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Learning Assembly with NASM, Ubuntu, 32 bits.

My array in .data:

ary db 1,2,2,4,5 ; Five elements of one byte each

And some number:

tmp db 2   ; Holds the number 2

Let's say I want to print the element at index 4 in the array (so it would be 5).

I know I could do this:

mov EAX,4
mov EBX,0
mov ECX,ary          ; Put the array's address in ECX
add ECX,4            ; Move address four bytes to the right
add byte [ECX],'0'   ; The value at this address to ASCII
mov EDX,1
int 0x80

However, for whatever reasons, I decided that instead of writing the constant number 4, I want to do it by multiplying my variable (which is 2) by 2.

This is the updated code:

mov EAX,[tmp]   ; Put the number 2 in EAX
mov ECX,ary     ; Put the array's address in ECX
add ECX,EAX * 2 ; Move (2 * 2) = 4 bytes to the right
add byte [ECX],'0' ; Decimal to ASCII
mov EAX,4
mov EBX,0
mov EDX,1
int 0x80

This doesn't work at add ECX,EAX * 2:

invalid operand type

But why? Doesn't ECX evaluate to 2? Being equivalent to

add ECX,2 * 2

Curiously, these do work:

add ECX,EAX * 1   ; Moves by 2
add ECX,EAX * 0   ; Moves by 0

The above suggests me that the answer is no. And the reason that multiplying by 1 or 0 works is because the assembler doesn't actually need to do any multiplication to know the answer in the first place.

Does this mean that to achieve what I want, I do have to use the mul instruction?

share|improve this question
up vote 2 down vote accepted

In x86, although lea supports multiplication by a constant, the add instruction doesn't support an operand that multiples a register by a constant. It supports additive offsets, but not multiplication. I assume, as you noted, that the assembler is being somewhat forgiving in this case in the accepted syntax of add ECX,EAX*0 and add ECX,EAX*1 as being equivalent to add ECX,0 and add ECX,EAX, respectively.

You would instead need do something like this:

mov ECX,ary     ; Put the array's address in ECX
mov EAX,[tmp]   ; Put the number 2 in EAX
shl EAX,1       ; (instead of mul EAX,2)
add ECX,EAX     ; Move (2 * 2) = 4 bytes to the right
add byte [ECX],'0' ; Decimal to ASCII
mov EAX,4
mov EBX,0
mov EDX,1
int 0x80
share|improve this answer
This answer in this context is simply wrong. – johnfound Sep 15 '13 at 9:09
@johnfound sorry I missed the case of lea. I modified the answer to not be as inclusive about the supporting instructions. But to be clear, it doesn't universally support the mechanism. – lurker Sep 15 '13 at 11:10
Your answer is not generally wrong. Only in the context of the question. :) – johnfound Sep 15 '13 at 11:15
@johnfound indeed, thanks. – lurker Sep 15 '13 at 11:16

You CAN do multiplication and adding in one instruction if you use lea:

lea ECX,[ECX+EAX*2]
share|improve this answer

The instruction LEA can be used to provide two additions and one limited multiplication at once. The common syntax is:

lea reg, [offset+reg+const*reg]

Here, reg is any register, offset is some constant number and const is one of 1, 2, 4 or 8 constant.

This way, this instruction is very powerful is order to compute some pretty complex equations:

The equation from the question:

add ECX,EAX * 2

can be computed this way:

lea ecx, [ecx+2*eax]

There are many other uses:

lea  eax, [ebx+2*ebx] ; eax = 3*ebx
lea  eax, [eax+4*eax] ; eax = 5*eax
lea  eax, [ecx+8*ecx] ; eax = 9*ecx
lea  eax, [1234+ebx+8*ecx]

Note, that FASM allows shorter syntax for the above examples:

lea  eax, [3*ebx]
lea  eax, [5*eax]
lea  eax, [9*ecx]

Additional advantage of lea instruction is that it does not affects the flags. The execution speed of this instruction is very fast on all x86 CPU.

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