$array);

\$return = array();
foreach (\$a as \$v) {
if(is_numeric(\$v))
{
foreach (\$b as \$v2) {
// array(\$k => \$v) re-associates \$v (each item in \$a)
// with the key that \$a originally had
// array_combine re-associates each item in \$v2 with
// the corresponding key it had in the original array
// Also, using operator+ instead of array_merge
// allows us to not lose the keys once more
\$return[] = array(\$k => \$v) + array_combine(\$keys, \$v2);
}
}
}

return \$return;
}
``````

By the way, calculating all the permutations recursively is neat, but you might not want to do it in a production environment. You should definitely consider a sanity check that calculates how many permutations there are and doesn't allow processing to continue if they are over some limit, at the very least.

-
Jon, thanks for your excellent response. I tried it with the sample array and it works flawlessly, however, if I use this array, it throws an error on array_combine(): \$traits = array ( '4' => array(7, 32), '8' => array(4), '2' => array(9, 1), '12' => array(5, 78), '83' => array(10), '9' => array(3,67), ); – Danny H May 11 '11 at 17:44
The problem occurs when the last element of the input array contains 2 or more values. array(3, 67). I'm trying to fix it, but if you find a solution, I'd really appreciate it. – Danny H May 11 '11 at 18:30

I've got the same problem and Danny's solution wasn't good for me. I manage thousand of permutation and store them in memory is damn expensive.

Here my solution:

``````/**
* Calculate permutation of multidimensional array. Without recursion!
* Ex.
* \$array = array(
*   key => array(value, value),
*   key => array(value, value, value),
*   key => array(value, value),
* );
*
* @param array \$anArray Multidimensional array
* @param function \$isValidCallback User function called to verify the permutation. function(\$permutationIndex, \$permutationArray)
* @return mixed Return valid permutation count in save memory configuration, otherwise it return an Array of all permutations
*/
function permutationOfMultidimensionalArray(array \$anArray, \$isValidCallback = false) {

// Quick exit
if (empty(\$anArray))
return 0;

// Amount of possible permutations: count(a[0]) * count(a[1]) * ... * count(a[N])
\$permutationCount = 1;
// Store informations about every column of matrix: count and cumulativeCount
\$matrixInfo = array();
\$cumulativeCount = 1;

foreach(\$anArray as \$aColumn) {

\$columnCount       = count(\$aColumn);
\$permutationCount *= \$columnCount;

// this save a lot of time!
\$matrixInfo[] = array(
'count'           => \$columnCount,
'cumulativeCount' => \$cumulativeCount
);

\$cumulativeCount  *= \$columnCount;
}

// Save the array keys
\$arrayKeys = array_keys(\$anArray);
// It needs numeric index to work
\$matrix = array_values(\$anArray);
// Number of column
\$columnCount = count(\$matrix);
// Number of valid permutation
\$validPermutationCount = 0;
// Contain all permutations
\$permutations = array();

// Iterate through all permutation numbers
for (\$currentPermutation = 0; \$currentPermutation < \$permutationCount; \$currentPermutation++) {

for (\$currentColumnIndex = 0; \$currentColumnIndex < \$columnCount; \$currentColumnIndex++) {
// Here the magic!
// I = int(P / (Count(c[K-1]) * ... * Count(c[0]))) % Count(c[K])
// where:
// I: the current column index
// P: the current permutation number
// c[]: array of the current column
// K: number of the current column
\$index = intval(\$currentPermutation / \$matrixInfo[\$currentColumnIndex]['cumulativeCount']) % \$matrixInfo[\$currentColumnIndex]['count'];

// Save column into current permutation
\$permutations[\$currentPermutation][\$currentColumnIndex] = \$matrix[\$currentColumnIndex][\$index];
}

// Restore array keys
\$permutations[\$currentPermutation] = array_combine(\$arrayKeys, \$permutations[\$currentPermutation]);

// Callback validate
if (\$isValidCallback !== false) {
if (\$isValidCallback(\$currentPermutation, \$permutations[\$currentPermutation]))
\$validPermutationCount++;
// *** Uncomment this lines if you want that this function return all
//     permutations
//else
//  unset(\$permutations[\$currentPermutation]);
}
else {
\$validPermutationCount++;
}

// Save memory!!
// Use \$isValidCallback to check permutation, store into DB, etc..
// *** Comment this line if you want that function return all
//     permutation. Memory warning!!
unset(\$permutations[\$currentPermutation]);
}

if (!empty(\$permutations))
return \$permutations;
else
return \$validPermutationCount;
}

//
// How to?
//

\$play = array(
'4'  => array(7, 32),
'8'  => array(4),
'2'  => array(9),
'12' => array('5'),
'83' => array('10', '11', '12', ''), // <-- It accept all values, nested array too
'9'  => array('3'),
);

\$start = microtime(true);

// Anonymous function work with PHP 5.3.0
\$validPermutationsCount = permutationOfMultidimensionalArray(\$play, function(\$permutationIndex, \$permutationArray){

// Here you can validate the permutation, print it, etc...
// Using callback you can save memory and improve performance.
// You don't need to cicle over all permutation after generation.
printf('<p><strong>%d</strong>: %s</p>', \$permutationIndex, implode(', ', \$permutationArray));

return true; // in this case always true
});

\$stop = microtime(true) - \$start;

printf('<hr /><p><strong>Performance for %d permutations</strong><br />
Execution time: %f sec<br/>
Memory usage: %d Kb</p>',
\$validPermutationsCount,
\$stop,
memory_get_peak_usage(true) / 1024);
``````

If someone has a better idea i'm here!

-

I improved Jon's function by merging his algorithm with the one I had initially. What I did, was check if the function was doing a recursion, if so, I use the original array_merge() (which was working), else I use Jon's array_combine() (to keep the arrays keys).

I'm marking Jon's answer as correct since he proposed a slick solution to keep the array keys intact.

``````function permutations(array \$array, \$inb=false)
{
switch (count(\$array)) {
case 1:
// Return the array as-is; returning the first item
// of the array was confusing and unnecessary
return \$array[0];
break;
case 0:
throw new InvalidArgumentException('Requires at least one array');
break;
}

// We 'll need these, as array_shift destroys them
\$keys = array_keys(\$array);

\$a = array_shift(\$array);
\$k = array_shift(\$keys); // Get the key that \$a had
\$b = permutations(\$array, 'recursing');

\$return = array();
foreach (\$a as \$v) {
if(is_numeric(\$v))
{
foreach (\$b as \$v2) {
// array(\$k => \$v) re-associates \$v (each item in \$a)
// with the key that \$a originally had
// array_combine re-associates each item in \$v2 with
// the corresponding key it had in the original array
// Also, using operator+ instead of array_merge
// allows us to not lose the keys once more
if(\$inb == 'recursing')
\$return[] = array_merge(array(\$v), (array) \$v2);
else
\$return[] = array(\$k => \$v) + array_combine(\$keys, \$v2);
}
}
}

return \$return;
}
``````

Tested successfully with several array combinations.

-