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I'm struggling with some x86-64 assembly, and floating point numbers are giving me a headache. For instance, when I run this code :

section .data
     omega:  dq 2.0
     omega2: dq 3.0

section .text
global func

func: push rbp
      mov rgp, rsp

      FINIT

      FLD qword [omega]
      FLD qword [omega2]
      FADD st0, st0

      mov rsp, rbp
      pop rbp
      ret

This function is called from a C code like that : printf("%Lf \n", func() ); Unfortunately the result is some bizarre number... I tried adding two integers using FIADD, and it worked fine. I dug through a ton of material already, but maybe someone here can point me to decent FPU tutorial, or share her/his experience and wisdom :)

Wrapping up the essentials:

  • language: x86-64 assembler
  • assembler: nasm v. 2.09.04 installed from repositories
  • compiler (for C): gcc v. 4.5.2 (installed with Ubuntu)
  • OS: Ubuntu 11.04 64bit on Oracle VM
  • Host OS: Windows 7 SP1 64bit
  • Processor: Intel i5 - 2430M 64bit (checked twice :D )
  • Problem: FPU can't add two numbers :(

Just in case : in the end i hope to use FSINCOS and other fancy FPU instructions, but seeing as even simple addition fails...

Thanks all in advance!

share|improve this question
2  
One way to figure out the intricacies is to compile some simple C code, and look at the resulting machine code with a disassembler. – Oliver Charlesworth Jun 3 '12 at 23:29
    
Well, it seems that it used SSE instruction set. Maybe I will try this approach tomorrow. – Losiowaty Jun 3 '12 at 23:43
4  
You don't use the legacy FPU in x86_64. At least you shouldn't. Better use the scalar SSE instructions. – hirschhornsalz Jun 4 '12 at 0:19
    
why don't use SSE/SSE2, it's much faster and you don't get into trouble like the stack problem – Lưu Vĩnh Phúc Jan 23 '14 at 7:15
up vote 1 down vote accepted

Ok, so in the end it turned out that my problems were related to the fact, that FPU registers are organized as a stack, and i didn't pay enough attention to it which resulted in garbage and unwanted leftovers. Switching from "standard" to "pop" versions of instructions helped!

Anyway - thanks to all who bothered to read, it is much appreciated! :)

If anyone is interested - I was doing a class assignment where I had to compute motion of one planet from the view of another (geocentric model) in assembly. The final result translated to processing can be viewed here.

share|improve this answer

The L qualifier to printf %f makes that argument a long double (80-bit float), which is not the assembly data type. Remove the L and it will default to a double (64-bit float) which is what you are computing.

Also, it should be

  FADD st1, st0

to add the two numbers together. Otherwise it will double the second value.

share|improve this answer
    
Well, the problem still stands. – Losiowaty Jun 3 '12 at 23:44
    
@Losiowaty: Does the C code have a declaration for func()? – wallyk Jun 3 '12 at 23:46
    
It does, otherwise I would get a linker error during compilation. And you are right with the addition formula, but still, it doesn't matter what i try to add/sub/div/mul. – Losiowaty Jun 4 '12 at 7:33
    
@Losiowaty: What is the declaration? Especially the return type. – wallyk Jun 4 '12 at 7:46
    
I tried all of them : float, double, long double, but it goes like this: extern double func(); – Losiowaty Jun 4 '12 at 7:48

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