# TASM bit operations

I need to show all numbers from matrix(3x3) where number has two first bits set. I think i'm somewhere near the solution, but something is wrong, can you point what is wrong?

.model small
.stack 100h
.data
n equ 3
a dw n*n dup(?)

.code
extrn write:near

begin:
mov ax,@data
mov ds,ax
mov cx,n*n
mov si,0
m1:
mov a[si],ax
loop m1

mov si,0
mov cx,n*n
m2:
mov bx, a[si]
test bx,1
jz net
test bx,2
jz net
mov ax,a[si]
call write
net:
loop m2

mov ah,4ch
int 21h
end begin
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What symptom are you seeing that makes you think there's a problem? –  Nathan Fellman Dec 6 '10 at 20:49
I think that determination of first two bits is wrong, because where i enter 3 6 7 it gives me only two of them, but they both have 11 as first bits. –  Viktor Dec 6 '10 at 20:53
@Viktor: True, numbers 3 and 7. The highest bit is on the most left side of the number! –  GJ. Dec 6 '10 at 21:51
by "first two bits" do you mean the two LSBs or MSBs? –  Nathan Fellman Dec 6 '10 at 22:11
Voting to close as "asked 15 years too late". –  Hans Passant Dec 6 '10 at 23:12

It depends on what you mean by "two first bits set." The code you've written works fine if you're looking for the two lowest-order bits. That is, bit 0 and bit 1 are set. The example you give in the comments (3, 6, 7), probably outputs 3 and 7 because they have their lowest-order two bits set. That is:

3 = 00000011 binary
6 = 00000110 binary
7 = 00000111 binary

So only 3 and 7 meet the conditions you've written in your code.

You appear to be interpreting "two first bits" to mean that the number starts with the binary sequence "11" after any leading zeros. If that's really the interpretation you want, then you'll have to use the left shift instruction until the high bit is set to 1, and then check if the next-to-highest bit is set to 1.

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Ahhh... Instead shifting you can, use test bx, 0x8000 to test the highest bit or bt bx, 11 –  GJ. Dec 6 '10 at 23:12
Yes, you can test the high bit if that's what you're trying to find. But if you want to find the bit pattern "^0*11" (i.e. find numbers in which a 1 follows the highest set bit), then you'll need to do some shifting. –  Jim Mischel Dec 6 '10 at 23:13
In that case you can use bit scan reverse instruction bsr cl,bx after that test the zero flag and skip scaning if set (because bx = 0) than dec cl and test sign bit and skip scaning if set (because only first bit is set) and than bt bx,cl to test next bit. –  GJ. Dec 7 '10 at 0:20
Agreed. Although the bsr instruction isn't available in 16-bit code, which is what he's writing. –  Jim Mischel Dec 7 '10 at 14:48
From 80386 CPUs and later is available also in 16 bit mode as I remember! –  GJ. Dec 7 '10 at 19:30