I am currently taking a university course in data structures, and this topic has been bothering me for a while now (this is not a homework assignment, just a purely theoretical question).

Let's assume you want to implement a dictionary. The dictionary should, of course, have a search function, *accepting a key and returning a value*.

Right now, I can only imagine 2 very general methods of implementing such a thing:

- Using some kind of search tree, which would (always?) give an
*O(log n)*worst case running time for finding the value by the key, or, - Hashing the key, which essentially returns a natural number which corresponds to an index in an array of values, giving an
*O(1)*worst case running time.

Is O(1) ** worst case** running time possible for a search function, without the use of arrays?

Is random access available only through the use of arrays?

Is it possible through the use of a pointer-based data structure (such as linked lists, search trees, etc.)?

Is it possible when making some specific assumptions, for example, the keys being in some order?

**In other words, can you think of an implementation (if one is possible) for the search function and the dictionary that will receive any key in the dictionary and return its value in O(1) time, without using arrays for random access?**

worst caseif you have perfect hashing. In practice, a hashtable is O(1) in theaverage caseand usually O(n) in the worst case. – Daniel Pryden Apr 15 '11 at 2:11