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In have the next function, that swap the value of &x with the value of &y (meaning swap *(&y) and *(&x).


push EBP
mov EBX, [EBP+12] ; ebx = *x
mov EAX, DWORD [EBX] ;eax = ebx = *x
mov DWORD [EBP-4], EAX ; [ebp-4] = eax =*x
mov EDX, [EBP+8] ; edx = *y
mov EAX, DWORD [EDX] ; eax = *edx = *y
mov DWORD [EBX], EAX ; ebx = eax = *y
mov EAX, DWORD [EBP-4] ; eax = *x
mov DWORD [EDX], EAX ; edx = *x
pop EBP ; ebx = *y and edx = *x
// call Swap
push x
push y
call swap

I didn't understand why it's not working. I added a marks that explain how I understood it. Whats worng? thanks. (I don't need the correct implementation of that).

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This is non-atomic memory access. Any chance this is occurring in a threaded environment? –  Michael Dorgan Dec 14 '11 at 22:18
fwiw, swap can be done with xchg or even on the stack if you want to preserve all regs: push [x] push [y] pop [x] pop [y] –  Martin Dec 15 '11 at 1:20
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1 Answer

You don't actually reserve memory on the stack that you use when you access a dword at [EBP-4]. It can get overwritten by things like interrupt routines, signal handlers, asynchronously called procedures, whatever applies in your OS.

The code should be like this instead:

push EBP

sub ESP, 4 ; reserve memory for a local variable at [EBP-4]

mov EBX, [EBP+12] ; ebx = &x
mov EAX, DWORD [EBX] ; eax = x
mov DWORD [EBP-4], EAX ; [ebp-4] = eax = x
mov EDX, [EBP+8] ; edx = &y
mov EAX, DWORD [EDX] ; eax = y
mov DWORD [EBX], EAX ; *&x = y
mov EAX, DWORD [EBP-4] ; eax = x
mov DWORD [EDX], EAX ; *&y = x

leave ; remove locals, restore EBP


Also, make sure that you're passing as parameters the addresses of the variables x and y, not the values of the variables. push x+push y will pass the addresses of x and y in NASM but they will pass values of x and y in TASM and MASM.

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