Regarding the first half:
>> is a bit-wise shift to the right.
So shifting a numeric value 3 bits to the right is the same as dividing by 8 and
inting the result.
Here's a good reference for operators and their precedence: http://web.cs.mun.ca/~michael/c/op.html
The second part of your question involves the
& operator, which is a bit-wise AND. The example is ANDing
i and a number that leaves all bits set except for the 3 least significant ones. That is essentially the same thing happening when you have a number, divide it by 8, store the result as an integer, then multiply that result by 8.
The reason this is so is that dividing by 8 and storing as an integer is the same as bit-shifting to the right 3 places, and multiplying by 8 and storing the result in an int is the same as bit-shifting to the left 3 places.
So, if you're multiplying or dividing by a power of 2, such as 8, and you're going to accept the truncating of bits that happens when you store that result in an
int, bit-shifting is faster, operationally. This is because the processor can skip the multiply/divide algorithm and just go straight to shifting bits, which involves few steps.