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I am a beginner in C programming language, recently I have started learning functions, I have studied that functions use keyword return to return a value in the caller function. For example the following program.

int getVal(){
 return 1000;
}

int main(){
int x = getVal();
printf("x = %d",x);
return 0;
}

will print x = 1000

but I am confused that (under turbo C compiler 32 bit) why the following program is producing output as x = 1000 too. Please explain.

int get_val(){
 _AX = 1000;
}

int main(){
int x = get_val();
printf("x = %d",x);
return 0;
}
share|improve this question
up vote 23 down vote accepted

The "return value" is returned in a particular register (defined by the "ABI", the Application Binary interface, which describes how compilers should generate their code), in most x86 systems, that is EAX (32 bit) or AX (16 bit) [not saying _AX isn't actually EAX internally].

This compiler obviously supports using a "register" directly by naming it _AX. So by loading the [E]AX register with a value, we are essentially returning this value.

This definitely won't work in any other compiler, although inline assembler can achieve the same thing.

share|improve this answer
    
the syntax won't work but concept works... – Grijesh Chauhan Jul 21 '13 at 5:27

In C here, _AX is a pseudo register. And when you do AX=1000, this value 1000 is taken from the Accumulator

But it may not work as expected in GCC compiler

Compile and Run the following program in Turbo C, you will get 35 as output. It may not work in other compilers.

#include<stdio.h>  
int main()  
{
    int a = 0;  
    a = 35;  
    printf("%d");  
    return 0;
}  

Assume the address of a = 1200. Assume the address of video memory = 5500;

MOV AH, 35  
MOV [1200], AH  
MOV [5500], AH // prints on the screen.  

This is the way of execution takes place. After copying the value 35 to location 1200, AH retains the value 35.

Then printf("%d") tries to get the value from AH and sends to video memory to display it on screen.

If we use printf("%d %d", age, salary), the value of age transfered to AH before using that value to send to video memory. Then the value of salary is moved to AH then send to video memory.

Assume, Address of age = 1200; Address of salary= 1202; Address of video memory = XXXX; (It will changed according to no. of chars printed on the screen, dont think much about this address value)

MOV AH, [1200]
MOV [XXXX], AH
MOV AH, [1202]
MOV [XXXX], AH

I hope this will help to understand the solution for the given program.

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1  
Ahaa it reminds me college day programming, see accumulator uses because return value immediately assigned when control returns to calling function so gcc also use a register. But thing is this code(syntax-wise) not supported by gcc compiler. Writing assembly code in C is called inline-assembly, and its compiler dependent (in syntax also) – Grijesh Chauhan Jul 20 '13 at 19:53
1  
@GrijeshChauhan: Sharing what you know is a Prime Factor Sir, Votes and rep are secondary! – user2045557 Jul 20 '13 at 19:56
    
Ah I forgot to share one more thing, try to disassemble executable compiled by gcc (using objdump exename) or get compiled assembly code (gcc -S code.c) and check register for return. – Grijesh Chauhan Jul 20 '13 at 20:00

According to TC compiler (32 bit), the returned value of a function is stored in Accumulator (AC), and it can be accessed in TC compiler using _AX, so when you write:

_AX = 1000;

means that you are placing value 1000 inside Accumulator, and when the function completes its execution and the control reaches to the caller function, then the value of Accumulator is checked, and in this case this value will be stored in x.

here the statement

x = get_val();

would be simply

x = 1000;

but this would be in your case only, means in (TC 32 bit windows compiler), it may or may not work for other compilers.

share|improve this answer
    
I wonder if Borland still allows this with C++ Builder? Back when it was first released, Macs were running on PPC CPUs, which have no AX, EAX, etc. registers... – Chrono Kitsune Jul 21 '13 at 9:18

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