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I was wondering if I got this correctly:

As far as I know the syntax for relative addressing in x86 is like this:

base + index * scale + displacement

Now Igiven these assumptions:

int i //valuee in ecx 
int arr[256] //adress in esi

I want to load the following into eax:

arr[i + 10]

My first guess was:

mov eax, dword ptr[esi + ecx*4 + 10*4]

But I am unsure about the second multiplication since it would not fit the syntax mentioned above.

Also: What if the datatype of the index and the array are different. e.g:

short arr[i + 10]

What happens to the multiplication?

share|improve this question
up vote 2 down vote accepted

its always easier to break it down a bit, following your code:

  • esi is a pointer to arr
  • ecx is i
  • 10 * sizeof(int) = 40

so now we put it together:

mov eax, dword ptr[esi + ecx* 4 + 40]

thus your statement is correct. the second multiplication should be folded away by your assembler to a constant 40, if it doesn't then you'll need to calculate it by hand, but you'd need to test that on your assembler (or compiler if this is for inline assembly).


You'd need to adjust the constants to the new element size, registers won't need to be changed though: mov eax, dword ptr[esi + ecx * 2 + 20]

if this is done as inline assembler, then you can use the sizeof operator, to make life simpler, and have it folded away, certain assemblers may also allow a SIZEOF macro.

share|improve this answer
Ahhh dumb me. Totally forgot about optimizations like that ;-) – er4z0r Feb 20 '12 at 11:34
Hey I modified the original question to include a related topic. Can u comment on that too? – er4z0r Feb 20 '12 at 11:41
@er4z0r: see my update – Necrolis Feb 20 '12 at 11:45
It should be either esi+ecx*4+40 (32-bit) or rsi+rcx*8+80 (64-bit), but not a mix of two. Also, I don't think you can nowadays find an assembler which doesn't do constant expression folding. Even assuming you do get one, it will definitely complain about "invalid" instruction when assembling it. – Igor Skochinsky Feb 20 '12 at 12:11
@Igor: It seems my math was a little off... however, ints are constant sized, so its 40 for 32 or 64 bit – Necrolis Feb 20 '12 at 14:00

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