if (n != 0 && (n & (n - 1)) == 0)
If the number is a power of two, it will be represented in binary as 1 followed by m zeroes. After subtracting 1, it will be just m ones. For example, take m=4 (n=16)
10000 binary = 16 decimal
01111 binary = 15 decimal
Perform a bitwise "and" and you'll get 0. So it gives the right result in that case.
Now suppose that
n is not exactly 2m for some m. Then subtracting one from it won't affect the top bit... so when you "and" together
n-1 the top bit will still be set, so the result won't be 0. So there are no false positives either.
EDIT: I originally didn't have the
n != 0 test... if n is zero, then
n & anything will be zero, hence you get a false positive.