# ASM programming, how to use loop?

Im first time here.I am a college student. I've created a simple program by using assembly language. And im wondering if i can use loop method to run it almost samething as what it does below the program i posted. and im also eager to find someome who i can talk through MSN messanger so i can ask you questions right away.(if possible) ok thank you

``````.MODEL small
.STACK 400h

.data

prompt                 db      10,13,'Please enter a 3 digit number, example 100:',10,13,'\$'    ;10,13 cause to go to next line
first_digit         db      0d
second_digit            db      0d
third_digit         db      0d
Not_prime               db      10,13,'This number is not prime!',10,13,'\$'
prime                   db      10,13,'This number is prime!',10,13,'\$'
question                db      10,13,'Do you want to contine Y/N \$'
counter                 dw      0d
number                  dw      0d
half                    dw      ?

.code

Start:

mov ds, ax
mov number, 0d

LetsRoll:

mov dx, offset prompt          ; print the string (please enter a 3 digit...)
mov ah, 9h
int 21h                         ;execute
mov ah, 1d          ;bios code for read a keystroke
int 21h             ;call bios, it is understood that the ascii code will be returned in al
mov first_digit, al     ;may as well save a copy
sub al, 30h         ;Convert code to an actual integer
cbw             ;CONVERT BYTE TO WORD. This takes whatever number is in al and
;extends it to ax, doubling its size from 8 bits to 16 bits
;The first digit now occupies all of ax as an integer
mov cx, 100d            ;This is so we can calculate 100*1st digit +10*2nd digit + 3rd digit
mul cx              ;start to accumulate the 3 digit number in the variable imul cx
;it is understood that the other operand is ax
;AND that the result will use both dx::ax
;but we understand that dx will contain only leading zeros
;variable <number> now contains 1st digit * 10
;----------------------------------------------------------------------

mov ah, 1d          ;bios code for read a keystroke
int 21h             ;call bios, it is understood that the ascii code will be returned in al
mov second_digit, al        ;may as well save a copy
sub al, 30h         ;Convert code to an actual integer
cbw             ;CONVERT BYTE TO WORD. This takes whatever number is in al and
;extends it to ax, boubling its size from 8 bits to 16 bits
;The first digit now occupies all of ax as an integer
mov cx, 10d         ;continue to accumulate the 3 digit number in the variable
mul cx              ;it is understood that the other operand is ax, containing first digit
;AND that the result will use both dx::ax
;but we understand that dx will contain only leading zeros. Ignore them
add number, ax          ;save -- nearly finished
;variable <number> now contains 1st digit * 100 + second digit * 10
;----------------------------------------------------------------------

mov ah, 1d          ;bios code for read a keystroke
int 21h             ;call bios, it is understood that the ascii code will be returned in al
mov third_digit, al     ;may as well save a copy
sub al, 30h         ;Convert code to an actual integer
cbw             ;CONVERT BYTE TO WORD. This takes whatever number is in al and
;extends it to ax, boubling its size from 8 bits to 16 bits
;The first digit now occupies all of ax as an integer
add number, ax          ;Both my variable number and ax are 16 bits, so equal size
mov ax, number          ;copy contents of number to ax
mov cx, 2h
div cx              ;Divide by cx
mov half, ax            ;copy the contents of ax to half
mov cx, 2h;
mov ax, number;         ;copy numbers to ax
xor dx, dx          ;flush dx

print_question:

mov dx, offset question     ;print string (do you want to continue Y/N?)
mov ah, 9h
int 21h             ;execute
mov ah, 1h
int 21h             ;execute
cmp al, 4eh         ;compare
cmp al, 6eh         ;compare
cmp al, 59h         ;compare
cmp al, 79h         ;compare

prime_check:

div cx;             ;Divide by cx
cmp dx, 0h          ;reset the value of dx
xor dx, dx;         ;flush dx
mov ax, number          ;copy the contents of number to ax
cmp cx, half            ;compare half with cx
inc cx;             ;increment cx by one
jmp prime_check         ;repeat the prime check

print_prime:

mov dx, offset prime        ;print string (this number is prime!)
mov ah, 9h
int 21h             ;execute
jmp print_question      ;jumps to question (do you want to continue Y/N?) this is for repeat

print_not_prime:

mov dx, offset Not_prime    ;print string (this number is not prime!)
mov ah, 9h
int 21h             ;execute
jmp print_question      ;jumps to question (do you want to continue Y/N?) this is for repeat

Exit:

mov ah, 4ch
int 21h             ;execute exit

END Start
``````
-

...You mean use a loop? You already are. Twice.

Or do you mean use the LOOP instruction? If that's your goal, i'd say don't bother. Last i heard, these days, LOOP is slower on most processors than the equivalent dec, compare, and branch. Add to that the fact that in your case, 1 and 0 are special (dividing by 1 will always work, throwing off your logic, and by 0 it'll cause an error), and it makes it not worth your while to LOOP.

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From my experience with similar cases, I'm inclined to think that this program is just copied from somewhere, and chris doesn't actually understand what's in there and what it does and how. :-)) – Fyodor Soikin Apr 24 '10 at 1:39
i donno why there is such a offended reply. I thought this website to for helpe each other. please gtfo if you don't feel like help here. – chris Apr 24 '10 at 1:47
@chris - welcome to StackOverflow and good luck with the assembly. To Fyodor's point, there's a fine line between helping and doing someone else's (home)work. Your question is pretty much on the line, so don't be offended if people expect you to do your own studying and ask precise, careful questions. Best of luck! – Sam Post Apr 24 '10 at 3:05

Im no assembly expert but I think the ways you loop in assembly is either finit (iterate): define a max number of loops and increment a value to compare with for each time finish it with a je.

The conditional loop would be the same thing but instead of incrementing a number you compare your pre-defined value to another value and end with a je so it will loop until you achieved what you want.

I did not take a close look at your code though as im kind of in a hurry, so sorry if this wasnt what you ment.

Edit: of course you dont have to use the jump if equal instruction, you could also go with not equal or any of the other ones depending on the situation.

Edit 2: heh forgot about the most basic one, just jump back to the start of the loop for an infinite loop. Though you'd probably want something to break it with so its not very common :)

-
Incrementing and using a je involves an extra instruction - the cmp. You are better off decrementing your counter register and doing a jnz or variant (jump on not zero - the Zero (Z) flag gets set when a register hits zero). – slugster Apr 24 '10 at 1:47
ok thanks for the quick reply. i think ill stick with this then. thx – chris Apr 24 '10 at 1:52
What he said - As I said I'm no assembly expert, didn't even think about that :) – Jonas B Apr 24 '10 at 1:52
One extra instruction in the grand scheme of things it doesn't really matter. Many people doing asm tend to be purists, oneof the reasons why they do asm is that they want things to be as tight and optimized as possible. So i just thought i would point that out :) – slugster Apr 25 '10 at 0:01