delete node from binary search tree, haskell

I'm making a Haskell function to delete a node from a Binary Search Tree. I know the rules regarding the action needed to be taken depending on the number children the targeted parent has.

no children - delete, 1 child - replace with the child, 2 children - find the min in the right sub tree and replace the node with the value, - then, recursively delete the minimum value from the right sub-tree

``````data BST = MakeNode BST String BST
|  Empty

deleteNode :: String -> BST

treeBuilder :: [String] -> BST

add :: String -> BST -> BST
add new Empty = (MakeNode Empty new Empty)
add string tree@(MakeNode left value right)
| string > value = MakeNode left value (add string right)
| string < value = MakeNode (add string left) value right
| otherwise = tree
``````

can't figure out why treeBuilder isn't working correctly either. It just prints Strings Diagonally down to the right.

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What code have you so far? Where are your particular problems? That lot of BST questions smells much like homework, so I hesitate to answer. (Not that we don't answer homework questions at all, but they should be answered differently to help learning.) –  Daniel Fischer Mar 8 '12 at 23:06
I just don't really know where to begin. –  user1204349 Mar 8 '12 at 23:16
Start with the eaiest case: `deleteNode x Empty = ...` What would go there in place of the ..., i.e. what would be the result when deleting anything from an empty tree? –  Ingo Mar 8 '12 at 23:38
wouldn't you want to delete the previous node if the one you're at now is empty? –  user1204349 Mar 8 '12 at 23:45
Nope. If you get to the empty node that means you never found the one you want to delete. Imagine you had the tree [1, 0, 2] And you said "delete 3 tree". You'd get to "Empty" on the right side of 2, but does that mean you should delete the 2? –  So8res Mar 8 '12 at 23:57
show 1 more comment

In these situations, it's best not to think about deleting a node from the tree; it's better to think of how to transform the tree you have into one without the node you want gone.

Let's do some case analysis:

If the tree is empty, then the result is empty, regardless of the key:

``````delete _ Empty = Empty
``````

If the tree is non-empty, we have to see if the key matches the node. If it does not match, then we need to transform either the left or right subtree based upon whether the key is greater-than or less-than the node:

``````delete key (MakeNode l key' r) | key < key' = MakeNode (delete key l) key' r
delete key (MakeNode l key' r) | key > key' = MakeNode l key' (delete key r)
``````

If it does match (which it must, since all of the no-match cases have been dealt with), then we have to figure out how to create a new tree without the root node. From your description, if the node has no children, just delete it:

``````delete _ (MakeNode Empty _ Empty) = Empty
``````

If the node has one child, use that:

``````delete _ (MakeNode l _ Empty) = l
delete _ (MakeNode Empty _ r) = r
``````

Otherwise, find and delete the minimum key in the right subtree, and use it as the new root's key:

``````delete _ (MakeNode l _ r) = MakeNode l key r' -- make a new root with min key and new r
where key = minKey r    -- find the minimum key in the right subtree
r' = delete key r -- new right subtree with min key removed

-- a helper function to find the minimum key in a tree
-- !! does not work on Empty tree !!
minKey (MakeNode Empty key _) = key
minKey (MakeNode l _ _) = minKey l
``````
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thanks for the post man. you guys are really helpful on here, I appreciate it –  user1204349 Mar 9 '12 at 0:04
Yes, the homework gets done, piece by piece! –  Ingo Mar 9 '12 at 9:11

You can't! Everything is immutable!

What you can do is make a new tree that's exactly the same as the old one, except with one node removed. (Don't worry, your compiler won't need to duplicate much memory. Remember, everything is immutable. That means that the implementation can safely re-use the common parts!)

As such, your deleteNode function won't be of type `String -> BST`, it will be of type `String -> BST -> BST`. The `String` is the label you want removed, the first `BST` is the input tree, the second `BST` is the output tree.

As @Ingo mentioned, you can implement deletion recursively by implementing the function:

``````deleteNode :: String -> BST -> BST
deleteNode _ Empty = ...                          -- Handle the empty case
deleteNode x (BST left a right) | x == a    = ... -- Delete the node
| x < a     = ... -- Recurse on the lesser node
| otherwise = ... -- Recurse on the greater node
``````

If you want to do some general munging beyond deletion (insertion, changes, etc.) in a traversable data structure (trees, lists, etc) I suggest you read up on zippers. They'll help you immensely.

Once you have a zipper for a binary tree, you can use zipper functions to delete nodes in the tree. If you'd like help implementing a zipper for your binary search tree data structure, let me know and I'll expand this. Right now it's probably overkill.

Be warned, a zipper won't re-balance your binary search tree for you. If you want to remove a node from your binary search tree and keep it balanced, that's a whole new can of worms.

There are a number of common balancing algorithms you could use, depending upon your taste. I suggest getting it working in an unbalanced fashion first, and then asking separate questions if you have trouble balancing it.

And, of course, if you want an efficient, out-of-the-box, already-implemented, balancing binary search tree in haskell -- just import `Data.Map`!

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thanks, i just used my own functions i made to reduce a tree into a list, delete the item, then use another function to put it back into a tree. My function to convert a list to a tree isnt working correctly though. Do you have any idea with that? –  user1204349 Mar 8 '12 at 23:43
Depends. What's going wrong with it? You lose a lot of the benefits of a binary tree by converting to/from a list, your algorithm will be much faster (O(log n) instead of O(n)) if you use the tree structure to your advantage. That is, after all, the whole point of tree structure. –  So8res Mar 8 '12 at 23:47
yeah, understand that, but it was the fastest thing i could think of lol. It's supposed to look at the list, put the first element at the top of the tree, the second element branches off according to its comparison to the first element and so on. I think that my algorithm is off –  user1204349 Mar 8 '12 at 23:52
Probably. Either post what you have in the comments or post another question about it and I'll try to help out. That said, your easiest route is probably to implement deleteNode using the template in the answer above :-) –  So8res Mar 8 '12 at 23:53
yeah, ill just post in this deal. thanks. –  user1204349 Mar 8 '12 at 23:57