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Consider the following type to represent trees:

data Tree a = Empty
            | Leaf a
            | Fork (Tree a) (Tree a)

I need help definig the function removeRandom' :: Tree a -> IO (Tree a) that receives a tree with at least a leaf and returns the result of removing a random leaf from the tree (replacing it with Empty). The exercise had a suggestion: use the function randomRIO :: Random a => (a,a) -> IO a to generate the order of the element to remove

EDIT: trying method 2 of user Thomas

removeRandom' :: Tree a -> IO (Tree a)
removeRandom' t = let lengthTree = numbelems t
                  in do x <- randomRIO (0,lengthTree -1)
                        return (remove x t)

numbelems :: Tree a -> Int
numbelems Empty = 0
numbelems Leaf x = 1
numbelems Fork l r = (numbelems l) + (numbelems r)

remove :: Int -> Tree a -> Tree a
remove _ (Leaf x) = Empty
remove n (Fork l r) = let lengthLeft = numbelems l
                      in if (n>lengthLeft) then Fork l (remove (n-lengthLeft r)
                         else Fork (remove n l) r
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1 Answer 1

up vote 1 down vote accepted

There are 2 ways to approach this problem

  1. Convert to a list, remove the element, and convert back to a tree.

    • Pros: Simple to implement, you already have toList, all you need is fromList, and you can implement your solution simply as

      removeAt :: Int -> [a] -> [a]
      removeAt n as = a ++ tail s where (a, s) = splitAt n
      removeRandom' tree = do
          element <- randomRIO (0, length tree)
          return $ fromList $ removeAt element $ toList tree
    • Cons: This method is not "True" to the problem statement removing a random leaf from the tree (replacing it with Empty) and will likely give you a brand new tree with no Empty values in it. I have only provided this as an option in an attempt to show where your toList method ends up.

  2. Descend into the tree, until you hit the element to be removed, then rebuild the tree on the way back up

    • Pros: The meat of the algorithm is "Pure" as in, does not touch IO. You only actually need IO for a moment within removeRandom'. You can likely write a solution that looks a bit like this (interesting parts left blank ;).

      removeAt :: Int -> Tree a -> Tree a
      removeAt n tree = walk 0 tree
          walk i Empty = ...
          walk i (Fork l r) = ...
          walk i l@(Leaf _)
            | i == n    = ...
            | otherwise = ...
      removeRandom' tree = do
          element <- randomRIO (0, length tree)
          return $ removeAt element tree
    • Cons: More complicated to implement, you need to know how to traverse back "up" a tree, rebuilding in your wake, and you will need to know how to write a recursive function with an accumulator such that you can track your position in the tree.

Either way you decide to go, you will need to write a function length :: Tree a -> Int that counts the number of leaves to use as input to randomRIO (which is an action that simply produces a random value in a given range).

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Thanks for the detailed explanation. I will try method two –  user3276667 Feb 10 at 11:45
Ok. I added my try of method two to my question. Could you please take a look? –  user3276667 Feb 10 at 12:45
Could you also help me on building the fromList function? I know it's not relevant to method two but I think it might be useful in another context –  user3276667 Feb 10 at 20:28
Your implementation of numbelems is spot-on, but your implementation of remove is not. The condition for replacing a Leaf with Empty is when your accumulator reaches zero. Consequently, you have to count all the leaves you have encountered so far, and remove them from your accumulator. –  Thomas Feb 10 at 22:57
Ok I will try your approach. However, I think mine also works. Can you give me an example of a tree where it fails? –  user3276667 Feb 11 at 11:57

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