# 64bit nasm division idiv

``````;print out division message
mov rcx, 0                       ;zero out register
mov rax, [input]
mov rcx, [input2]
idiv rcx                        ;divide rax by rcx
mov rdi, rax                    ;for printing purposes
call print_int
``````

I can't seem to figure out why this isn't dividing, I'm getting a enrror "Floating Point Exception" I'm using a 64bit machine and the values are integers not floating point.... ideas?

I know after the division takes place the quotient should be in rax, and the remainder should be in rdx i believe, but as of right now i'm just trying to get my hands on the quotient.

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possible duplicate of nasm x86-64 bit division – Paul R Jan 14 '12 at 16:18

Your function looks a little bit complicated to me. `idiv` works as expected for me here with this function:

``````_mydiv:
xor  %rdx, %rdx ; clear high bits of dividend
mov  %rdi, %rax ; copy dividend argument into rax
idiv %rsi       ; divide by divisor argument
ret             ; return (quotient is in rax)
``````

Translated into NASM syntax and to the windows ABI, I think that would be something like:

``````_mydiv:
mov  r8, rdx    ; copy divisor argument to scratch register
xor  rdx, rdx   ; clear high bits of dividend
mov  rax, rcx   ; copy dividend argument into rax
idiv r8         ; divide by divisor in scratch register
ret             ; return (quotient is in rax)
``````

Are you maybe stomping on your parameters and confusing something along the way?

Edit: looking at your code, it occurs to me that it might not be written as a proper function at all. The important steps are:

1. Put dividend in RDX:RAX - for you that probably means clearing out RDX and putting the input dividend in RAX.
2. Put divisor in some other register - you chose RCX, that should be fine.
3. Divide - `idiv rcx`.
4. Result will be in RAX.

You should pay particular attention to step 1 - make sure that RDX:RAX has sane contents! Why you're getting a floating point exception I can't guess from the code you've shown.

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that was it, the guided steps helped a lot, i wasn't clearing out the rdx register prior, thanks a lot!!! – user1050632 Jan 13 '12 at 22:50

You're actually dividing a 128-bit number in RDX:RAX by RCX. So if RDX is uninitialized the result will likely be larger than 64-bits, resulting in an overflow exception. Try adding a CQO before the division to sign-extend RAX into RDX.

I can't explain the floating-point bit though, maybe someone decided to reuse an interrupt vector for generic math errors somewhere down the line?

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For future reference, where does one find instructions like `cqo`? In GAS syntax, it's `cqto`, and it doesn't seem clear what it should convert to in MASM syntax. – Vortico Jan 11 '14 at 0:39
@Vortico: The Intel Architecture Manuals are always a good start. As for CQO specifically I confess I didn't know the proper suffix for a 128-bit word but had to look up CBW/CWD/CDQ to see what the 64-bit equivalent might be called – doynax Jan 11 '14 at 1:04