I would like to know the complexity in Big O notation of the STL multiset, map and hash map classes when:
- inserting entries
- accessing entries
- retrieving entries
- comparing entries
map, set, multimap, and multiset
Insertion: O(log n)
hash_map, hash_set, hash_multimap, and hash_multiset
These are implemented using hash tables. They have the following runtimes:
Insertion: O(1) expected, O(n) worst case
If you use a proper hash function, you'll almost never see the worst case behavior, but it is something to keep in mind -- see this paper for an example.
cppreference.com is where I go for my c++ reference questions. They do a pretty good job of outlining the Big O notation for most of the functions you asked about above.
You can find this information in the SGI STL documentation: http://www.sgi.com/tech/stl/
Basically, both multiset and maps are sorted binary trees, so inserting/finding 1 out of N entries takes O(log N). See Sorted Assoc. Containers in the documentation.
Obviously, the big advantage of Hashmap is O(1) for inserting and finding entries.
Accessing it after found is O(1) for all structures. Comparison, what do you mean by that? Sounds like O(1) to me, after all were found.