I am looking for an associative collection that supports both retrieval and insertion of values by key (deletion not important) in at least O(Log(N)) time, and that has a very low memory overhead both in terms of code size and run-time memory consumption.
I am doing this for a small embedded application written in C, so I am trying to minimize the amount of code required, and the amount of memory consumed.
The Google sparse hash data structure would be a possibility if it wasn't written in C++, and was simpler.
Most hash table implementations that I am aware of use a fair amount of extra space, requiring at least twice as much space as the total number of key-values, or else requiring extra pointers per entry (e.g. bucket chaining hash algorithms). In my structure, key value pairs are just two pointers.
Currently I am using an array of key/value pairs which is sorted, but the insertion is O(N). I can't help but think there must be a clever way to improve the amortized running time of insertion, for example by doing the insertions in groups, but I am not having any success.
I think that this must be a relatively well-known problem in certain circles, so to make this not too subjective, I'm wondering what the most common solution to the problem stated above is?
[EDIT:]
Some additional information that could be relevant:
- Keys are integers
- Number of values could be tiny anywhere from 1 to 2^32.
- Usage patterns are unpredicatable.
- I am hoping to keep memory consumption as low as possible (e.g. doubling the size of memory required, would not be ideal)