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I've been thinking about HashMaps/Dictionaries recently, and I realise there is a gap in my understanding of their implementation.

From my data structures classes, I was told that a hash value will map a key directly to a location in a vector of linked-list buckets. According to wikipedia, MurmurHash creates a 32-bit or 128-bit value. Obviously that value cannot map directly to a location in memory. How is that hash value used to assign a location in the underlying vector to the object being placed in the hash map?

After reading David Robinson's answer I want to expand my question: If the mapping is based on the size of the underlying vector of lists, what happens when the vector is resized?

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Typically when the result of a hash is generated, it is put through modulo N, where N is the size of the allocated vector of linked lists. Pseudocode:

linked_list = lists[MurmurHash(x) % len(lists)]

This lets the implementer decide on the length of the vector of linked lists (that is, how much he wants to trade space efficiency for time efficiency), while keeping the result pseudorandom.

A common alternative worth mentioning is bit masking- for example, ignoring all but the b least significant bits. (For instance, performing the operation x & 7 ignores all but the 3 least significant bits). This is equivalent to x modulo 2^b, it just happens to be faster on most operating systems.

To answer your second question: if the vector has to be resized, then each value stored in the dictionary does indeed need to be remapped.

There is an excellent blog post on the implementation of dictionaries in Python that explains how that language implements its built in hash table (which it calls dictionaries). In that implementation:

  1. The dictionary is resized (made larger) if more than 2/3 of its slots are being used

  2. The list of slots is resized to 4 times its current size

  3. Every value in the old list of slots is remapped to the new list of slots.

There are many other useful optimizations described in that blog post; it gives an excellent view of the practical aspects of implementing a hash table.

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Wouldn't this completely negate any collision avoidance that a good hashing algorithm is designed for? –  BigC Nov 7 '12 at 6:21
@BigC: Completely? No good pseudorandom hasher would have a pattern that repeats every N items. If h(x) are well-distributed over the 32-bit or 128-bit range, then h(x) % n will be well-distributed over (0, n-1). –  David Robinson Nov 7 '12 at 6:25
(Of course there will be more collisions than if you used the full 32-bit range- that's the tradeoff of space efficiency versus time efficiency. If you pick a huge n, collisions are rare but it uses a lot of memory. If you pick a small n, collisions are common but it uses little memory). –  David Robinson Nov 7 '12 at 6:26
Thanks for the explanation. Sorry to keep pestering. Knowing this, what happens if the size of "lists" needs to be increased, does every element currently stored need to be remapped? –  BigC Nov 7 '12 at 6:30
@BigC: See my updated post. Short answer is yes; they have to be remapped. –  David Robinson Nov 7 '12 at 8:16

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