# Assembly FPU Stack Breaking; Resulting in -1.#IND

I'm newish to assembly in general, and especially to usage of the FPU.

I'm writing an assignment for school that calculates the Standard Deviation of an array of random numbers.

The array is loaded and the mean calculation works fine. The entire process works for an array of 7 values or smaller, but returns -1.#IND (This means NaN?) for an array size of 8 or more elements.

Something is happening within the loop that sums the (mean - element)^2 values. I'm not sure what's happening, but I'm assuming the FPU stack is breaking in some way.

If anyone can point me in the right direction, I'd be thoroughly pleased.

fla = REAL8

``````; STD DEVIATION
stdDev:
call    meanCalcFunc            ; fmean = loaded

mov     ebx, offset array1      ; Location of Element into EBX
mov     ecx, [esp+4]            ; ECX = num of elements in array
mov     mem1, 0                 ; Mem1 = 0
fld     mem1                    ; ST = 0
fstp    fla                     ; fla = ST = 0

mainFunc:
mov     eax, [ebx]              ; Array Element into EAX
mov     mem1, eax               ; Array Element into mem1
fld     fmean                   ; ST = mean of array

fisub   mem1                    ; mean - element -> ST

fld     ST                      ; Now ST and ST(1) = difference of mean - element
fmulp   ST(1), ST               ; Difference^2 in ST(1)

fld     ST(1)                   ; Copy Difference^2 to ST

fadd    fla                     ; FLA += Difference^2
fstp    fla

add     ebx, 4                  ; Move to next element in array
loop    mainFunc

fld     fla                     ; ST = Sum of squares

mov     ecx, [esp+4]            ; Num of elements to ECX
mov     mem1, ecx               ; Num of elements to mem1

fidiv   mem1                    ; ST = Sum of squares / num of elements

fst     fla

fsqrt                           ; ST = final result

fstp    fla                     ; flb = final result

INVOKE _gcvt, fla, 8, ADDR outstring
output  devlbl, outstring

ret
``````
-
I'm guessing you used up the FPU stack. "The term stack overflow originates from the situation where the program has loaded (pushed) eight values from memory onto the x87 FPU register stack and the next value pushed on the stack causes a stack wraparound to a register that already contains a value. If the invalid-operation exception is masked, the x87 FPU returns the floating point, integer, or packed decimal integer indefinite value to the destination operand, depending on the instruction being executed." –  DCoder May 12 '12 at 19:43
Ok, that's pretty much what I thought. I tried, however, to pop most of the values I loaded on when I could. Is there another way to free up portions of the stack? –  QuestionablePurple May 12 '12 at 19:45

Your loop contains an unbalanced number of loads and pops, so each loop iteration leaves one more item on the x87 stack. When the stack overflows, you get the result you are observing. Don't do that.

``````instruction        elements on stack
-------------------------------------------
mainFunc:          k
fld     fmean      k + 1
fisub   mem1       k + 1
fld     ST         k + 2
fmulp   ST(1), ST  k + 1
fld     ST(1)      k + 2