I'm attempting to create a square root function with my double sqrt(double num)
where num is the number that will be square rooted. Let's say I input a 25.25 into my function. The expected output will be 5.02493781056
according to my calculator. However, somehow is getting a segmentation fault. The function is purely for learning purposes. I was browsing on the internet saying that I need to return the full value of the memory address that I'm returning. Here is what I have. The code snippet is running with nasm -f macho64
with a main.c
file.
sqrt.s
section .text
global _sqrt
; double sqrt(double num);
_sqrt:
fld qword [rdi] ; read the number given
fsqrt ; float square root instruction
fst qword [rax] ; float store value to rax
ret ; and return it's value
main.c
int main(void)
{
printf("my square function return: %f", sqrt(25));
return (0);
}
sqrtsd xmm0, xmm0
/ret
. No calling convention passesdouble
by reference; 32-bit would pass it on the stack directly. I'm surprisedrax
happened to hold a valid pointer so yourfst
didn't fault.fld qword [rdi]
tosqrtsd xmm0, xmm0
in the first instruction but still segfaulting. UPDATE: havingsqrtsd xmm0, xmm0 / ret
is giving me a value of 0.00000 @PeterCordesret
? If not, you're doing it wrong, and of course it still segfaults when you try to use[rax]
as a pointer, because the caller doesn't pass a pointer in RAX. Use your debugger to see which instruction faults. Look at the first code block in John's answer on Assembly 64bit: How to return a double value?, and Calling Convention of Floats in Nasm.