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What I wanted to achieve

At the time of compilation, the compiler knew the function call was valid because you included the iostream header file, but since that function was not part of the cpp file, the compiler just leaves a stub at the call site. The linker goes through the object file, and for each stub, it finds the correct function address and replaces the stub with the correct address from one of the other object files being linked. by ALEX ALLAN , Jumping to C++

In above the "stub" , I wanted to see in real object files.

What I did as follows,

Code //main.cpp

#include "f.h"

using namespace std;

int main()
{

   myfunc();

    return 0;
}


    //f.cpp
    #include "f.h"
    void myfunc()
    {
    }


 //f.h
#ifndef F_H_INCLUDED
#define F_H_INCLUDED

 void myfunc();

#endif // F_H_INCLUDED

above 3 in separate files.

objdump command I used on main.o

C:\Users\User\Downloads\binutils-2.22-1-mingw32-bin.tar\binutils-2.22-1-mingw32-
bin\bin>objdump.exe -S -C C:\Users\User\Documents\myC++\testFuncstabs\obj\Debug\
main.o

enter image description here

But now I am stuck at finding "stub" for myFunc in this output?

Could anyone help me on this ? or suggest me another strategy to achieve this goal?

share|improve this question
    
The stub seems to be the three call statements in a row which just call each other. No idea how that works. – Mooing Duck Jul 12 '13 at 20:43
    
That's actually a consequence of the x86 instruction encoding - in the final executable, they are redirected to other locations (i.e. other functions). – Drew McGowen Jul 12 '13 at 20:50

"Stub" in this context does not mean a small function. Instead, it refers to a small placeholder value. Notice how at hex offsets 109, 120, 125 etc. have 4 bytes as zero? That's the stub. When the linker processes the object file, it'll look through a relocation table stored elsewhere in the object file. This table includes references to other symbols as well as what parts of code/data use those symbols. Once the linker finds where that symbol is defined, it will replace (aka relocate) those "stub" values to point to the correct address. If you were to view the disassembly of main from the actual executable, you would see all those zeros replaced with other values (aka the address (rather, the offset) of the functions, variables etc. that your code uses).

share|improve this answer
1  
Using objdump -dr main.o will show these relocation records in the disassembly output, making it even clearer how this all works. – Employed Russian Jul 13 '13 at 5:03

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