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What is a good bit-twiddling routine to convert a number in the range [2^N,2^(N-1)-1] to N?

Some examples:

  • f(1) -> 0
  • f([2-3]) -> 1
  • f([4-7]) -> 2
  • f([8-15]) -> 3

Here is one implementation:

uint f(uint num)
    for (uint shifts = 0; num; shifts++) 
        num >>= 1;
    return (shifts - 1);
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possible duplicate of How to get lg2 of a number that is 2^k –  KennyTM Nov 13 '10 at 18:27
do you mean "range [2^N-1, 2^(N-1)]"? –  pmg Nov 13 '10 at 18:31
I'd guess [2^N,2^(N+1)-1] is the more appropriate range –  Jeff Mercado Nov 13 '10 at 18:35

3 Answers 3

up vote 4 down vote accepted

Depending on how wide your data-type is, and how much memory you have available, a lookup-table is one possibility. It's almost certainly the fastest approach.

For other approaches, see http://www-graphics.stanford.edu/~seander/bithacks.html#IntegerLogObvious, and the subsequent sections.

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As most general approach, binary search may help. For values 0..31 it need only 5 stages.

y = 0;
if(x >= 0x10000<<y) y += 0x10;
if(x >= 0x100<<y) y += 0x08;
if(x >= 0x10<<y) y += 0x04;
if(x >= 0x4<<y) y += 0x02;
if(x >= 0x2<<y) y += 0x01;
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Take a look at hacks for computing base 2 logarithm (or leading zero count, they are the same) on this page: http://www-graphics.stanford.edu/~seander/bithacks.html

You could also find useful the function __builtin_clz (or _BitScanReverse for VS) for x86.

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