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I want to design a dictionary where the names of the product will be stored . The amount of data to be stored is numerously large and there will be lot of searching and updates in the data . Please can any one suggest what can be the best technique using hash tables, binary search tree , etc etc .

I also want to know what can be the hash function for this .

Please suggest if there could be any other technique if possible . Searching and updating should be very fast .

Thank you

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What sorts of updates and queries will you be making? The type of structure you should use here almost certainly depends on what questions you'll be asking. –  templatetypedef Nov 25 '12 at 21:17
updates of the contacts thats it –  Rish Nov 25 '12 at 22:08

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up vote 0 down vote accepted

Sounds like a good job for a prefix tree, you save space (over a hash table) when storing a large number of keys but you give up a bit on query speed.

The search will be log n and update will be 2 log n.

From Wikipedia

The following are the main advantages of tries over hash tables:

  • Tries support ordered iteration, whereas iteration over a hash table will result in a pseudorandom order given by the hash function (and further affected by the order of hash collisions, which is determined by the implementation). Tries facilitate longest-prefix matching, but hashing does not, as a consequence of the above. Performing such a "closest fit" find can, depending on implementation, be as quick as an exact find.
  • Tries tend to be faster on average at insertion than hash tables because hash tables must rebuild their index when it becomes full - a very expensive operation. Tries therefore have much better bounded worst-case time costs, which is important for latency-sensitive programs.
  • Since no hash function is used, tries are generally faster than hash tables for small keys.
  • Looking up data in a trie is faster in the worst case, O(m) time, compared to an imperfect hash table. An imperfect hash table can have key collisions. A key collision is the hash function mapping of different keys to the same position in a hash table. The worst-case lookup speed in an imperfect hash table is O(N) time, but far more typically is O(1), with O(m) time spent evaluating the hash.
  • There are no collisions of different keys in a trie.
  • Buckets in a trie which are analogous to hash table buckets that store key collisions are necessary only if a single key is associated with more than one value. There is no need to provide a hash function or to change hash functions as more keys are added to a trie.
  • A trie can provide an alphabetical ordering of the entries by key.

Tries do have some drawbacks as well:

  • Tries can be slower in some cases than hash tables for looking up data, especially if the data is directly accessed on a hard disk drive or some other secondary storage device where the random-access time is high compared to main memory.
  • Some keys, such as floating point numbers, can lead to long chains and prefixes that are not particularly meaningful. Nevertheless a bitwise trie can handle standard IEEE single and double format floating point numbers.

Trie on Wikipedia

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