# Creating a function in assembly language (TASM)

I wanted to print the first 20 numbers using loop.

Printing the first nine numbers is absolutely fine as the hexadecimal and decimal codes are the same, but from the 10th number I had to convert each number into its appropriate code and then convert it and store it to string and eventually display it

That is,

``````If (NUMBER > 9)
;10d = 0ah --(+6)--> 16d = 10h
IF NUMBER IS > 19
;20d = 14h --(+12)--> 32d = 20h
``````

Then rotating and shifting each number to get the desired output number, that is,

``````DAA          # let al = 74h = 0111.0100

XOR AH,AH    # ah = 0 (Just in case it wasn't)
# ax = 0000.0000.0111.0100

ROR AX,4     # ax = 0100.0000.0000.0111 = 4007h
SHR AH,4     # ax = 0000.0100.0000.0111 = 0407h
ADD AX,3030h # ax = 0011.0100.0011.0111 = 3437h = ASCII "74" (Reversed due to little endian)
``````

And then storing the result in to the string and displaying it, that is,

``````MOV BX,OFFSET Result    ;Let Result is an empty string
MOV byte ptr[BX],5      ;Size of the string
MOV byte ptr[BX+4],'\$'  ;String terminator
MOV byte ptr[BX+3],AH   ;storing number
MOV byte ptr[BX+2],AL

MOV DX,BX
MOV AH,09H ;Interrupt 21 service to display string
INT 21H
``````

And here is the complete code with proper commenting,

``````MOV CX,20  ;Number of iterations
MOV DX,0   ;First value of the sequence

L1:

PUSH DX
ADD DX,30H  ; 30H is equal to 0 in hexadecimal , 31H = 1 and so on
MOV AH,02H  ; INTERRUPT Service to print the DX content
INT 21H
POP DX
CMP DX,09   ; if number is > 9 i.e 0A then go to L2
JA L2
LOOP L1

L2:
PUSH DX
MOV AX,DX
CMP AX,14H   ;If number is equal to 14H(20) then Jump to L3
JE L3
XOR AH,AH    ;Clear the content of AH

ROR AX,4     ;Rotating and Shifting for to properly store
SHR AH,4

MOV BX,OFFSET Result
MOV byte ptr[BX],5
MOV byte ptr[BX+4],'\$'
MOV byte ptr[BX+3],AH
MOV byte ptr[BX+2],AL

MOV DX,BX
MOV AH,09H
INT 21H
POP DX
LOOP L2

;If the number is equal to 20 come here, ->
; Every step is repeated here just to change 6D to 12D

L3:
XOR AH,AH

ROR AX,1
ROR AX,1
ROR AX,1
ROR AX,1

SHR AH,1
SHR AH,1
SHR AH,1
SHR AH,1

MOV BX,OFFSET Result
MOV byte ptr[BX],5
MOV byte ptr[BX+4],'\$'
MOV byte ptr[BX+3],AH
MOV byte ptr[BX+2],AL

MOV DX,BX
MOV AH,09H
INT 21H
``````

Is there any proper way to do it, creating a function and using if/else (jumps) to get the desired output rather than repeating the code again and again?

PSEUDO CODE:

``````VAR = 6
IF Number is > 9
Else IF Number is > 19
ELSE IF NUMBER is > 29
``````
-
IF/ELSE translates directly into CMP/Jcc/JMP. I'm not sure how you have arrived at `30H is equal to 1 in hexadecimal`. Also, function 2 does not need the length of the string, it prints everything until it reaches "\$". –  Alexey Frunze Sep 23 '12 at 20:13
sorry it was mistakenly written (30h = 0) , could you give me just a two line of code example how can we use CMP/JCC/JMP ? or to create a function , i am just asking for an example –  Great mailz Sep 23 '12 at 20:19
All `IF COND A ELSE B` does is execute one piece of code (`A`, if `COND` is true) or the other (`B`, if `COND` is false). So you check the condition with `CMP`. Then using the appropriate `Jcc` you direct execution at the code immediately after `IF` (`A`) or immediately after `ELSE` (`B`). Needless to say, `A` should not end by continuing execution in `B`, it has to jump over `B`. You have EITHER-OR, not BOTH. –  Alexey Frunze Sep 23 '12 at 20:27
I really think you'll like "aam" better than "daa" (unless it's part of the "assignment"). I doubt if you want "adc" unless you really want to add in the carry flag - use plain "add". Note that a byte could be three digits and this code is only good for two! Fine for "up to 20"... also good for "time" numbers. (else use "div"... repeatedly) –  Frank Kotler Sep 24 '12 at 8:09

So you just want to print 0 ... 20 as ASCII characters? It looks like you understand that the numerals are identified as 0x30 ... 0x39 for '0' to '9', so you could use integer division to generate the character for the tens digit:

I usually work with C but conversion to assembler shouldn't be too complicated since these are all fundamental operations and there are no function calls.

``````int i_value = 29;
int i_tens = i_value/10; //Integer division! 29/10 = 2, save for later use
char c_tens = '0' + i_tens;
char c_ones = '0' + i_value-(10*i_tens); // Subtract N*10 from value
``````

The output will be `c_tens = 0x32, c_ones = 0x39`. You should be able to wrap this inside of a loop pretty easily using a pair of registers.

### Pseudocode

``````regA <- num_iterations //For example, 20
regB <- 0 //Initialize counter register

LOOP:
//Do conversion for the current iteration.
//Manipulate bytes for output as necessary.
regB <- regB +1
branch not equal regA, regB LOOP
``````
-
Ryan is right... (though his syntax is not so clear ;-) ... as I pointed out in the other question, the easiest way to separate decimal digits from each other is to use `div <reg>` where `<reg>` corresponds to any byte register (whose contents are 10d/0ah), and the actual number being held in register AX. This way you'll end up with the lower significant digit in AH (remainder of the division) and the higher one in Al (actual quotient). Using `div` is seemingly the only (basic) way to separate digits without caring about the n*(10h-10d) distance. –  IdiotFromOutOfNowhere Sep 24 '12 at 3:51

The following code counts from 0 up to 99 (ax contains the ASCII number):

``````count proc
mov cx, 100 ; loop runs the times specified in the cx register
xor bx, bx ; set counter to zero
print:
mov ax, bx
aam ; Converts binary to unpacked BCD
xor ax, 3030h ; Converts upacked BCD to ASCII
; Print here (ax now contains the numer in ASCII representation)
inc bx ; Increase counter
loop print
ret
count endp
``````
-
Note that this works for any 2 digit number. –  blaze Oct 18 '12 at 0:30