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I am stuck on a practice problem where I need to read in an integer, add 1 to it and print out the result. On this question: linux nasm assembly print all numbers from zero to 100, user Gunner mentioned dwtoa. I'm assuming that that is a callable function. So what is this dwtoa function? And if it is in fact a callable function, where can I get it (by get I mean how can I implement it in my code?)?

Thanks in advance.

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When I try and compile with nasm -f elf -g -F stabs, it says error: symbol dwtoa undefined. So where is this dwtoa located in nasm? –  Progrmr Nov 7 '12 at 9:39
instead of asking where to get dwtoa, you should be asking yourself how to convert a number to its printable ascii version. look at an ascii table and notice the difference between 0 and "0" ascii codes... now how would you convert one to another? if you don't care about these details, why use assembly? –  Gunner Nov 7 '12 at 12:53

1 Answer 1

up vote 2 down vote accepted

Well, ya gotta write it... or borrow one somebody's already written. The latter is easier (the C library has functions like this, and it's easy to call from asm), but the former is more "fun". (if you like that kind of thing - hey, some people do crossword puzzles)

The div instruction is very slow. There's a better way to do it based on multiplying by the reciprocal and "back multiplying". It's quite complicated. We'll wait for div. :)

div ebx

If we had arranged to have our number, say 1234, in eax and 10 in ebx, we would now have 123 in eax and 4 in edx (ebx remains unchanged). Actually, we'd want to have 0 in edx before the div...

xor edx, edx

div ebx

As you know, we can convert the number 4 to the character '4' by adding the character '0' (or 48 decimal or 30h). Now we've got something we can print! But we're not quite ready to print it yet - we're getting the digits backwards. There are several ways to deal with this. I think the simplest is to push 'em on the stack and pop 'em off in the correct order. Another way is to go ahead and put 'em in the buffer backwards and do a "string reverse" at the end. Another way is to start at the "end" of the buffer and work toward the front (decrement your index into the buffer after each character instead of incrementing it). This can mean that you're not quite at the beginning of the buffer when you run out of digits. We can use that to our advantage - right justified numbers look good if you're going to print 'em in a column. You could fill with leading zeros, too (the character '0', not the number 0) if you think that looks good (I don't).

In any case, we've got '4' stashed away safely. Loop back and div again (making edx zero first!). Now we've got 12 in eax and 3 in edx. Do something with the 3 and go back to div again. 1 in eax and 2 in edx. Again, and eax is zero (edx is 1) - at that point we're done! We can skip the last div if we compare eax to 9 - if it's less, we can get our final (first to be printed) digit from al instead of dl. Simpler to do it the same way every time...

; mov eax, the number
; mov edi, the buffer (at least resb 10, please)
; call dwtoa
; mov edx, eax ; count
; mov ecx, buffer
; print it

    xor ecx, ecx ; for a counter
    mov ebx, 10
    xor edx, edx ; or mov edx, 0
    div ebx
    add edx, '0'
    push edx
    inc ecx ; count it
    test eax, eax ; or cmp eax, 0
    jnz pushloop
    mov eax, ecx ; we'll return the count in eax
    pop edx
    mov [edi], dl
    inc edi
    loop poploop

That's off the top of my head (not cut-and-pasted), and may have errors. It's pretty sloppy - trashes registers that C would like preserved - doesn't return a zero-terminated string as C would like... but we're not using C so we don't care! :)

Feel free to improve it to your taste, or try a different method.

Unless you've got one, you'll want a "atoi" (or "atodw" to use the same naming convention), to convert the text the user enters to a number. Same idea, but we subtract '0' from the character, multiply the "result so far" by ten, and add in the new digit... until done.

; atoi - converts string to (unsigned!) integer
; expects: buffer in edx
; returns: number in eax
    xor eax, eax        ; clear "result"
    movzx ecx, byte [edx]
    inc edx

    cmp ecx, byte 0
    jz .done
    cmp ecx, byte 10
    jz .done

    cmp ecx, byte '0'
    jb .invalid
    cmp ecx, byte '9'
    ja .invalid

    ; we have a valid character - multiply
    ; result-so-far by 10, subtract '0'
    ; from the character to convert it to
    ; a number, and add it to result.

    lea eax, [eax + eax * 4]
    lea eax, [eax * 2 + ecx - '0']

    jmp short .top

That one's cut-and-pasted so "should" work. It, too, could be improved. Uses an "interesting" way to multiply by ten and add in the new character converted to a number. At this point, the "work" of your program consists of: add eax, 1 Should give you something to work with, anyway. Have fun! :)

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Thanks alot, Frank. Very comprehensive. –  Progrmr Nov 8 '12 at 9:22

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