# Error handling using 'Either' inside a recursive function

Assuming a binary search tree, I would like to return an error in case we are trying to insert an element that is already there. Is there a way to make this work?

``````data BST2 a = EmptyBST2 | Node2 a (BST2 a) (BST2 a)  deriving Show

insert2 :: a -> Either b (BST2 a) -> Either b (BST2 a)
insert2 elem (Right EmptyBST2) = Right (Node2 elem EmptyBST2 EmptyBST2)
insert2 elem (Right (Node2 root left right))
| (elem == root) = Left "Error: Element already exist."
| (elem < root) = (Node2 root (insert2 elem left) right)
| otherwise = (Node2 root left (insert2 elem right))
``````

Note: I am new to Haskell.

-

This problem is simpler to solve using helper functions:

``````insert2 :: (Ord a) => a -> BST2 a -> Either String (BST2 a)
insert2 newVal tree
| contains newVal tree = Left "Error:  element already in tree"
| otherwise = Right \$ insert newVal tree
``````

Now you need `contains` and `insert`:

``````contains :: (Ord a) => a -> BST2 a -> Bool
contains .... implementation .... -- checks whether a BST2 contains an element

insert :: (Ord a) => a -> BST2 a -> BST2 a
insert .... implementation .... -- inserts an element if not already there,
--   otherwise returns original tree
``````

Alternatively, instead of `Either String (BST2 a)`, you could use one of Haskell's many other approaches to errors.

-

@Andre just tried to provide a minimal fix for your code. An idiomatic way to implement your error handling task in Haskell is to use the `Error` monad. The main reason for that is a possibity to reuse `liftM2` library function to implement `combine`. `throwError` and `return` can be replaced by `Left` and `Right`, but the generic functions explain the purpose of your code more clearly.

``````module Err where

data BST2 a = EmptyBST2 | Node2 a (BST2 a) (BST2 a)  deriving Show

combine root = liftM2 (Node2 root)

insert2 :: (Ord a) => a -> BST2 a -> Either String (BST2 a)
insert2 elem EmptyBST2 = return \$ Node2 elem EmptyBST2 EmptyBST2
insert2 elem (Node2 root left right)
| (elem == root) = throwError "insert2 error: Element already exists."
| (elem < root) = combine root (insert2 elem left) (return right)
| otherwise = combine root (return left) (insert2 elem right)
``````

Note that `combine` can be shorter: `combine = liftM2 . Node2` or longer: `combine root left right = liftM2 (Node2 root) left right`. Use the style you understand best.

Also some comments regarding the errors @Andre fixed:

• `insert2` was not polymorphic in error type - it always returned a `String` in case of failure. So he used `String` in the type declaration instead of `b`.
• Unlike lists, ordered collections cannot store any type - only types which can be compared (ordered) can be put into a tree. So he added `Ord a =>` constraint on tree value type to indicate that `<` and `==` must be implemented for the type.
• `insert2` returns `Either`. You tried to pass `Left` or `Right` to `Node2` and `Node2 root (Left foo) right` fails because it expects `Node2 a` but `Either String (Node2 a)` is provided.

Finally, one more reason to use `throwError` and `return` is that the function becomes generic:

``````insert2 :: (Ord a, MonadError String m) => a -> BST2 a -> m (BST2 a)
``````

and you can use it with instances of `MonadError` other than `Either`, but you need to add `{-# LANGUAGE FlexibleContexts #-}` pragma at the top of your source file before the `module` declaration.

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thanks for the improvement. (BTW, I deliberately did not mention monads.) –  Andre Nov 9 '11 at 9:53
My policy is to provide two answers for wrong code: a minimal fix and a better implementation. A better implementation alone has low educational value so my answer is not an improvement but an additional clue. –  nponeccop Nov 9 '11 at 10:05
Looks like the type could be more general: `insert2 :: (Ord a, MonadError String m) => a -> BST2 a -> m (BST2 a)`? –  ephemient Nov 9 '11 at 16:19
1) Not in Haskell98 2) We wanted to avoid scary monads as much as possible 3) Yes –  nponeccop Nov 9 '11 at 17:10

Just a quick solution (not necessarily simple):

``````data BST2 a = EmptyBST2 | Node2 a (BST2 a) (BST2 a)  deriving Show

combine :: a -> Either b (BST2 a) -> Either b (BST2 a) -> Either b (BST2 a)
combine a (Left b) _ = Left b
combine a _ (Left b) = Left b
combine a (Right left_subtree) (Right right_subtree) = Right (Node2 a left_subtree right_subtree)

insert2 :: (Ord a) => a -> Either String (BST2 a) -> Either String (BST2 a)
insert2 elem (Right EmptyBST2) = Right (Node2 elem EmptyBST2 EmptyBST2)
insert2 elem (Right (Node2 root left right))
| (elem == root) = Left "Error: Element already exist."
| (elem < root) = combine root (insert2 elem (Right left)) (Right right)
| otherwise = combine root (Right left) (insert2 elem (Right right))

-- test data
t1 = EmptyBST2
t2 = Node2 17 t1 t1
t3 = Node2 42 t2 t1
t4 = insert2 11 (Right t3)
t5 = insert2 17 (Right t3)
``````
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There is really no reason for insert2's second argument to be of type `Either String (BST2 a)`, `BST2 a` would suffice! –  adamse Nov 9 '11 at 8:22
`combine` is just `liftM2 . Node2` –  nponeccop Nov 9 '11 at 9:36