# Assembly Language Integer registers

I don't understand what this assembly instruction does. What is its effect and why?

``````imull \$16, (%eax, %edx,4)
``````

The initial values of the registers are

``````%eax= 0x100x
%edx= 0x3
``````
• How would I solve? I don't see a problem in the first place. Are you asking what would the result be?
– Flexo
Feb 27, 2012 at 0:04

I'm assuming you're trying to understand how to interpret that AT&T style assembly instruction, in particular the addressing part. I'm sure you don't need help understanding what the `imull \$16` part does - it simply performs a signed multiplication, the last `l` standing for `long` word.

`(%eax, %edx, 4)` is a form of addressing, where you have a base address, an offset of a certain amount of elements, and a scale/multiplier for multiplying the number of elements by the size of each one: `(base, offset, offset scale/multiplier)`.

What you end up with is `(base + (offset * multiplier)`, so in this case it'll be:

``````(%eax + (%edx * 4))
(0x100 + (0x3 * 4))
(0x100 + 0xC)
(0x10C)
``````

Therefore the instruction `imull \$16, (%eax, %edx,4)` performs a signed multiplication of `16` by the value of the long word at the address `0x10C`.

The result of this instruction will be whatever `dword` is stored at the address `0x10c` multiplied by 16 (or, if you prefer, shifted to the left by 4 bits). The result will be written to that address as well.

• how did you find the address to be 0x10c
– Raj
Feb 27, 2012 at 0:15
• this wat i did 0x3 + 4= 0x7 then 0x7 + 0x100=? this where i am confused
– Raj
Feb 27, 2012 at 0:16