# Print decimal in 8086 emulator

I implemented the multiplication of two big integer in `emu8086` with code as below :

``````; MULTIPLY N1 * N2 = RES
MULTIPLY PROC
MOV BH, 0H

MOV CH, 0H
MOV CL, L1; initial counter of first loop ( L1 -> length of N1 )
DEC CX

MUL_1:
MOV COUNTER, CL ; store counter of first loop
MOV CL, L2 ; initial counter of second loop ( L2 -> length of N2 )

MUL_2:
MOV BH, 0H
MOV BL, COUNTER
DEC BL
MOV AL, N1[BX] ; get BX th byte of N1

MOV BL, CL
DEC BL

MUL N2[BX] ; multiple N1 and N2 's bytes

MOV BH, 0H
MOV BL, COUNTER
DEC BX

ADD RES[BX], AL ; AL should be add into RES[loop1_counter + loop2_counter - 1]
ADC RES[BX+1], AH; AH and carry should be add into RES[loop1_counter + loop2_counter ]
LOOP MUL_2

MOV CL, COUNTER; retrieve loop 1 counter
LOOP MUL_1

RET ; end function
MULTIPLY ENDP
``````

So, i want to print it in `Decimal Mode`, i know how to print result in `HexaDecimal` :

``````PRINT_TABLE PROC
MOV CX, 16D

CASE:
MOV BX, 16D
SUB BX, CX

MOV AL, RES[BX]

CMP AL, 10D
JB LBL1
JAE LBL2

LBL1:
JMP CONTINUE

LBL2:

CONTINUE:

MOV DL, AL
MOV AH, 02H
INT 21H
LOOP CASE
RET
PRINT_TABLE ENDP
``````

-

Unfortunately, converting a value to decimal is not as simple as converting it to hexadecimal. This is because base-10 is not a related base of base-2 (i.e. 10 is not a power of 2). We need to use modulus and division to achieve the conversion. The general algorithm in C would look something like this :

``````unsigned int val = 58932; // assume int is 32-bit
char buf[11] = { 0 }, *chr = buf+9; // 11 characters is enough because log10(2^32) = 9,63, +1 for \0
do
{
*chr = (val % 10) + '0'; // to ascii
--chr;
} while((val /= 10) != 0);
++chr;
``````

Upon completion, `chr` will point to a null-terminated `char*` array which will hold the ASCII representation of the base-10 value of `val`.

You can achieve it in assembly with the `DIV` instruction. Most optimizing C compilers optimize it out to a multiplication operation, which is much faster than division (it can be done only if the divisor is constant, though).

-

I solved my problem with changing my code as below :

``````NORMALIZE PROC
MOV CH, 0H
MOV CL, L1
DEC CX

NOMRALIZE_LOOP:
MOV BX, CX
DEC BX
MOV AL, RES[BX]
MOV AH, 1H
MUL AH
AAM
MOV RES[BX], AL
LOOP NOMRALIZE_LOOP
RET
NORMALIZE ENDP

; MULTIPLY N1 * N2 = RES
MULTIPLY PROC
MOV CH, 0H
MOV CL, L1

MOV AL, '0'

MOV BH, 0H

SUB_N1:
MOV BL, CL
DEC BL
SUB N1[BX], AL
LOOP SUB_N1

MOV CL, L2

SUB_N2:
MOV BL, CL
DEC BL
SUB N2[BX], AL
LOOP SUB_N2

MOV CH, 0H
MOV CL, L1

MUL_1:
MOV COUNTER, CL
MOV CL, L2

MUL_2:
MOV BH, 0H
MOV BL, COUNTER
DEC BL
MOV AL, N1[BX]

MOV BL, CL
DEC BL

MUL N2[BX]

AAM

MOV BH, 0H
MOV BL, COUNTER
DEC BX
DEC BX

LOOP MUL_2

MOV CL, COUNTER
LOOP MUL_1

RET
MULTIPLY ENDP
``````

I changed the multiplication and storing numbers with `AAM` function. At the end, i add `NORMALIZE` function to convert result to decimal. :)

Hope others can use it :)

-
`AAM` is an instruction used for decimal arithmetic and operations on numbers stored in BCD. It's unavailable in 64-bit mode. But as long as your only interest is getting this working in emu8086, then - great! :) –  Daniel Kamil Kozar Feb 2 '12 at 19:14