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I have an int parameter with the possible values 1,2,4,8,16,32,64.

I need to know the bit offset of the current value, i.e. for each value return 1, 2, 3, 4, 5, or 6 respectively.

What is the easiest way to achieve that?

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Did you mean powers of two (6 isn’t one)? In which case the “bit offset” would be the logarithm base 2? – Konrad Rudolph Jan 4 '12 at 15:13
Yes, please clarify. Best regards, – Dr. ABT Jan 4 '12 at 15:16
The naive approach is to loop and test, but it's possible that there's a native CPU instruction that does this in one single instruction. ("get least (or most) significant bit") – Kerrek SB Jan 4 '12 at 15:17
Sorry, the 6 should not be there, I know solve this using: log((double)val) / log(2.0); but I think this is not the right approach – kambi Jan 4 '12 at 15:20
MSVC: _BitScanForward GCC: __builtin_ctz (easiest because you don't actually have to write any code, just call a function that already exists) – harold Jan 5 '12 at 13:50
up vote 4 down vote accepted

You have multiple answers here : http://graphics.stanford.edu/~seander/bithacks.html#IntegerLogObvious the easiest being, assuming you have your input value in an unsigned int v :

unsigned int r = 0; // r will be lg(v)

while (v >>= 1) // unroll for more speed...

but it will change v in the process.

edit: in your case if you are 100% sure your input is and int and a power of 2, a look-up-table may be the simplest and fastest

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What has endianess got to do with it? – Skizz Jan 4 '12 at 15:23
I am rather certain that your code is correct without any regard to the endianness of the hardware system on which it is running. – dasblinkenlight Jan 4 '12 at 15:23
That is correct. – Jonathan Jan 4 '12 at 15:24
ok according to stackoverflow.com/questions/1041554/… endianness is not an issue, I edited my reply – lezebulon Jan 4 '12 at 15:25
Luckily it has nothing to do with endianness, otherwise we would be royally scr*wed. – Mike Nakis Jan 4 '12 at 15:26

Here's a version that only does five iterations at most for a 32 bit value, unlike lezebulon's answer which has a worst case of 32 iterations. Adapting to 64 bit values increases the iteration count of this version to six and the other to 64 at worst.

int get_pos (unsigned v)
  int s=16,p=0,m=0xffff;

  while (s)
    if (v>>s) p += s;
    v = (v | (v >> s)) & m;
    s >>= 1;
    m >>= s;

  return p;
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All you need to do is loop and shift a bit each time. But there's a faster way using switch case. listing both for you.

//more code but awesomely fast
int getBitOffset1(int d) {
  switch(d) {
    case 1: return 1;
    case 2: return 2;
    case 4: return 3;
    case 8: return 4;
    case 16: return 5;
    case 32: return 6;
    /* keep adding case upto sizeof int*8 */

//less code, the loop goes 64 times max
int getBitOffset2(int d) {
  int seed=0x01;
  int retval=0;
    if(seed<<retval == d) {
  return retval+1;

int main() {
    printf("%d\n", getBitOffset2(32));
    printf("%d\n", getBitOffset2(1));
    return 0;
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