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I am reading "Computer Systems: A Programmer Perspective", chapter 3 explains mov instruction, and explanation give in a book confuses me.

give a function (page 142 1's edition)

int exchange( int *xp, int y)
    int x = *xp;
    *xp = y;
    return x;

Assembly code of function's body

movl 8(%ebp), %eax  //Get xp  
movl 12(%ebp), %edx //Get y  
movl (%eax), %ecx   //Get x at *xp  
movl %edx, (%eax)   //Store y at *xp  
movl %ecx, %eax     //Set x as return value

What confuses me, is what is going to be stored, and where
Here is how I understand this:

movl 8(%ebp), %eax  //Get xp  

CPU moves +8 bytes up the stack(from frame pointer %ebp), takes the value stored at that location, and stores this value at the register %eax(to emphasis - stores the value, not the address)

I am right ? Thanks !

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3 Answers 3

up vote 3 down vote accepted

Yeah, it sounds like you've got it right. IMHO, the AT&T 8(%ebp) syntax is less intuitive than the Intel [ebp+8] which is more clear. The brackets show that you're using the value at the address in the register, and the number is the offset from that address you actually want.

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VERY true...... –  ruslik Nov 4 '10 at 3:23
So in other words, because %ebp stores pointer, we use parentheses around its name, to specify that we are getting the value stored +8bytes away from %ebp. In this case, 8(%ebp) contains pointer *xp. Later on, in line movl (%eax), %ecx we are dereferencing xp same way as we did in the first line of assembly code –  newprint Nov 4 '10 at 3:59
Now, everything is straighten out. Parenthesis was the source of confusion ! Thanks ! –  newprint Nov 4 '10 at 4:01

Yes, this is using AT&T syntax, which is of the form:

instruction     source, dest

Intel assembly is the opposite order.

You are also right about the 8(%ebp) moving 8 bytes up from the frame pointer. The reason it moves 8 bytes, specifically, is because parameters are pushed onto the stack in reverse order ("right" to "left" when looking at a typical function call). Thus, y was pushed first, then xp and finally the return address of the caller function (which is why you move 8 bytes rather than 4).

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You need to understand what is a stack frame. Learn what exactly push and pop instructions do. Before that code there was an

   push y_val
   push xp_ptr
   call exchange
   push ebp
   mov ebp, esp
// .. rest of code
// stack frame: 
   old_ebp_val  ; [ebp] points here
   .cont        ; [ebp + 4]
   xp_ptr       ; [ebp + 8]
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My question is not about stack, even thought stack is involved. It is about values stored in register and memory –  newprint Nov 4 '10 at 3:25
@user Try implementing RTTI in mind. Always keep track of the types of values. –  ruslik Nov 4 '10 at 3:56

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