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The third paragraph of wikipedia's article on AVL trees says: "Because AVL trees are more rigidly balanced, they are faster than red-black trees for lookup-intensive applications."

So, shouldn't TreeMap be implemented using AVL trees instead of red-black trees(as there will be more look up intensive applictions for a hashing based data structure ) ?

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up vote 20 down vote accepted

Red-Black trees are more general purpose. The do relatively well on add, remove, and look-up but AVL trees have faster look-ups at the cost of slower add/remove. Java's general policy is to provide the best general purpose data structures. It's also the same reason Java's default Array.sort(Object[] a) implementation is merge sort instead of quicksort.

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Java uses quicksort for primitive objects as it is faster than merge sort in the average case . It uses merge sort for sorting objects as merge sort is a stable sorting algorithm. SEE : stackoverflow.com/questions/3707190/… – Nikunj Banka Feb 17 '13 at 16:57
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@NikunjBanka Good info, thanks! – Justin Feb 17 '13 at 20:04
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Since Java 7 merge-sort was replaced by TimSort bugs.java.com/bugdatabase/view_bug.do?bug_id=6804124 – Ondrej Bozek Apr 1 '14 at 20:11

The Wikipedia article is wrong (or at least, there is no supporting citation to back up the claim). It is true that the worst-case height of an AVL tree (1.44 lg n) is better than the worst-case height of a red-black BST (2 lg n), but this is worst case and may not have much to do with real-world performance.

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