Today I learnt about x64 assembly (Source: http://x86asm.net/articles/x86-64-tour-of-intel-manuals/) that
Perhaps the most surprising fact is that an instruction such as MOV EAX, EBX automatically zeroes upper 32 bits of RAX register.
The Intel documentation (126.96.36.199 General-Purpose Registers in 64-Bit Mode in manual Basic Architecture) quoted at the same source tells us:
- 64-bit operands generate a 64-bit result in the destination general-purpose register.
- 32-bit operands generate a 32-bit result, zero-extended to a 64-bit result in the destination general-purpose register.
- 8-bit and 16-bit operands generate an 8-bit or 16-bit result. The upper 56 bits or 48 bits (respectively) of the destination general-purpose register are not be modified by the operation. If the result of an 8-bit or 16-bit operation is intended for 64-bit address calculation, explicitly sign-extend the register to the full 64-bits.
In x32 assembly, 16 bit instructions such as
mov ax, bx
don't show this kind of "strange" behaviour that the upper word of eax is zeroed.
Thus: what is the reason why this behaviour was introduced? At a first glance it seems illogical (but the reason might be that I am used to the quirks of x32 assembly).