# How to print a number in assembly NASM?

Suppose that I have an integer number in a register, how can I print it? Can you show a simple example code?

I already know how to print a string such as "hello, world".

I'm developing on Linux.

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Please specify the OS where the program will run. –  Alexey Frunze Nov 19 '11 at 12:56

If you're already on Linux, there's no need to do the conversion yourself. Just use printf instead:

``````;
; nasm -f elf printf-test.asm && gcc -m32 -o printf-test printf-test.o
;
section .text
global main
extern printf

main:

push eax
push message
call printf
ret

message db "Register = %08X", 10, 0
``````

Note that `printf` uses the cdecl calling convention so we need to restore the stack pointer afterwards, i.e. add 4 bytes per parameter passed to the function.

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Thanks, it seems to be the what I was looking for. Do you know if it works also on Mac os X? –  AR89 Nov 19 '11 at 15:17
How to compile it on 64-bit? –  Figen Güngör Dec 19 '12 at 9:43

You have to convert it in a string; if you're talking about hex numbers it's pretty easy. Any number can be represented this way:

``````0xa31f = 0xf * 16^0 + 0x1 * 16^1 + 3 * 16^2 + 0xa * 16^3
``````

So when you have this number you have to split it like I've shown then convert every "section" to its ASCII equivalent.
Getting the four parts is easily done with some bit magic, in particular with a right shift to move the part we're interested in in the first four bits then AND the result with 0xf to isolate it from the rest. Here's what I mean (soppose we want to take the 3):

``````0xa31f -> shift right by 8 = 0x00a3 -> AND with 0xf = 0x0003
``````

Now that we have a single number we have to convert it into its ASCII value. If the number is smaller or equal than 9 we can just add 0's ASCII value (0x30), if it's greater than 9 we have to use a's ASCII value (0x61).
Here it is, now we just have to code it:

``````    mov si, ???         ; si points to the target buffer
mov ax, 0a31fh      ; ax contains the number we want to convert
mov bx, ax          ; store a copy in bx
xor dx, dx          ; dx will contain the result
mov cx, 3           ; cx's our counter

convert_loop:
mov ax, bx          ; load the number into ax
and ax, 0fh         ; we want the first 4 bits
cmp ax, 9h          ; check what we should add
ja  greater_than_9
add ax, 30h         ; 0x30 ('0')
jmp converted

greater_than_9:
add ax, 61h         ; or 0x61 ('a')

converted:
xchg    al, ah      ; put a null terminator after it
mov [si], ax        ; (will be overwritten unless this
inc si              ; is the last one)

shr bx, 4           ; get the next part
dec cx              ; one less to do
jnz convert_loop

sub di, 4           ; di still points to the target buffer
``````

PS: I know this is 16 bit code but I still use the old TASM :P

PPS: this is Intel syntax, converting to AT&T syntax isn't difficult though, look here.

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@downvoter: reason? –  BlackBear Nov 19 '11 at 14:12
You don't need AT&T syntax to run this on linux. –  Andrei Bârsan Feb 5 '13 at 18:52
@AndreiBârsan: You're right, fixed that.. It's such an old answer :) –  BlackBear Feb 5 '13 at 21:13
IMHO, this answer is better since you don't need the C runtime (which a call to `printf(...)` requires. –  Andrei Bârsan Feb 6 '13 at 12:41
@AndreiBârsan yes, and it's kind of pointless using the C runtime in assembly –  BlackBear Feb 6 '13 at 18:25

It depends on the architecture/environment you are using.

For instance, if I want to display a number on linux, the ASM code will be different from the one I would use on windows.

Edit:

You can refer to THIS for an example of conversion.

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A Linux example would be fine. –  AR89 Nov 19 '11 at 13:04
@AR89 it's a bad job.. You have to convert the number to ASCII first. Take a look at the edited question. –  WiseDevil Nov 19 '11 at 13:19