I am looking at solution for the set bit count problem (given a binary number, how to efficiently count how many bits are set).

Here, http://graphics.stanford.edu/~seander/bithacks.html#CountBitsSetNaive, I have found some methods.

What about the lookup table method? I dont understand what properties of binary representation / number make it work.

```
static const unsigned char BitsSetTable256[256] =
{
# define B2(n) n, n+1, n+1, n+2
# define B4(n) B2(n), B2(n+1), B2(n+1), B2(n+2)
# define B6(n) B4(n), B4(n+1), B4(n+1), B4(n+2)
B6(0), B6(1), B6(1), B6(2)
};
unsigned int v; // count the number of bits set in 32-bit value v
unsigned int c; // c is the total bits set in v
// Option 1:
c = BitsSetTable256[v & 0xff] +
BitsSetTable256[(v >> 8) & 0xff] +
BitsSetTable256[(v >> 16) & 0xff] +
BitsSetTable256[v >> 24];
// Option 2:
unsigned char * p = (unsigned char *) &v;
c = BitsSetTable256[p[0]] +
BitsSetTable256[p[1]] +
BitsSetTable256[p[2]] +
BitsSetTable256[p[3]];
// To initially generate the table algorithmically:
BitsSetTable256[0] = 0;
for (int i = 0; i < 256; i++)
{
BitsSetTable256[i] = (i & 1) + BitsSetTable256[i / 2];
}
```

In particular, I dont understand the `BitsSetTable256`

definition at first. Why define these quantities B2, B4,... ? it seems to me that they are not used afterwards.

Could you hint at further doc on binary representation?

Thanks!