Recursion in Mips

I'm currently trying to figure out how to code a function of finding the lowest integer in MIPS following this algorithm...

``````int Min( int[] A, int low, int high)
{   if (low== high) return A[low];
int mid = (low+high)/2;
int  min1 = Min( int[] A, low, mid);
int   min2 =Min( int[] A, mid +1, high);
if(min1>min2) return min2;
return min1;
}
``````

I'm receiving problems as I attempt to code this in MIPS. Here is my current MIPS code. The user inputs up to 6 integers which are stored in an array. The registers \$a0, \$a1, and \$a2 are used as arguments for the function.

• \$a0 = int[]A
• \$a1 = int low //index
• \$a2 = int high //index

Here is the recursion function...

``````min:
bne \$a1, \$a2, recur
mul \$t4, \$a1, 4
lw \$v1, 0(\$a0)
jr \$ra
# recursion start
recur:
addiu \$sp, \$sp, -12 #reserve 12 bytes on stack
sw \$ra, 0(\$sp) #push return address
# mid = (low+high)/2 t0 = mid t1= min1 t2=min2 t3 = mid+1
add \$t0, \$a1, \$a2 # t0 = low + high
div \$t0, \$t0, 2 # t0 = (low+high)/2

# mid1 = min(int[]A,low,mid)
min1:
sw \$a2, 4(\$sp) #push high
addi \$t3, \$t0, 1 # mid+1
sw \$t3, 8(\$sp) #store mid+1
move \$a2, \$t0 #change high to mid
jal min #compute
# check
move \$t1, \$v1 #set up the min1 = return value

# mid2 = min(int[]A,mid+1,high)
min2:
lw \$a2, 4(\$sp) #reload high prior call
lw \$a1, 8(\$sp) #change low to mid+1
jal min #compute
move \$t2, \$v1 #set as the min2 = return value

confirm:
# return mid2 if mid1 > mid2
bgt \$t1, \$t2, returnMid2
# else return mid1
move \$v1, \$t1
j minFinal
returnMid2:
move \$v1, \$t2
minFinal:
lw \$ra, 0(\$sp)
addiu \$sp, \$sp, 12 #release stack
jr \$ra
``````

The problem is whatever combination of integers I input during the program, I never get the minimum value but rather the number "543976553". I've been looking over my code and notes and I still don't have a clue.

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Why are you doing it this complicated? A simple linear search is at least as good. –  erikkallen Dec 5 '10 at 13:33
Have you tried to go step-by-step for example in MARS simulator ? --> courses.missouristate.edu/KenVollmar/MARS/download.htm –  digEmAll Dec 5 '10 at 13:43
@erikkallen: I guess it's an homework exercise, something like: "Translate this C function in MIPS"... –  digEmAll Dec 5 '10 at 13:45
Stupid assignment in that case. They could've made him do a binary search instead, which is not pointless. –  erikkallen Dec 6 '10 at 23:16
This algorithm can be a good idea because it's parallelizable. –  CodesInChaos Dec 12 '10 at 14:03

For mid1, try putting the return value on the stack and then moving it to \$t1 AFTER mid2 is called. Then compare \$v0 with \$t1 instead of comparing \$t1 with \$t2

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When using the div command in MIPS, doesn't one need to acquire the quotient from \$LO ?

thus your logic for (high+low)/2 might look something like

``````add \$t0, \$a1, \$a2 # t0 = low + high
addi \$t5, \$zero, 2 # t5=2
div \$t0, \$t5 # LO = t0/t5, HI = t0%t5
addi \$t0, \$LO, 0 # t0 = LO (t0/t5)
``````

some of those lines are written just how I learned to do MIPS but you may have a different style for loading immediate values into a register.

I also can't promise this will fix everything, but at first glance, that is something I noticed.

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