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# What is the trick in the hash() method in Java HashMap implementation? [duplicate]

Possible Duplicate:
Understanding strange Java hash function

``````static int hash(int h) {
// This function ensures that hashCodes that differ only by
// constant multiples at each bit position have a bounded
// number of collisions (approximately 8 at default load factor).
h ^= (h >>> 20) ^ (h >>> 12);
return h ^ (h >>> 7) ^ (h >>> 4);
}
``````

I don't quite understand the algorithm principle of this implementation. Any explanation or any resouce I could refer to ? Thanks !

UPDATE

Thanks all for the answers and resouces. Actually I understand how hash works, yet but not konw why this code will ensure `a bounded number of collisions`, as the comment says. Is there any theoretical verification?

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## marked as duplicate by Peter Lawrey, soulcheck, EJP, Daniel Pryden, GravitonNov 20 '12 at 7:14

The principle is to a) pseudo-randomly rearrange the bits of a number b) without using much CPU c) while giving a uniform distribution. This shifts the number by a selection of bit ranges in combination of 4,7,12,16,19,20,24 and 27 in a compact manner. – Peter Lawrey Nov 19 '12 at 10:12
This post: - what-hashing-function-does-java-use-to-implement-hashtable-class might help you. – Rohit Jain Nov 19 '12 at 10:13

The main goal is to generate very different values for similar input parameters and minimize number of collisions. http://en.wikipedia.org/wiki/Hash_function

This implementation is just one satisfactory option of many possible functions.

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This function just helps better avoid collisions in `HashMap`.

If you have good `hashCode` implementation, you still can get collision just because you take `hashCode % size` to detect bucket for object.

Example:

Assume, size of your `HashMap` is `20`.

1. You calculated the `hashCode()` for `object1` and get `401`. Bucket is `401 % 20 = 1`.
2. You calculated the `hashCode()` for `object2` and get `3601`. Bucket is `3601 % 20 = 1`
3. You calculated the `hashCode()` for `object3` and get `1601`. Bucket is `1601 % 20 = 1`.

So, even you have three different hashCodes you get one bucket for all three objects, that means complexity of your HashMap `O(n)` instead of `O(1)`.

If we apply function `hash` to all obtained hashcodes we get

1. `hash = 395`, `bucket = 395 % 20 = 15`
2. `hash = 3820`, `bucket = 3820 % 20 = 0`
3. `hash = 1577`, `bucket = 1577 % 20 = 17`

Clear, that applying `hash` as additional step we get three different buckets, that preserve constant time access to your object.

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the >>> operator is the bitshift but treated as unsigned.

^ is XOR (eXclusive or)

So the line

``````h ^= (h >>> 20) ^ (h >>> 12);
``````

means xor the original with h bitshifted 20 bits, XOR with h shifted 12 bits

then

``````h ^ (h >>> 7) ^ (h >>> 4);
``````

the h from above, xor h shifted 7 bits, xor h shifted 4 bits. Im not 100% sure why its set up like that though

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