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Given I have a file which a set of words:

1) If I choose a hash table to store word -> count, what would be the time complexity to find the occurrences of a particular word?

2) How could I return those words alphabetically ordered?

If I chose a hash table, I know that the time complexity for 1) would be O(n) to parse all the words and O(1) to get the count of a particular word.

I fail to see how could I order the hash table and what would be the time complexity. Any help?

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Are you asking in a theoretical mindset? some map implementations offer ordering on the keys. –  UmNyobe Feb 6 '13 at 16:27
@UmNyobe Not map, hash. Hashing, by general consensus, doesn't maintain order. –  Dukeling Feb 6 '13 at 16:28
Time complexity is an algorithm question and is answered below (usually O(n log n)), but how to order a hash table depends on the implementation, ie the language. –  ring0 Feb 6 '13 at 17:03

3 Answers 3

A sortable hash map becomes, essentially, a binary tree. In java you can see TreeMap implementing the SortableMap interface with the O(log n) on look-up and insert.

If you want the best theoretical performance you'd use a HashMap with O(1) look-up and insert and then you'd use a bucket/radix sort with O(n) for display/iteration.

In reality using a radix sort on strings will perform worse than a quick sort O(n log n).

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I just wonder why using a radix sort on strings will perform worse than a quick sort in reality. Any reason leading to that? Or just an evidence from experimental results? –  Terry Li Feb 6 '13 at 18:57
Note - sortable map != sortable hash map. If you were not to define your hash function in such a way to force ordering (which is far from trivial to do, especially if you want to have a well-distributed function), a TreeMap with hashes as keys doesn't really help. And to have it sorted in the hash array (which is implicitly done) is probably more efficient. –  Dukeling Feb 6 '13 at 20:04
@Terry Li - In this specific case where the strings are words, and there's a limited number of unique words/page, a straight radix sort may actually work the fastest. But in the general case, sorting strings with straight radix sort is impractical. Radix sort is KN where K is the maximum string length, if K is larger than log N for quick sort then from a pragmatic stance it's less efficient. Some modern research shows that sorting strings with a mix of radix and quick sort is superior. –  LastCoder Feb 6 '13 at 20:18
@LastCoder +1 for the last sentence. –  Terry Li Feb 6 '13 at 20:37
@Terry Li - Searching for (3 way radix quicksort, strings) turns up a lot of great information drdobbs.com/database/sorting-strings-with-three-way-radix-qui/… –  LastCoder Feb 6 '13 at 23:58

Your analysis of (1) is correct.

Most hash table implementations (that I know of) has no implicit ordering.

To get an ordered list you'd have to sort the list (O(n log n)), queries on the list would take O(log n).

You could theoretically define a hash operation and implementation that sorts, but making it well-distributed (for it to be efficient) would be difficult and just sorting would be a lot simpler.

If it's a file containing lots of duplicates, the best idea may be to use hashing first to eliminate duplicates, then iterate through the hash table to get a list of non-duplicates and sort that.

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Working with hash tables has two drawbacks 1- They do not store data in sorted way, 2-Calculation of the hash value is usually time consuming. They also have linear complexity for insert/delete/lookup in the worst case.

My suggestion is using a Trie for storing your words. Which has a guaranteed O(1) (number of words) for insert/lookup. A pre-order traverse over a Trie will give a sorted list of the words in the Trie.

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