As an exercise I have to write the following function:
multiply x by 2, saturating to Tmin / Tmax if overflow, using only bit-wise and bit-shift operations.
Now this is my code:
// xor MSB and 2nd MSB. if diferent, we have an overflow and SHOULD get 0xFFFFFFFF. otherwise we get 0. int overflowmask = ((x & 0x80000000) ^ ((x & 0x40000000)<<1)) >>31; // ^ this arithmetic bit shift seems to be wrong // this gets you Tmin if x < 0 or Tmax if x >= 0 int overflowreplace = ((x>>31)^0x7FFFFFFF); // if overflow, return x*2, otherwise overflowreplace return ((x<<1) & ~overflowmask)|(overflowreplace & overflowmask);
overflowmask should be
0xFFFFFFFF, it is 1 instead, which means that the arithmetic bit shift
>>31 shifted in 0s instead of 1s (MSB got XORed to 1, then shifted to the bottom).
x is signed and the MSB is 1, so according to C99 an arithmetic right shift should fill in 1s. What am I missing?
EDIT: I just guessed that this code isn't correct. To detect an overflow it suffices for the 2nd MSB to be 1.
However, I still wonder why the bit shift filled in 0s.
Example: x = 0xA0000000
x & 0x80000000 = 0x80000000 x & 0x40000000 = 0 XOR => 0x80000000 >>31 => 0x00000001
int msb = x & 0x80000000; int msb2 = (x & 0x40000000) <<1; int overflowmask = (msb2 | (msb^msb2)) >>31; int overflowreplace = (x >>31) ^ 0x7FFFFFFF; return ((x<<1) & ~overflowmask) | (overflowreplace & overflowmask);