There is already a BST in the C# BCL, it's called a
SortedDictionary<TKey, TValue>, if you don't want Key Value Pairs, but instead want single items, you can use the
SortedSet<T> (SortedSet is in .NET 4.0).
It sounds like from your example you'd want a
SortedDictionary<int, WhateverValueType>. Though I'm not sure exactly what you are after when you say "uniform random selection".
Of course, the
Dictionary<TKey, TValue> is O(1) which is much faster. So unless you have a need for sorted order of the keys, I'd use that.
UPDATE: From the sounds of your needs, you're going to have a catch-22 on efficiency. To be able to jump into a random contiguous index in the data structure, how often will you be inserting/deleting? If not often, you could use an array and just Sort() after (O(n log n)), or always insert/delete in order (O(n)).
Or, you could wrap a
Dictionary<int, YourType> and keep a parallel
List<int> and update it after every Add/Delete:
And then just access a random index from the list on lookups. The nice thing is that in this method really the Add() will be ~ O(1) (unless List resizes, but you can set an initial capacity to avoid some of that) but you would incurr a O(n) cost on removes.
I'm afraid the problem is you'll either sacrifice times on the lookups, or on the deletes/inserts. The problem is all the best access-time containers are non-contiguous. With the dual
List<int>/Dictionary<int, YourValue> combo, though, you'd have a pretty good mix.
UPDATE 2: It sounds like from our continued discussion that if that absolute performance is your requirement you may have better luck rolling your own. Was fun to think about though, I'll update if I think of anything else.