movb $-17,(%esp) the destination is not the register
%esp but the memory location whose address is in
%esp. Because of the
movb, a single byte will be stored at that memory location. The value stored there will be -17 (which is equivalent to the unsigned byte 0xef).
movw $-17,(%esp) and
movl $-17,(%esp) would also be legal instructions and they'd do different things, storing the 2 or 4 byte values 0xffef or 0xffffffef at memory locations
This instruction needs the
l to disambiguate the meaning, unlike your other examples, because neither
(%esp) is a fixed-size entity. If you try
mov $-17,(%esp) the assembler will complain.
UPDATE: I just noticed question #5,
push $0xFF which also seems like it could be ambiguous (
pushl $0xFF and
pushw $0xFF are both legal), but there is a special rule for
push that assumes
l whenever there is an ambiguity. 16-bit pushes are very rare (the sysv ABI keeps everything aligned on the stack in multiples of 4 bytes so you always push 32 bits for a function argument, even if it's a