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Please consider the following code:

#include <stdio.h>

int main()
{
    static int counter=5;

    printf ("Counter = %d\n", counter);

    if (counter--)
    {
        main();
    }

    return 0;
}

Compile:

gcc test.c -ansi -Wall –pedantic

Execute:

[root@mars home]# ./a.out 
Counter = 5
Counter = 4
Counter = 3
Counter = 2
Counter = 1
Counter = 0

Here main() is calling itself().

It seems that main() function's original stackframe will be overwritten each time main() is called by itself.

But what will be the return address? Can a function return to its own stackframe?

Please help me clarify this doubt.

Thanks.

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8  
int counter is declared static and therefore not allocated on the function's stack, but on the global heap. –  alk Oct 23 '12 at 7:39
4  
apart from that, the stack isn't overwritten. Everytime the function is called a new stack is pushed, and popped again upon returning –  stijn Oct 23 '12 at 7:47
    
@alk i accidently upvoted. Static variables are neither allocated in stack or heap. They are generally in data segment with distinct sections for initialized and uninitialized(BSS) ones. However, this might vary across implementations. –  fayyazkl Oct 23 '12 at 9:43

3 Answers 3

up vote 6 down vote accepted

No it is not overwritten. It is a normal function call (in this case recursive). You are probably confused by your counter variable. This variable is declared static, which means that it is initialized only once, so the line below is "executed" only once:

static int counter=5;

In other words you can think of your counter as if it was a global variable initialized only once (with the value 5). In each invokation of main it is decremented until it reaches zero. After that happens all the main functions return, so the stack is unwinded (as in normal function call which it is).

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This is quite normal in many computer languages, and is called 'recursion'. A new stack frame is created for each invocation of the function so there is no overwriting.

The return address of the outer main() is the runtime library as usual. The return address of the inner main() is the outer main().

The one thing that muddies the waters in your example is that you declared counter as static. That means it is allocated on the heap in the data segment rather than on the stack (as explained by alk in the comment), so each invocation of main() shares the same instance of counter.

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2  
Not necessarily on the heap. It's most likely just a global variable. –  Alexey Frunze Oct 23 '12 at 7:54
    
Thanks for this correction. @AlexeyFrunze –  alk Oct 23 '12 at 7:57
    
Thanks, yes I had a feeling heap wasn't quite right but had a mental block as I wrote that. –  Ian Goldby Oct 23 '12 at 8:56
    
In fact, never on heap since heap needs to be explicitly cleared. It is part of Data segment generally with separate sections for initialized vs uninitialized values (BSS) –  fayyazkl Oct 23 '12 at 9:45

Short answer: It's a simple case of recursion. So it will allocate new stack frames & not overwrite previous frame.

Long answer:
What happens to stack Frames when main() calls main():
C doesn't differentiate main from any other function. It's a simple, normal case of recursion. 'main' is special ONLY because, the default crt0.asm that came with the compiler (or whatever its name is in your compiler) calls main after its basic initialization (like stack pointer, etc) is done.
Apart from this difference, there is nothing, in which main is special.

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