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Consider unordered_map:

    class Key,
    class T,
    class Hash = std::hash<Key>,
    class KeyEqual = std::equal_to<Key>,
    class Allocator = std::allocator< std::pair<const Key, T> >
> class unordered_map;

I know (a==b) is faster than !(a<b) && !(b>a), but since unordered_map does not use std::less<Key> to compare/store the keys in the map, I wonder how can an implementation profit by tree data structures in the most efficient way to read/store different keys in the same bucket. It seems that a convertion from Key to a sort of KeyWrapper with operator<() defined cannot be avoided by any implementation with trees.

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I'm not entirely sure what you're asking here. Are you talking about using trees within a bucket? Or using a tree instead of a hash table? (This latter case is what a std::map is.) But your general question: for any kind of efficient tree, you need a comparison operator to properly balance the tree. –  Joe Feb 4 '12 at 15:04
yes, I am talking about trees within a bucket (i.e. splay trees) –  Martin Feb 4 '12 at 15:44

1 Answer 1

up vote 1 down vote accepted

You cannot use a tree inside unordered_map, even just within a bucket. unordered_map's interface simply does not allow it. The key type is required only to be equality comparable, nothing more. That's why it's called an "unordered" map; because there is no specific ordering of elements. To use some kind of binary tree would require a strict weak ordering, which is not required.

If you want to use a variation of an unordered_map, you may. But it would not be an unordered_map as defined by the standard.

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I was talking about trees for storing/reading elements collapsing in the same bucket –  Martin Feb 5 '12 at 0:35
@Martin: Fair enough. See my edit. –  Nicol Bolas Feb 5 '12 at 0:50

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