Hash Table: Difference between revisions

From NovaOrdis Knowledge Base
Jump to navigation Jump to search
Line 21: Line 21:
==Hash Table Time and Space Complexity==
==Hash Table Time and Space Complexity==


In the worst case, searching an element in a hash table can take as long as the search in a linked list Θ(n). However, on average SEARCH, INSERT and DELETE operations take O(1). The space requirements is Θ(|K|), where K is the set of keys actually stored.
In the ''worst case'', searching an element in a hash table can take as long as the search in a linked list Θ(n). However, on ''average'' SEARCH, INSERT and DELETE operations take O(1). The space requirements is Θ(|K|), where K is the set of keys actually stored.


=Open Addressing=
=Open Addressing=

Revision as of 22:43, 17 August 2018

Internal

Overview

A hash table is a dynamic set that supports INSERT, DELETE and SEARCH - a dictionary.

The simplest, and the most time-efficient implementation of a hash table is a direct address table. However, this implementation is in most cases inefficient from the point of view of allocated space. A much more practical implementation uses an array whose length is proportional with the number of keys actually stored.

Direct-Address Table

Direct-address tables make sense when we can afford to allocate an array that has one element for every possible key. This happens when the total number of possible keys is small. To represent a dynamic set, we use an array denoted by T[0 .. m-1], in which each position, or slot, corresponds to a key in the key universe. The array elements store pointers to the object instances corresponding to the keys. If the set contains no element with a key k, then T[k] = NULL. INSERT, DELETE and SEARCH take O(1) time. The disadvantage of using direct-address tables is that if the universe of key is large, allocating an array element for each key is wasteful, and in many cases, impossible, given a computer's memory constraints.

Hash Table

When the number of keys actually stored is small relative to the total number of possible keys, a hash table is much more effective alternative to a direct-address table. A hash table uses an array whose length is proportional to the number of keys actually stored. The index of the array element used to store a key, or a pointer to the object containing the key and other data, is computed from the key.

Collisions are possible. A collision is the situation in which more than one key maps on the same array element. There are different techniques to handle those. Chaining is the most common. Open addressing is another way.

Hash Table Time and Space Complexity

In the worst case, searching an element in a hash table can take as long as the search in a linked list Θ(n). However, on average SEARCH, INSERT and DELETE operations take O(1). The space requirements is Θ(|K|), where K is the set of keys actually stored.

Open Addressing

Open addressing is a technique employed when we need to deal with collisions in a hash table.

Perfect Hashing

Perfect hashing can support searches in O(1) worst-case time, when the set of keys being stored is static - the set of keys never changes once it is stored.

TODO

TODO Hash Map