# Sum of sin() results in asm(x87)

I need to calculate the sum of `y(i) = sin(5*i)` in degree, where `i` is increased every iteration. I need to calculate the sum before it becomes greater than 3, and find `i` when the sum is greater.

With the code below, I get an infinite loop:

``````int main() {

float Sum=0;
long i=0;
long A=5;
long B=180;
int C=3;

_asm{
finit
m1:
inc i
fmul i   ; PI * i
fmul A   ; PI * i * 5
fdiv B   ; PI * i * 5 / 180 (value in degree)
fsin ; sin(PI * i * 5 / 180)
fadd Sum ; counter all lopps result
ficom C  ; check if lower than 3 go to m1
jg m1
}
}
``````
-
i have infinity loop and Sum all time =0.0000 i see it in debuger – Andrew Nov 3 '12 at 19:49

A few problems there.

1. `FMUL` expects floating point arguments, but you pass `long`.
2. `FICOM` only sets FPU flags, you have to move them to CPU or use `FCOMI`.
3. `JG` is checking wrong flags, you need to check the carry flag.
4. Your code unbalances the floating point stack.

Bonus: Since 5*PI/180 is constant, you can precalculate that.

You could use some code like this (adjust for your compiler's syntax, this is for gnu assembler):

``````.intel_syntax noprefix
.globl main
main:
sub esp, 16               # allocate space for i, sum and fmt
mov dword ptr [esp+4], -1 # i
fild dword ptr [limit]    # limit
fldz                      # sum
1:
inc dword ptr [esp+4]     # i += 1
fild dword ptr [esp+4]    # i
fmul qword ptr [factor]   # i * factor
fsin
fcomi st, st(1)           # check if below limit
jb 1b
fstp qword ptr [esp+8]    # store on stack for printf
fstp st(0)                # remove limit from fpu stack
mov dword ptr [esp], offset fmt
call printf
add esp, 16               # clean up stack
xor eax, eax              # return value
ret

.data
factor: .double .08726646259971647884 # 5 * PI / 180
limit: .int 3
fmt: .string "i=%d sum=%g\n"
``````

See in operation.

-
try to set lll var like float but it didn't help. The sun not increased – Andrew Nov 4 '12 at 6:37
i do that but loop stil not work correct int main() { float Sum=0; int i=0; int A=5; int B=180; int C=3; _asm{ finit m1:inc i fldpi fimul A fimul i fidiv B fsin fadd Sum fstp Sum fild Sum ficom C fstsw AX sahf jc m1 } } – Andrew Nov 4 '12 at 16:47
If i use jg m1 loop work but not stop – Andrew Nov 4 '12 at 16:50

Maybe it's offtopic, but using simple trigonometric identities, you can calculate answer without any loops for arbitrary sum value with a simple formula:

``````i=ceil(acos(cos(t/2)-2*result_sum*sin(t/2))/t-0.5)
``````

where t is your step angle (5 degrees), result_sum - needed acumulated sum of consecutive sines (=3 in your case)

-