For GCC 32 bits, 1 >> 1 returns me FFFFFFFF, but I thought after 2's complement, I will get 0111 1111 ... 1111 which should be 7fff ffff. did i miss something?
Under most implementations, that operator does an arithmetic shift
for signed types, so it preserves the sign
bit (which is the leftmost bit), in this case 1
.
As @Clifford correctly pointed out, the language standard leaves the implementation of >>
up to the implementor.
See the Wikipedia article for details.

No  it is implementation defined behavior for negative values. An implementation may replace the vacated bit with 0 or 1. What you have described here is "typical" behavior (and may even be universal), but it is not guaranteed by the language definition.– CliffordApr 21 '14 at 8:33

@Clifford, That is true. I will amend it to be more careful about the wording. Apr 21 '14 at 8:36

@Clifford, Updated. Please let me know if anything else is incorrect. Apr 21 '14 at 8:38
For E1 >> E2
, if E1
is negative, then the behavior is implementationdefined, which means different compilers could use different strategies to implement it.
Apparently GCC choose arithmetic shift, as pointed out by @merlin2011
unsigned(1) >> 1
. Read my answer what is the value of ~0 in C? to get some idea, let me know if you have confusion I will post an answer.((unsigned)1) >> 1);
see code @ codepad outputs2147483647
that is7F FF FF FF