One can iterate over a list without using pointers or references. In some cases this removes the need for actually having the list. Consider the following code,
int i; for (i = 0; i < 10; ++i) printf("%i ", i % 2);
It directly outputs the list 0 1 0 1 0 1 0 1 0 1 without actually storing the list in memory.
How can one do a similar thing with binary trees?
Please show a way to implement tree_iterator, new_root_tree_iterator and, traverse_tree_iterator for the following code where upper_boundary_of_tree is something analogous to the number 10 in the list example and that I don't know how to define.
People have been having trouble with what I mean by upper_boundary_of_tree. The upper boundary of the tree would not be represented by the number 10. I don't know how to represent some upper boundary of a tree. This is part of the question. The upper boundary of the tree is similar to how the number 10 is used in the list code above, as in it does the same function, marking where to stop iterating but, it is very definitely not the same thing.
If you need to you can have a free_tree_iterator function as well.
tree_iterator i = new_root_tree_iterator(); while (traverse_tree_iterator(&i, upper_boundary_of_tree)) foobar(i);
This has been bothering me for a while.