`v & 1`

is 1 if the lowest bit in `v`

is set, and 0 if it's not.

The loop keeps dividing shifting the bits of `v`

right by 1 place each iteration, and thus the lowest bit of `v`

loops over each of the bits in the original `v`

(as each one gets to the 1's place before "falling off" the fractional end).

Thus, it loops over each bit and adds 1 to c if it's set, and adds 0 if it's not, thus totaling the set bits in the original v.

For example, with a starting `v`

of `1011`

:

`1011 & 1 = 1`

, so c is incremented to 1.
- Then
`1011`

is shifted to become `101`

.
`101 & 1 = 1`

, so c is incremented to 2.
`101`

is shifted to become `10`

.
`10 & 1 = 0`

, so c isn't incremented and remains 2.
`10`

is shifted to become `1`

.
`1 & 1 = 1`

, so c is incremented to 3.
`1`

is shifted to become `0`

(because the last bit fell off the fractional end).
- Since the condition of the
`for`

loop is just `v`

, and v is now 0, which is a false value, the loop halts.

End result, c = 3, as we desire.