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I'm currently learning x86 Assembly language (I'm at the start of the course) and I'm having some problems understanding how the stack works in one particular case.

Let's say I have this code:

double(entier n) { return n + n; }

I've tried to convert it into x86 code and I ended up with this :

push ebp #save old pointer stack
mov ebp, esp #put new pointer stack
mov ebx, dword[ebp + 8] #get argument n and put it in ebx
add ebx, dword[ebp + 8] #add n to ebx 

But then I was totally blocked and couldn't find how to return the value of ebx. I found a solution on internet that was the following:

mov [ebp + 12], ebx
pop ebp
ret
pop ebp
ret

I don't understand how it works. Isn't ebp+12 the value of the 2nd argument? (In my case there's none). The pop is used to move the esp pointer but why do we need 2 pop and 2 return in that case ? Is it only to remove the value that have been used during the function declaration?

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    What is an entier? Calling convention in this case is that a return value is returned in eax. You should do a Google search on writing an assembly program for whatever platform it is you're running on so you can get the basics. And you have two ret statements in sequence separated only by pop ebp which I assume is a typographical error?
    – lurker
    Apr 20, 2019 at 13:26
  • It is an Integer. (Sorry forget to edit it properly) Apr 20, 2019 at 13:27
  • If you're in C, then it should be int. You haven't said what high level language you are using or what platform you are on. It can make a difference. It looks like C, but I'd rather not assume. Especially since you're using a C keyword (double) as a function name which is generally not a good idea.
    – lurker
    Apr 20, 2019 at 13:28
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    The return value goes into eax. Whatever is in eax when the function returns is the return value.
    – fuz
    Apr 20, 2019 at 13:41
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    @LoloGiordano I can't tell you what the random piece of code you found on the internet does. It seems nonsensical and wrong. I advice you to learn (at least initially) from a tutorial or book, not random snippets of code found on the internet.
    – fuz
    Apr 20, 2019 at 15:31

1 Answer 1

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Since it appears that you are throughly confused by this, let me just show you how to do it:

double: push ebp           ; establish...
        mov ebp, esp       ; ...stack frame

        mov eax, [ebp + 8] ; load argument from stack into eax
        add eax, eax       ; add it to itself

        leave              ; tear down the stack frame
        ret                ; return to the caller

Note that I chose eax instead of ebx for the register. This is for two reasons:

  • eax is a caller-saved register (meaning that the caller must take care to preserve its value if desired) whereas ebx is a callee-saved register (meaning that the callee, i.e. double must preserve its value). If we wanted to use ebx, we had to save and restore its old value. If we use a caller-saved register like eax instead, we can avoid this effort.
  • eax is the register where by convention the return value is found. The caller will take the value of eax as the return value.

    In almost all calling conventions for x86, the return value is whatever value is found in eax on return. Thus, by placing the result of the addition in eax, we don't have to do any extra work to set up the return value.


For future questions along these lines, I advise you to consult the output of a C compiler with optimisations turned on. The C compiler is very good at generating assembly and rarely makes any mistakes. On UNIX-like systems such as Linux, you can use the -S option to generate assembly code. For gcc I advice you to type

gcc -m32 -O3 -masm=intel -fno-omit-frame-pointer -S -o- source.c

to have assembly code for source.c printed to the terminal in Intel syntax, which is the style of assembly you seem to be using.

See also How to remove "noise" from GCC/clang assembly output? for more details.

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    I like the terminology: call-clobbered vs. call-preserved; easier to think about, and you can think about both terms from the caller's perspective (what will a function do to my registers) or from the callee's perspective (how can I use registers). Also avoids implying that anyone needs to do any saving of anything. Just don't touch them, or let no-longer-needed values be clobbered. Apr 20, 2019 at 15:57
  • "If we wanted to use ebx, we had to save and restore its old value. If we use a callee-saved register, we can avoid this effort." I think you meant to say caller-saved register here.
    – John H
    Apr 21, 2019 at 9:17

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