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Getting rid of cycle in bin index calculation

Here is an implementation of `HashMap`.

It provides this code for getting index of the bin:

``````private int getIndex(K key)
{
int hash = key.hashCode() % nodes.length;
if (hash < 0)
hash += nodes.length;
return hash;
}
``````

To make sure the hash value is not bigger than the size of the table, the result of the user provided hash function is used modulo the length of the table. We need the index to be non-negative, but the modulus operator (%) will return a negative number if the left operand (the hash value) is negative, so we have to test for it and make it non-negative.

If `hash` turns out to be very big negative value, the additions `hash += nodes.length` in the cycle may take a lot of processing.

I think there should be `O(1)` algorithm for it (independent of `hash` value).

If so, how can it be achieved?

-

It can't be a very big negative number.

The result of `anything % nodes.length` is always less that `nodes.length` in absolute value, so you need a single `if`, not a loop. This is exactly what the code does:

``````if (hash < 0) /* `if', not `while' */
hash += nodes.length;
``````
-
Oh. You are right. I missed `if` and always saw `while` instead. In the case of `if` it's already `O(1)`. – ovgolovin Nov 28 '12 at 9:36
@ovgolovin: Exactly. – NPE Nov 28 '12 at 9:37

This not the approach HashMap uses in reality.

``````272       /**
273        * Returns index for hash code h.
274        */
275       static int indexFor(int h, int length) {
276           return h & (length-1);
277       }
``````

This works because `length` is always a power of 2 and this is the same an unsigned `% length`

If hash turns out to be very big negative value, the additions hash += nodes.length in the cycle may take a lot of processing.

The hash at this point must be between `-length+1` and `length-1` so it cannot be a very large negative value and the code wouldn't work if it did. In any case it doesn't matter how large the value is, the cost is always the same.

-
Great trick with bitwise AND. But it will only work if `length` is a power of 2. Why does this condition hold? – ovgolovin Nov 28 '12 at 10:05
When `length` is a power of 2, one less than this is a number like 000...000111..111 i.e. a block of 0's and a block of 1's which means the top bits are discarded which serves the same purpose as `%` except it's unsigned as the top bit is discarded and much faster because its simple. – Peter Lawrey Nov 28 '12 at 10:07
BTW A related piece of code is this to test that a number is a power of two `n != 0 && (n & (n-1)) == 0` ;) – Peter Lawrey Nov 28 '12 at 10:10
I got the trick with the bits from your answer. But I didn't get why `length` is a power of 2. Now I see that if we need to test n for being a power of 2, it doesn't hold always. So, I guess, for this algorithm to work we should ensure that length is always a power of 2. – ovgolovin Nov 28 '12 at 10:13
@ovgolovin Its is always a power of 2 because the code ensures that it is. See the constructor for HashMap. ;) – Peter Lawrey Nov 28 '12 at 10:16