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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  • o(N) outdated key eviction complexity;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  • If key is outdated it is still can be read;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?


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).

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O(N log N) is a pretty loose bound for range queries. I mean, even an unsorted array will give you O(N). Did you mean O(log N + M), where M is the number of elements actually within the range? –  Sneftel Nov 18 '13 at 15:21
Thanks for your correction :) –  Lazin Nov 18 '13 at 15:29
This looks very much like C++ - do you wantto add that tag? Also, is key your timestamp, or is eviction based on something else? –  Glenn Teitelbaum Nov 18 '13 at 23:42
Key and timestamp is a different things. Timestamp must be generated internally when new key-value pair added to the collection. –  Lazin Nov 19 '13 at 8:31

2 Answers 2

up vote 2 down vote accepted

It sounds like you just need a red-black tree (possibly of contiguous key-value arrays, to satisfy your second requirement), overlaid with a linked list of insertion order. (If you don't necessarily insert keys ascending order by timestamp, make this a fibonacci heap instead of a linked list.)

Incidentally, I'm assuming by your penultimate point that you mean "it is not an error to attempt to look up a key which refers to an expired item".

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"it is not an error to attempt to look up a key which refers to an expired item" - right, in a case when this item doesn't removed from set by key-eviction procedure. –  Lazin Nov 18 '13 at 13:37
+1. Absent the range query requirement, a dictionary or hash map (combined with the linked list) would work. –  Jim Mischel Nov 18 '13 at 14:23
I don't completely understand how to optimize rb-trees for write. Can you clarify this? –  Lazin Nov 18 '13 at 14:32
They're already optimal -- insertion is O(log n). Is there something else you mean by "write optimized"? –  Sneftel Nov 18 '13 at 15:19
By write optimization I mean ability to index large amount of inserts, even by the cost of more slow reads. For example in some b+tree implementations, items appended to some leaf buffer in insertion order without sorting. Read performance is sacrificed (impossible to use binary search on node data) for write performance. –  Lazin Nov 18 '13 at 15:40

Actually you can maintain a sorted std::deque

That should fit all your criterial and allow for period resizing (eviction)

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A sorted deque would not allow O(log n) insertion. –  Sneftel Nov 18 '13 at 23:51
@Ben it is unclear if key is time sequential and therefore all inserts would be front inserts –  Glenn Teitelbaum Nov 18 '13 at 23:58
Only if key=timestamp. –  Lazin Nov 19 '13 at 8:32

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