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I understand in x86_64 assembly there is for example the (64 bit) rax register, but it can also be accessed as a 32 bit register, eax, 16 bit, ax, and 8 bit, al. In what situation would I not just use the full 64 bits, and why, what advantage would there be?

As an example, with this simple hello world program:

section .data
msg: db "Hello World!", 0x0a, 0x00
len: equ $-msg

section .text
global start

mov rax, 0x2000004      ; System call write = 4
mov rdi, 1              ; Write to standard out = 1
mov rsi, msg            ; The address of hello_world string
mov rdx, len            ; The size to write
syscall                 ; Invoke the kernel
mov rax, 0x2000001      ; System call number for exit = 1
mov rdi, 0              ; Exit success = 0
syscall                 ; Invoke the kernel

rdi and rdx, at least, only need 8 bits and not 64, right? But if I change them to dil and dl, respectively (their lower 8-bit equivalents), the program assembles and links but doesn't output anything.

However, it still works if I use eax, edi and edx, so should I use those rather than the full 64-bits? Why or why not?

share|improve this question
Actually in Linux (and probably everything else?) the parameters to a syscall are 32-bits wide, so you should use EDI and EDX. – Matty K Jul 5 '11 at 4:01
what about rax, should that change to eax as well? I tried changing those 3 and it works, but what I want to know is why I should do this and what is the advantage. – Mk12 Jul 5 '11 at 4:10
In the case of this program, the only appreciable difference is that the literal values (4, 1, 0, etc.) are twice as big when they're 64-bit, so your program will be a few bytes larger and, in theory, could take longer to load into the CPU from the disk/memory. – Matty K Jul 6 '11 at 3:32
So there's no reason to use the full 64 bits when you don't need to, right? (I know there's also no reason to hand code assembly, but I just want to make sure..) – Mk12 Jul 6 '11 at 21:03
up vote 2 down vote accepted

First and foremost would be when loading a smaller (e.g. 8-bit) value from memory (reading a char, working on a data structure, deserialising a network packet, etc.) into a register.

MOV AL, [0x1234]


MOV RAX, [0x1234]
# assuming there are actually 8 accessible bytes at 0x1234,
# and they're the right endianness; otherwise you'd need
# AND RAX, 0xFF or similar...

Or, of course, writing said value back to memory.

share|improve this answer
Erm... x86_64 is always little endian, so your examples will yield different results. – Ruslan Aug 12 '15 at 19:55

You are asking several questions here.

If you just load the low 8 bits of a register, the rest of the register will keep its previous value. That can explain why your system call got the wrong parameters.

One reason for using 32 bits when that is all you need is that many instructions using EAX or EBX are one byte shorter than those using RAX or RBX. It might also mean that constants loaded into the register are shorter.

The instruction set has evolved over a long time and has quite a few quirks!

share|improve this answer

If you want to work with only an 8-bit quantity, then you'd work with the AL register. Same for AX and EAX.

For example, you could have a 64-bit value that contains two 32-bit values. You can work on the low 32-bits by accessing the EAX register. When you want to work on the high 32-bits, you can swap the two 32-bit quantities (reverse the DWORDs in the register) so that the high bits are now in EAX.

share|improve this answer
How would I go about swapping the 32 bit quantities? – Mk12 Jul 5 '11 at 2:21
Rotate RAX through 32-bits. – Matty K Jul 5 '11 at 2:27
What would the actual instruction in nasm be though? I'm kind of new to this. – Mk12 Jul 5 '11 at 2:31
ROL or ROR, for rotate left or right, respectively. In this case it doesn't matter which direction. There's also RCL and RCR for rotating with carry, which are subtly different. – Matty K Jul 5 '11 at 3:58

64-bit is the largest piece of memory you can work with as a single unit. That doesn't mean that's how much you need to use.

If you need 8 bits, use 8. If you need 16, use 16. If it doesn't matter how many bits, then it doesn't matter how many you use.

Admittedly, when on a 64-bit processor, there's very little overhead to use the full 64 bits. But if, for example, you are calculating a byte value, working with a byte will mean the result will already be the correct size.

share|improve this answer
I've edited my question in regards how this confuses me. – Mk12 Jul 5 '11 at 2:41

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