I'm a novice programmer who is attempting assembly for the first time. Sorry in advance if this is an incredibly lame question.

I have a character stored in the EAX register, but I need to move it to my DL register. When I try: mov dl, eax I get an error C2443: operand size conflict. I know that the eax register is 32 bit while the dl is 8 bit... am I on to something?? How do I go about solving this.


What you want is probably:

movzx edx, al

This will copy al to dl and zero fill the rest of edx. This single instruction is equivalent these two instructions:

xor edx, edx 
mov dl, al
  • 3
    I prefer this. movzx takes care of all the trailing bits. Yay for some abstraction! (My enthusiasm should betray my lack of experience with assembly). – MPelletier Apr 13 '10 at 17:25


xor edx,edx
mov dl, al

perhaps? The first instruction to zero out the 'un-neccessary' high order bits of edx (optional), then just move the low 8 from eax into edx.

As others have pointed out, movzx does this in one step. It's worth mentioning that along the same lines, if you had a signed value in al, you could use "movsx edx, al" to fill the high order bits of edx with a copy of the msb of al, thereby putting a signed 32 bit representation of al into edx.

  • That's right. The EAX register is 32 bits wide, whereas DL is only 8 bits. You need to move AL to DL, AL being a subset of EAX. – MPelletier Apr 13 '10 at 0:57
  • I don't understand the first instruction. Won't xor edx,edx zero out all of the bits in %edx? – JSBձոգչ Apr 13 '10 at 1:11
  • @JS Bangs: Yes, that is usually what you'd want. The original question doesn't say anything about saving the rest of EDX, so to be safe it is best to zero it out. Otherwise there will be random stuff in there, and when you go to push it on the stack or something else, you will get unexpected results. – SoapBox Apr 13 '10 at 1:15

If you just want to access the lower 8 bits of eax, then use al:

mov dl, al

You can access the lower 8 bits, 16 bits, or 32 bits of each general purpose register by changing the letters at the start or end. For register eax, using eax means use all 32 bits, ax is the lower 16 bits, and al is the lower 8 bits. The equivalent for ebx is ebx, bx and bl respectively, and so on.

Note that if you modify the lower 16 or 8 bits of a register, then the upper bits are unchanged. For instance, if you load all ones in eax, then load zero into al, then the lower 8 bits of eax will be zeroes, and the higher 24 bits will be ones.

mov eax, -1 ; eax is all ones
mov al, 0 ; higher 24 bits are ones, lower 8 bits are zeros
  • Moving al into dl is the base case. Zero-fill or sign-extension may or may not be necessary because when choosing hand-coded assembly you are - or should be - after the minimum, bare-bones solution: "nice to have" is an expensive luxury and naturally left out. – Olof Forshell Sep 2 '13 at 8:48
  • On modern x86 (especially Intel), movzx edx, al is more efficient than merging into the old value of EDX with mov dl, al. On Intel CPUs since IvyBridge it can benefit from mov-elimination and run with zero latency. See Can x86's MOV really be "free"? Why can't I reproduce this at all? and Why doesn't GCC use partial registers?. On AMD CPUs it just avoids the false dependency, which is still good even if you only plan to use 8-bit operand-size on DL. – Peter Cordes Dec 17 '19 at 2:52

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