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How do you delete the minimum in BST? I can't seem to find a way to keep the tree

data BST = EmptyT
         | Node Float BST BST
           deriving (Eq, Show, Read)

deleteMin :: BST -> Maybe BST
deleteMin EmptyT  = Nothing
deleteMin (Node x left right)
    |left == EmptyT = ? 
    |otherwise = ?

do i need getters and setters?

share|improve this question
In Haskell you should usually try to use pattern matching to do branches. Not only does this make your code not need extraneous "Eq" interface but you also let the compiler give you useful warnings if you forget to handle some of the cases. – hugomg Jan 27 '13 at 14:03
up vote 5 down vote accepted

Haskell does not have "getters and setter" in the OOP sense, though you can come up with similar concepts. If you wish to delete a value in your binary tree, you have to construct a new tree with the value missing. That is how you "keep the tree."

Assuming you are using a standard BST, then the leftmost node in the tree will contain the minimum element. So, by traversing your tree towards the left, you should eventually run into a situation that looks like Node x EmptyT r. Any other node, you just recursively call deleteMin on the left branch.

This gives a function that looks like

deleteMin :: BST -> Maybe BST
deleteMin EmptyT                = Nothing
deleteMin (Node x EmptyT right) = Just right
deleteMin (Node x left right)   =
    case deleteMin left of
         Nothing -> Nothing
         Just nl -> Just $ Node x nl right

You have to check the result of each call to deleteMin to check for Nothing. I don't think you really need to return a Maybe BST, unless you really need to indicate that there is no element to delete. It makes more sense (to me at least) to just return an empty tree if there is nothing to delete.

I think most would also consider the use of pattern matching preferable over using guards with an equality check.

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Just a note, in the last equation, deleteMin left can never be Nothing. – Daniel Fischer Jan 27 '13 at 13:23

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