I'm a little confused about how to print a character to the screen using Assembly. The architecture is x86 (linux). Is it possible to call one of the C functions or is there a simpler way? The character I want to output is stored in a register.


3 Answers 3


Sure, you can use any normal C function. Here's a NASM example that uses printf to print some output:

; assemble and link with:
; nasm -f elf test.asm && gcc -m32 -o test test.o
section .text

extern printf   ; If you need other functions, list them in a similar way

global main


    mov eax, 0x21  ; The '!' character
    push eax
    push message
    call printf
    add esp, 8     ; Restore stack - 4 bytes for eax, and 4 bytes for 'message'

message db 'The character is: %c', 10, 0

If you only want to print a single character, you could use putchar:

push eax
call putchar

If you want to print out a number, you could do it like this:

mov ebx, 8
push ebx
push message
call printf
message db 'The number is: %d', 10, 0
  • Thanks. But what if register ebx holds the value 8, and I want to print the character '8'. If I try and push ebx as the parameter it doesn't work so is there a way around this? Cheers
    – user973758
    Commented Nov 20, 2011 at 13:26
  • 1
    that would be equivalent to printf("%d", 8); I added that to the answer
    – Martin
    Commented Nov 20, 2011 at 13:31

In the interest of completeness, here is how to do it without C.

Using DOS interrupts


Writes character in DL. (I tested this with the DOS emulator emu2)

mov dl, 21h ; char '!'
mov ah, 02h ; char output service
int 21h     ; call DOS services

x86-32 Linux write syscall

write requires the address of your string. For a single character you can push your character on the stack.

push    '!'         ; push dword
mov     eax, 4      ; write call number, __NR_write from unistd_32.h
mov     ebx, 1      ; write to stdout (fd=1)
mov     ecx, esp    ; use char on stack
mov     edx, 1      ; write 1 char
int     0x80        ; call into the kernel
add     esp, 4      ; restore sp 

Info on register order

x86-64 Linux write syscall

Similar to above, but the call number is now 1, syscall instead of int 0x80, and the calling convention registers are different.

push    '!'         ; push qword 0x21
mov     rax, 1      ; write call number, __NR_write from unistd_64.h
mov     edi, 1      ; write to stdout (int fd=1)
mov     rsi, rsp    ; use char on stack
mov     rdx, 1      ; size_t len = 1 char to write.
syscall            ; call the kernel, it looks at registers to decide what to do
add     rsp, 8      ; restore stack pointer

mov edx, 1 does exactly the same thing as mov rdx, 1, but NASM will optimize it for you. This code uses operand-sizes that match the C types, not optimizing mov of small non-negative 64-bit integers.

  • 1
    For x86-64 Linux, you can lea -1(%rsp), %rsi / movb $0x21, (%rsi) to use the red-zone, and not have to pop the stack. Commented Jun 20, 2018 at 4:41
  • and what about for X86-64 Windows? (21h calls are blocked.) Commented Aug 6, 2020 at 18:58
  • 1
    @BrainSlugs83 I don't know about Windows, sorry. Maybe Peter Cordes can shed some light.
    – qwr
    Commented Aug 6, 2020 at 19:21
  • 1
    @BrainSlugs83: Windows has a system-call ABI you can in theory use from user-space, but it's undocumented and not stable across versions. Still, see github.com/j00ru/windows-syscalls for reverse-engineering details. I don't know which one(s) you'd actually want to use. Commented May 28, 2021 at 0:55
  • 1
    @BrainSlugs83: In general for Windows you don't want to use a raw system-call directly, you want to call a DLL function. How to write hello world in assembly under Windows? shows how for 32 and 64-bit executables with a variety of APIs and assemblers. Commented Jan 30, 2023 at 4:03

Calling putchar(3) is the simplest way. Just move the char's value into the rdi register (for x86-64, or edi for x86), and call putchar.

E.g. (for x86-64):

asm("movl $120, %rdi\n\t"
    "call putchar\n\t");

will print an x to stdout.

  • Wrong ABI! (x86-64 OS X, at a guess, given the register -- although I think you want %rdi not %edi -- and the leading _ on the library function?) Commented Nov 22, 2011 at 1:17
  • You changed it in the code, but your description still says "the edi register."
    – porglezomp
    Commented Sep 8, 2014 at 22:36
  • The i386 System V calling convention passes args on the stack, and EDI is a call-preserved register. Plus doing this from GNU C "basic" inline asm (with no clobbers) isn't safe: you step on the compilers registers. And for x86-64, you step on the compiler's red-zone, too. This will call putchar on x86-64 Linux, but that's all, what happens after that is unpredictable. Commented Jun 20, 2018 at 4:39
  • @MatthewSlattery: movl to %edi is a more efficient way to zero-extend a value into RDI. As it stands now, this won't even assemble (mismatch between movl dword operand size suffix vs. qword register). But anyway, without any clobbers this is totally broken. See my previous comment. In stand-alone asm, mov $'x', %edi ; call putchar this would be fine. Commented Feb 16, 2020 at 22:12

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