Well, of course there is, but you're not going to like it.

You could, of course, build a lookup table with all the correct values in it:

table[1] = 1, table[2] = 1, table[3] = 2, etc.

So, this would give you a **really fast** answer, but it's a completely useless solution by itself, since the table would have to be very, very large.

You could optimize this a bit, but it requires just a little iteration. Simply create an 8-bit version of the table solution, a mere 256-entry table, then iterate over each BYTE in the value to be checked, summing the results of the table lookup. Something like:

```
short int tableLookup[256] = { 0, 1, 1, 2, 1, ... };
unsigned int valueToCheck = 89392491;
int result = 0;
while ( valueToCheck != 0 ) {
result += tableLookup[ (valueToCheck & 0xFF) ];
valueToCheck >>= 8;
}
// result should now have the correct bit count, if the table is correct.
```

Hmm, seems this is well known (and here I was doing this off the top of my head):
http://graphics.stanford.edu/~seander/bithacks.html#CountBitsSetNaive

isconstant time. – Pasi Savolainen May 9 '09 at 17:58sayit's fixed-length; for arbitrary bit length n it's correctly O(n). – Charlie Martin May 9 '09 at 18:02