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For the purpose of one of my algorithms, I want to create a data structure that supports the following operations in O(lg n) time complexity:

  • adding a new item;
  • searching for a new item;
  • deleting all items whose key is lower than a given value.

I guess a tree would be the most suitable data structure to support these operations. However, I actually don't know how to implement the last one in logarithmic time. How can I design it?

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Does the last bullet point mean deleting all items whose key is lower than a given value? –  delnan Sep 7 '13 at 10:26
@delnan: Yes, it does. –  md5 Sep 7 '13 at 10:27
What complexity are you talking about ? In log(n) comparisons is easy, but log(n) generally is hard (when including the cost of free-ing the memory of each released node). –  Matthieu M. Sep 8 '13 at 11:14

1 Answer 1

up vote 1 down vote accepted

You can use a balanced binary search tree (AVL, red-black, you choose). Elements lower than a given one will be found in the left children along the path connecting it to the root. The rest is easy...

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Thanks for your answer, which was useful. However, I'm interested in worst case complexity. As far as I know, a typical binary search tree implementation supports these operations in O(n) in the worst case. –  md5 Sep 7 '13 at 10:26
Sorry, I meant of course a balanced binary search tree, which does that in O(log n). I'm updating the answer. –  nickie Sep 7 '13 at 10:27

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