It depends a bit on the implementation details. If the nodes of your unbalanced binary search tree have a "parent" pointer, you could use that to traverse it. Your implementation of ++iterator could look a bit like this:
if (current_node.has_right_child()) {
// We go to the right subtree of the current node and
// take the smallest element of that subtree.
current_node = current_node.right_child();
while (current_node.has_left_child()) {
current_node = current_node.left_child();
}
} else {
// We have to go up. If the current element is the left child of the parent,
// we can just go to the right child of the parent.
// If it is the right child, we have to go further up
while (true) {
if (!current_node.has_parent()) {
// We got up to the root and never found a right child.
// So we are at the end of the iteration.
current_node = NULL;
break;
}
Node* parent = current_node.parent();
bool is_left_child = parent.left_child() == current_node;
current_node = parent;
if (is_left_child) {
// if this was the left child, then the parent is the correct next element.
break;
}
// if this was the right child, we have to go further up
// until we leave this subtree, so we continue iterating.
}
}
If your binary tree does NOT have parent nodes, you could store the parents in the iterator. I.e. you could maintain a vector parents; in which you store the parents of the current node up to the root. If this is still needed, I can provide an implementation, but because you edited my "non parent pointer" version with parent pointers, it seems that you have parent pointers. So I leave it away.