What is a fast way to compute the `(long int) ceiling(log_2(i))`

, where the input and output are 64-bit integers? Solutions for signed or unsigned integers are acceptable. I suspect the best way will be a bit-twiddling method similar to those found here, but rather than attempt my own I would like to use something that is already well tested. A general solution will work for all positive values.

For instance, the values for 2,3,4,5,6,7,8 are 1,2,2,3,3,3,3

Edit: So far the best route seems to be to compute the integer/floor log base 2 (the position of the MSB) using any number of fast existing bithacks or register methods, and then to add one if the input is not a power of two. The fast bitwise check for powers of two is `(n&(n-1))`

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Edit 2: A good source on integer logarithms and leading zeroes methods is Sections 5-3 and 11-4 in Hacker's Delight by Henry S. Warren. This is the most complete treatment I've found.

`((x << 1) - 1)`

. You'd need to special-case`x == 0`

, and you'll overflow if the top bit is set, but this method might be faster than some of the other rounding techniques presented. – tomlogic Aug 2 '10 at 20:33