There is binary tree with special property that all its inner node have val = 'N' and all leaves have val = 'L'. Given its preorder. construct the tree and return the root node.
every node can either have two children or no child
There is binary tree with special property that all its inner node have val = 'N' and all leaves have val = 'L'. Given its preorder. construct the tree and return the root node. every node can either have two children or no child 


Recursion is your friend.
Looking at it as a recursive method, it becomes easy to see how do other things. For instance, say we wanted to print the InOrder traversal. The code will look something like this:
Also, I would like to mention that this is not that artificial. This type of representation can actually be used to save space when we need to serialize a binary tree: Efficient Array Storage for Binary Tree. 


Just the basic idea: keep a stack where the head is the "current" node and read sequentially the string representing the preorder. Now, if you encounter a 'L', then it means the "current" node has as a child a leaf, so you can "switch" to the right child and resuming building the corresponding subtree, pushing the root of that subtree; if, when encountering a 'L', the "current node" has already two children, pop an element from the stack. 

