# Register addressing

I have an exam tomorrow in this and I'm getting really confused about this question.What are the values contained in the AL and AH register after each instruction is executed. Assume AL=9 and AH=0 before each instruction is executed.

• nop (no operation they remain the same)

• mov al,ah (al=0 ah=0)

• push ax (pushs ah and al onto a stack?)

• dec ax

• add ax,257

• add al,251

• shl al,2

I know the first few I get confused when the ax is mentioned, i.e, add ax,257 should I add 257 onto ah and al? just remember al and ah are set back to 9 and 0 at the start of each instruction

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On which architecture? –  Oliver Charlesworth May 17 '12 at 16:10
em, 8086 I think –  user1244808 May 17 '12 at 16:12
So you have 0009 in AX, dec ax turns that into 8, adding 257 aka 0101 gives 010A. –  harold May 17 '12 at 16:16

## 2 Answers

AX is the concatenation of AH and AL (or, in reverse, AL is the low byte of AX, and AH is the high byte of AX). So, before each instruction, AX=0009h.

When one of your instructions operates on AL, however, it won't affect AH at all.

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Yeah, but how does adding into ax affect ah and al? –  user1244808 May 17 '12 at 16:16
You'll get a new value in AX, the low byte of which will be in AL and the high byte of which will be in AH. –  Jerry Coffin May 17 '12 at 16:17
so say ah = 0 and al =10 and I want to add 256 onto ax. Would al = 245 and ah= 11 –  user1244808 May 17 '12 at 16:20
@user1244808: It's a lot easier to think of the splitting in hexadecimal. 10+256=266. 266 decimal = 010A hex. That means AH = 01 hex, and AL = 0A hex. Converting those back to decimal, we get 1 and 10 respectively. –  Jerry Coffin May 17 '12 at 16:22
I dont get this at all, sorry, bringing hex into it just confuses me more –  user1244808 May 17 '12 at 16:25

Remember that al and ah are just ways of referring to the lower and higher bytes of the ax register. With AX, its best to think about it as a 16 bit register when it appears, and then break it down into its lower and higher halves, when asked what the value of AH or AL is. So your register looks like this, if they start at 9 and 0:

`````` 00000000   00001001
|________| |________|
AH         AL
|___________________|
AX
``````

So, for instance `add ax, 257` looks like this:

``````    |0000000|  |00001001|
+
|0000001|  |00000001|

=   |0000001|  |00001010|
``````
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