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data Tree a = Leaf | Node (Tree a) a (Tree a) deriving (Eq, Show)

unfoldTree:: (b -> Maybe (b, a, b)) -> b -> Tree a
unfoldTreef b =
    case f b of
      Nothing -> Leaf
      Just (lt, x, rt) -> Node (unfoldTree f lt) x (unfoldTree f rt)

Given the two piece of information above, I'm asked to implement a tree building function.

and my attempt is

treeBuild :: Integer -> Tree Integer
treeBuild 0 = Leaf
treeBuild n = treeUnfold (\b -> if b < 2^n-1 
                then Just(2*b, b + 1, 2*b + 1) 
                else Nothing) 

The base case works where n = 0 works fine but I know the function is completely wrong. Can someone re-explain to me how would a 3-tuple Just work? In a normal unfold, the first element in a Just would be the element I want and the second element would be used to continue unfolding but how does this work in a 3-tuple Just?

As example output: treeBuild 2 ----> Node (Node Leaf 0 Leaf) 1 (Node Leaf 2 Leaf)

Edit: I'm not completely sure how Just works here, for the case of Just(2*b, b + 1, 2*b + 1) where b starts at 0, does it become Just(0, 1, 0)? How do I actually increment b?

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up vote 3 down vote accepted

I think you omitted a space when pasting the definition of unfoldTree. Should it be this?

unfoldTree f b =
    case f b of ...

There's nothing intrinsically meaningful about Maybe (b, a, b), but in this particular case you can see that unfoldTree binds the items in the tuple to lt, x, and rt. The middle value x is used to create a node, and lt and rt are used to seed the recursive calls to unfoldTree.

To explain your example output, note that n is always bound to 2. The initial 0 argument to treeUnfold means the (\b -> ...) function first checks 0 < 2^n-1, then yields Just (2*0, 0+1, 2*0+1).

The middle value, 0+1 is the value of the root node in your tree. The left subtree is built similarly except b is now 2*0, and the right subtree is built with b as 2*0+1.

You mention this is homework which is supposed to build a tree with 2^n - 1 nodes. I'm going to guess that Leaf values don't count and that you want to number these nodes in breadth-first order, and hopefully this example gets you in the neighborhood. Here's how to do that:

treeBuild :: Int -> Tree Int
treeBuild n = treeUnfold (\b -> if b < 2^n - 1
                                   then Just (2*b+1, b, 2*b+2)
                                   else Nothing) 0

The way I arrived at this is by drawing a binary tree with depth 3. I numbered the nodes starting with the root as 0, the left node as 1 and the right node as 2. The bottom nodes are numbered from left to right starting with 4 and ending at 7.

Now the pattern is visible: if the current node is numbered b, his left and right nodes are numbered 2*b+1 and 2*b+2 respectively. Since 2^n - 1 is the total number of nodes in a tree of depth n, and I'm numbering nodes in breadth-first order, returning Nothing when b >= 2^n-1 ensures I stop after filling the tree up to depth n.

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Thanks for the detailed explanation. Problem is when I run the code above, the program would keep looping on forever. I modified the code about slightly so now the right subtree is being built with 2*(b+1) which I think is the correct answer. – user1043625 Mar 21 '13 at 3:58
Yeah, the recursion will only terminate when b >= 2^n-1 (that is, b >= 3). You start with b = 0 and the left tree recurses with b = 2*b which is still 0, so it never terminates. You'll need to change either your starting b value or the lt expression from 2*b – kputnam Mar 21 '13 at 4:06
I've spent some time trying to figure this out but I still can't seem to get the right solution. treeUnfold (\b -> if b < 2^(n+1)-1 is what is currently have and this should be the correct value (The number of nodes in a tree would always be 2^(n+1)-1). Question is how do I actually increment b? – user1043625 Mar 21 '13 at 20:33
I'm just guessing here, but is treeBuild n supposed to build a balanced binary tree whose 2^n-1 nodes are numbered in breadth-first order? – kputnam Mar 21 '13 at 21:44
Yeah, something like that. treeBuild 3 would return Node (Node (Node Leaf 0 Leaf) 1 (Node Leaf 2 Leaf)) 3 (Node (Node Leaf 4 Leaf) 5 (Node Leaf 6 Leaf)) Basically it starts from 0 on the left and increases as it go towards the right. – user1043625 Mar 22 '13 at 0:37

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