Here is a small analyzis (of the "readable form" version):

```
usnigned int nx = ~x; // I suppose it's unsigned
int a = nx & (nx >> 1);
// a will be 0 if there are no 2 consecutive "1" bits.
// or it will contain "1" in position N1 if nx had "1" in positions N1 and N1 + 1
if (a == 0) return 0; // we don't have set bits for the following algorithm
int b = a ^ (a & (a - 1));
// a - 1 : will reset the least 1 bit and will set all zero bits (say, NZ) that were on smaller positions
// a & (a - 1) : will leave zeroes in all (NZ + 1) LSB bits (because they're only bits that has changed
// a ^ (a & (a - 1)) : will cancel the high part, leaving only the smallest bit that was set in a
// so, for a = 0b0100100 we'll obtain a power of two: b = 0000100
return b | (b << 1);
// knowing that b is a power of 2, the result is b + b*2 => b*3
```

It seems that the algorithm is looking for the first 2 (starting from LSB) consecutive `0`

bits in the `x`

variable.
If there aren't any, then the result is 0.
If they are found, say on position `PZ`

, then the result will contain two set bits: `PZ`

and `PZ+1`

.

`((a= ~x & (~x >> 1)) ^= a`

makes two unsequenced modifications to`a`

. The "more readable form" does not result in undefined behavior, so it is not the same thing. – James McNellis Sep 29 '10 at 23:09`if (a == 0) ..`

– ruslik Sep 30 '10 at 0:00