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I want to know how passing arguments to functions in C works. Where are the values being stored and how and they retrieved? How does variadic argument passing work? Also since it's related: what about return values?

I have a basic understanding of CPU registers and assembler, but not enough that I thoroughly understand the ASM that GCC spits back at me. Some simple annotated examples would be much appreciated.

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Argument passing depends on the calling convention, which depends on the CPU. What CPU are you using? MIPS? x86? x86-64? – Gabe Dec 9 '10 at 7:11
@Gabe x86. cdecl and stdcall are probably most pertinent. @Ignacio Vazquez-Abrams good link, reading through some of the stuff there now – jay.lee Dec 9 '10 at 8:57

4 Answers 4

Considering this code:

int foo (int a, int b) {
  return a + b;

int main (void) {
  foo(3, 5);
  return 0;

Compiling it with gcc foo.c -S gives the assembly output:

    pushl   %ebp
    movl    %esp, %ebp
    movl    12(%ebp), %eax
    movl    8(%ebp), %edx
    leal    (%edx,%eax), %eax
    popl    %ebp

    pushl   %ebp
    movl    %esp, %ebp
    subl    $8, %esp
    movl    $5, 4(%esp)
    movl    $3, (%esp)
    call    foo
    movl    $0, %eax

So basically the caller (in this case main) first allocates 8 bytes on the stack to accomodate the two arguments, then puts the two arguments on the stack at the corresponding offsets (4 and 0), and then the call instruction is issued which transfers the control to the foo routine. The foo routine reads its arguments from the corresponding offsets at the stack, restores it, and puts its return value in the eax register so it's available to the caller.

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+1 simple and direct, exactly what he asked for :) – BlackBear Dec 9 '10 at 13:49

That is platform specific and part of the "ABI". In fact, some compilers even allow you to choose between different conventions.

Microsoft's Visual Studio, for example, offers the __fastcall calling convention, which uses registers. Other platforms or calling conventions use the stack exclusively.

Variadic arguments work in a very similar way - they are passed via registers or stack. In case of registers, they are usually in ascending order, based on type. If you have something like (int a, int b, float c, int d), a PowerPC ABI might put a in r3, b in r4, d in r5, and c in fp1 (I forgot where float registers start, but you get the idea).

Return values, again, work the same way.

Unfortunately, I don't have many examples, most of my assembly is in PowerPC, and all you see in the assembly is the code going straight for r3, r4, r5, and placing the return value in r3 as well.

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Your questions are more than anybody could reasonably try to answer in a SO post, not to mention that it's implementation defined as well.

However, if you're interested in the x86 answer might I suggest you watch this Stanford CS107 Lecture titled Programming Paradigms where all the answers to the questions you posed will be explained in great detail (and quite eloquently) in the first 6-8 lectures.

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These lectures look good. Definitely going to try and check them out. Just need to find the time :) – jay.lee Dec 9 '10 at 8:58

Basically, C passes arguments by pushing them on the stack. For pointer types, the pointer is pushed on the stack.

One things about C is that the caller restores the stack rather the function being called. This way, the number of arguments can vary and the called function doesn't need to know ahead of time how many arguments will be passed.

Return values are returned in the AX register, or variations thereof.

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Although what you described is a common occurrence of how things work, nowhere in the C standard is the concept of a 'stack' described. All of the things you mentioned are implementation defined details and are not tied to C in any way. – SiegeX Dec 9 '10 at 7:20
@SiegeX: I think this answer is making a reasonable assumption, considering that the OP didn't state the architecture they're using. – wj32 Dec 9 '10 at 7:32
It's certainly not true that C always uses caller restore. It is required for variable argument functions, but not for those with fixed parameters. Thus, callee restore is often used in the latter case. A common example is fastcall. – Matthew Flaschen Dec 9 '10 at 7:47
Heck, if your calling convention included a parameter count, even variadic functions would be callee-restore. – Gabe Dec 9 '10 at 9:13
The OP was non-specific and didn't say anything about the C standard. I made some assumptions and offered my input. – Jonathan Wood Dec 10 '10 at 6:08

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