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I'm working on quicksort in x86 assembly and I need to swap two elements of an array A[pivot] and A[j], but I can't even assign a value to an array index let alone swap the elements.

Array is assigned as such:

A:      .long   2,1,8,6,12

My original scheme of swapping didn't work at all so I reduced it to this to understand where my problem is. I've tried numerous ways to get the correct results, but all either result in the wrong value or a segmentation error

    movl    A(,%ebx,4), %eax            #eax = A[pivot]
    movl    A(,%edi,4), %edx            #edx = A[j]

                                        #ebx = pivot = 0
                                        #edi = j = 1

    pushl   %eax
    pushl   $test7                      #"A[pivot] = %d"
    call    printf
    addl    $8, %esp                    # A[0] = 2 

    pushl   %edx
    pushl   $test8                      #"A[j] = %d"
    call    printf
    addl    $8, %esp                   #A[1] = 1

This snippet returns:

A[pivot]         = 2 
A[j]             = -143535296 

A[pivot] = A[0] = 2, so that is correct, but A[j] = A[1] = 1

Is this the correct way to reference array elements when %ebx and %edi are two array indices to view their contents or change their values.

Can't figure out what I'm doing wrong, any help would be appreciated.

edit: Also, if I use A(,[index],4) as a printf argument it DOES display the right values.

edit1: I realize why my printf statements were incorrect, I changed to the code and it returned what seem to be the right memory addresses. addr[A] = 134513652 and addr[A+1] = 134513656. My original problem of changing the values of an array still exists though, I continue to get a segmentation fault when performing this:

    leal    A(,%ebx,4), %ecx        # ecx = addr[A[0]]          
    movl    A(,%edi,4), %edx        # edx = A[1]
    movl    %edx, (%ecx)            # (ecx) = edx
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Try some testing with opcode leal (load effective address, long) and see if you're getting addresses that are close to each other. I don't know how it would happen, but there might be some shenanigans with segment registers going on. –  eh9 Nov 5 '12 at 19:28
Your printf call is spoiling edx. Be careful about calling functions and either save volatile registers or use callee-saved ones like esi, edi, ebx. –  Igor Skochinsky Nov 5 '12 at 19:42
I used 'leal A, %eax' and 'leal A, %edx' right after eachother with no displacement then printed %eax and %edx Which gave me '%eax = 134513652 ', the correct address of A, and '%edx = -143224000 ' which is completely off. Something weird is definitely happening, I am solely using 32-bit registers if that is pertinent. edit: Okay, didn't realize that printf would change the register values that explains the result from the second printf call. –  edge360 Nov 5 '12 at 19:44
I got for the address addr[A] = 134513652 and addr[A+1] = 134513656 , so I suppose they are the correct memory addresses I then supposed I could do this to change a value leal A(,%ebx,4), %eax movl A(,%edi,4), %edx movl %edx, (%eax), but this just returns a segmentation fault. –  edge360 Nov 5 '12 at 20:13
OK. You've posted your debugging code, but what was the code you were using for the swap, the one that wasn't working? –  eh9 Nov 5 '12 at 20:52

1 Answer 1

You should read about calling conventions esp. callee and caller save registers. On many ia32 calling conventions EAX, ECX and EDX are caller save register. That means a call - in your case the first printf call - may potentially change their value. It is called caller save because you as a caller are responsible for saving the value for example with push/pop instructions. Your example can also be fixed by using one of the callee saved registers.

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