# How does the std::map iterator work?

The C++ STL class std::map implements O(log(n)) look-up using a binary tree. But with trees, it's not immediately obvious how an iterator would work. What does the ++ operator actually mean in a tree structure? Whereas the concept of "next element" has an obvious implementation in an array, for me it's not so obvious in a tree. How would one implement a tree iterator?

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You can have a look at the source as a starter: sgi.com/tech/stl/stl_map.h –  amit Sep 4 '12 at 8:33
Look at a typical self-balancing binary search tree. It's easy to see an algorithm that gets from a given node to the next bigger one by looking to the right children or going up and down the tree. Occasionally you have to jump several times, but it's still amortized constant time (since the height of the tree is the logarithm of the number of elements). –  Kerrek SB Sep 4 '12 at 8:46
This wikipedia article may answer some of your questions: Tree traversal. Basically, the "next" element can be different depending on the kind of traversal you use. In the case of `std::map`, the tree is traversed in order (from the smallest element to the greatest). –  Luc Touraille Sep 4 '12 at 8:48

For an inorder traversal (probably works for others too), if you have a parent-pointer in your nodes you can do a non-recursive traversal. It should be possible to just store two pointers in your iterator: you need an indication of where you are, and you'll probably (I'm not doing the research now) need something like a "previous" pointer so you can figure out your current movement direction (i.e. do I need to go into the left subtree, or did I just come back from it).

"Previous" will probably be something like "parent", if we've just entered the node; "left" if we're coming back from the left subtree, "right" if we are coming back from the right subtree, and "self" if the last node we returned was our own.

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An implementation may know that node pointers are word-aligned and abuse the lower bits of the node pointer to store the state, instead of using a second pointer. –  MSalters Sep 4 '12 at 9:33
I think this is what I needed. Essentially I'm trying to create an iterator for a generic tree class and this appears to work for n-ary unordered trees. –  Avi Sep 5 '12 at 3:25

Consider the set of all elements in the map that are not less than the current element that are also not the current element. The "next element" is the element from that set of elements that is less than all other elements in that set.

In order to use a map, you must have a key. And that key must implement a "less than" operation. This determines the way the map is formed, such that the find, add, remove, increment, and decrement operations are efficient.

Generally the map internally uses a tree of some kind.

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