# How to find the position of single bit set in a long very fast [closed]

I have a long with a single bit set and I need to know which it is, e.g. the index. I need to calculate this as fast as possible. The naive idea is to divide by 2 and check whether the result is 1. But this would need up to 63 iterations (worst case).

My next idea was to make like a binary search, e.g. to look wether it is bit 63-32 or 31-0 then 63 - 48, 47 - 31, 31 - 16, 15 - 0 and so on having many if-else statements, but this gives me hell of a bunch of code...

Furthermore I'd like to minimize object creation and memory used. You might suggest that I'm wrong then with Java and should use perhaps C/C++. Well it's for a school competition and I don't have a choice :)

I'd like to see some sample code!

• My program relies heavily on this function and it is called very often, hopefully many hundreds of thousand times per second, does that mean, that I can assume that it will be compiled into machine code, e.g. no more bytecode interpretation somewhat soon after application start? As this is just a small side question and I'm more interested into code I put this into the comments, I hope this isn't against any rules... May 12, 2017 at 17:32
• How about `Long.html#numberOfLeadingZeros`? The implementation of that does have a few branches, though fewer than 64. May 12, 2017 at 17:33
• @yshavit Didn't know this function, thanks, I'll give it a shot! May 12, 2017 at 17:35
• @yshavit Wouldn't `numberOfTrailingZeros(long i)` be better, assuming index value should be 0 for the least significant bit (LSB), which is generally the norm. May 12, 2017 at 17:54
• @Andreas Ah yes, good catch. May 12, 2017 at 17:56

Use `Long.numberOfTrailingZeros` - this will be exactly the index you are looking for.
`Long.numberOfLeadingZeros` can be also useful if you count bits starting from the highest one.
You could prepare a `Map<Int, Int>`, holding the number of the set bit for each possible value, but I'm not sure if it is really faster than a loop.