I want to build key-value storage with such properties:

- O(log N) insertion complexity and write optimized;
- Faster insertion for sequential writes (keys are in sequential order with gaps);
- O(log N) key-lookup complexity;
- O(log N + M) key-range query complexity;
- o(N) outdated key eviction complexity;
- All keys have timestamp associated with them, old items periodically evicted;
- Key eviction must be done explicitly by calling some function or method;
- If key is outdated it is still can be read;
- Key eviction doesn't need to be very precise;

So the interface can look like this:

```
template<class K, class V>
class Index {
...
class iterator_pair...
...
Index(int TTL);
void insert(K key, V value);
V find(K key);
iterator_pair<K, V> get_range(K begin, K end);
void remove_outdated();
};
```

How such data-structure can be implemented?

**Update**

So far so good I decided to use TSB-tree (time split b+ tree) to implement this. It is almost perfect fit - writes and key lookups has logarithmic complexity; it is write optimized (most inserts are just writes to pre-allocated memory buffer, allocations are amortized by many inserts); old key eviction can be done by removing historical nodes and this nodes can be easily tagged for fast access, even more - key eviction can be done during node splits.

RB-tree based solution is pretty valid too, maybe I use it instead of TSB-tree because of ease of implementation (compared to TSB-tree).