# Finding midpoint of array in MIPS - Merge sort

I'm trying to create a merge sort algorithm in MIPS and I've identified a bug in my code. In my program, I'm keeping references to the start point and end point of my array (\$a0 and \$a1 respectively). I'm also keeping track of its length as \$a1 - \$a0 + 4. The problem is that I don't know how to calculate the midpoint of the array correctly. I need to do so for these equivalent function calls in C:

``````mergesort(a, start, mid);
mergesort(a, mid + 1, end);
``````

I'm new to MIPS so I'm not exactly sure how you do the arithmetic with 4-bit addresses. I can't add them as (\$a0 + \$a1) / 2 since adding two addresses will cause overflow.

My array is declared up on top as this:

``````array: .word 0:15
``````

I can assume that not more than 15 numbers will be entered. \$s0 (the pointer to the start of the array), \$s1 (the pointer to the space AFTER the last element), \$a0 (the starting point argument), and \$a1 (the end point argument) are all stored like this:

``````la \$s0, array
move \$s1, \$s0 // \$s1 increments by 4 each time an element is added
...
move \$a0, \$s0
addi \$a1, \$s1, -4 // subtract four because we want to refer to the last element
``````

How can I calculate the mid index of that array given \$a0 and \$a1 as references? Any help would be appreciated. Thanks!

-

`(\$a0 + \$a1) / 2 = \$a0 + (\$a1 - \$a0) / 2` and you won't have any overflow.
``````  addu \$a2, \$a0, \$a1  # \$a0 and \$a1 hold start and end addresses