# Most efficient way to mathematically add two multidimensional arrays?

Consider two simple arrays:

``````<?php
\$array1 = array(
'blue' => 5,

'green' => array(
'square' => 10,
'sphere' => 0.5,
'triangle' => 3
),

'red' => array(
'circle' => 1000,
),

'black' => 4,

);

\$array2 = array(
'blue' => 1,

'green' => array(
'square' => 11,
'circle' => 5,
),

'purple' => 10,

'yellow' => array(
'triangle' => 4
),

'black' => array(
'circle' => 6,
),

);
``````

I need to mathmatically add together in a recursive way, each value from each `\$array1` and `\$array2`.

• Preserve keys
• Where a key does not exist in `\$array1` but does exist in `\$array2`, the final array would simply contain the value of `\$array2` (and the other way around as well)
• Where they exist in both, the numeric values would be added `+`
• Non-numeric values wouldn't be touched
• If a value on `\$array1` points to another sub-array, and in `\$array2` it points to a value, the end value would result in that key containing a subarray that contains the values from `\$array1` plus a new key/value using the parent name and it's value (see `black` in the example)
• Should be able to work at virtually unlimited nesting

To clarify, e.g. if we said

``````<?php
\$final = array_merge_special(\$array1, \$array2);

// We would end up with, if you var_export()'d final, something like:
// (Note: Hope I didn't make mistakes in this or it will be confusing,
// so expect mild human error)

\$final = array(
'blue' => 6, // 5+1

'green' => array(
'square' => 21, // (10+11)
'sphere' => 0.5, // only in \$array1
'triangle' => 3 // only in \$array1
'circle' => 5, // only in \$array2
),

'purple' => 10, // only in \$array2

'yellow' => array( // only in \$array2
'triangle' => 4
),

'red' => array( // only in \$array1
'circle' => 1000,
),

'black' => array(
'circle' => 6, // untouched, while \$black is present in both, the \$array1 value does not have a 'circle' key, and is actually only a key/value (see below)
'black' => 4, // the key/value from \$array1 that was not a subarray, even though it was a subarray in \$array2
),

);
``````

This seems outragously daunting to me. I know I could loop over one array and get easily recursively add the values, and I have this working (somewhat), but it's when I get into special rules (such as ones for `black`) that I can't even imagine how broken code would look. There has to be a way to do this would looping over each array individually and `unset()`'ing values to merge?

-
Hi nezZario. My first anser was pants so I have upated it with a working solution. Enjoy... – Captain Payalytic Mar 9 '13 at 12:28
I'm really thinking out loud here but what if you flattened both into a simple assoc arrays with keys like "red-circle", worked on it and then "unflattened"? – James C Mar 9 '13 at 12:40
Why would you when my recursive solution works? – Captain Payalytic Mar 9 '13 at 12:43

You would use array_walk_recursive (see: See php Manual here) and possibly array_merge_recursive. I'd have to think it through further to get the full picture.

OK, decided that this wouldn't work! Array_walk_recursive doesn't pass keys that hold arrays to the function. This problem kept flowing aroung in my brain, so I just had to write a function to do it! Here it is:

``````function dosum(\$arin) {
\$arout = array();
foreach (\$arin as \$key1 => \$item1) {
\$total = 0;
if(is_array(\$item1)) {
foreach(\$item1 as \$key2 => \$item2) {
if(is_numeric(\$key2))
\$total += \$item2;
else
if(is_array(\$item2))
\$arout[\$key1] = dosum(array(\$key2 => \$item2));
else
\$arout[\$key1][\$key2] =\$item2;
}
if(\$total)
if(isset(\$arout[\$key1]))
\$arout[\$key1][\$key1] = \$total;
else
\$arout[\$key1] = \$total;
}
else
\$arout[\$key1] = \$item1;
}
return \$arout;
}
``````

For the 2 arrays given, you would use it like this:

``````print_r(dosum(array_merge_recursive(\$array1, \$array2)));
``````
-
`array_walk_recursive` seems like an excellent starting point. I would suggest that you start by creating the "target structure" - the sum that has all the elements you expect in the final; then you loop over those elements, and if the same element appears in both arrays you sum them, otherwise you assign the value from the structure in which it exists. – Floris Mar 7 '13 at 16:21