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what is another way to test whether a binary tree is balanced other than recursively calling the size function on the left and right subtrees. abs(size left - size right) <= 1 for the tree to be balanced. I must write an efficient function to satisfy the requirement but like i said does not recursively call the size function on the left and right subtrees.

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Is this homework? –  Chuck Feb 21 '11 at 7:57
How is your binary tree represented? –  FUZxxl Feb 21 '11 at 8:30

5 Answers 5

So it's pretty easy with recursion, isn't it?

import Data.Maybe (isJust)

getBalancedSize :: (Monad m, Num b, Ord b) => BinaryTree a -> m b
getBalancedSize Empty = return 0
getBalancedSize (Node _ l r) = do
    sizeL <- getBalancedSize l
    sizeR <- getBalancedSize r
    if abs (sizeL - sizeR) <= 1
        then return $ sizeL + sizeR + 1
        else fail "tree is not balanced"

isBalanced :: BinaryTree a -> Bool
isBalanced = isJust . getBalancedSize

Now suppose you have

fold :: (a -> b -> b -> b) -> b -> Tree a -> b
fold _ b Empty = b
fold f b (Node a l r) = f a (fold f b l) (fold f b r)

There's an obvious way to refactor getBalancedSize to be a single call to fold.

getBalancedSize = fold f (return 0) where
    f _ l r = do
        sizeL <- getBalancedSize l
        sizeR <- getBalancedSize r
        if abs (sizeL - sizeR) <= 1
            then return $ sizeL + sizeR + 1
            else fail "tree is not balanced"

But you do need some recursive function to walk the recursive tree structure.

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It depends on how your binary tree is represented in Haskell. If it's a recursive data structure, recursion is your only weapon...

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well this is the way it is defined: data BinaryTree a = Empty | Node a (BinaryTree a) (BinaryTree a) –  Homes Feb 21 '11 at 4:23
There is no other way of descending down the tree except recursion in this case then. –  spyros Feb 21 '11 at 4:28
alright thanks. I was trying everything to figure it out but i couldn't ever get anything that was quite right. I assumed there was another way since it was a question on my homework. I found the right answer using recursion but could fulfill the requirement of a balanced binary search tree using any other method. –  Homes Feb 21 '11 at 4:43

You could use a type guaranteed Red-Black Tree. No need to check if it is balanced because the types assure it.

isBalanced = const True
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You could define a new binary tree that stores it's depth. Depth is updated on insert and removal, and you can tell if it's balanced by looking at the stored depth value.

It is a nicer solution to calculate recursively depending on how often you are updating the tree. It's cleaner anyway.

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The point about efficiently determining whether a tree is balanced without paying attention to its size, is that once you know the right branch is more than one level deeper than the left branch, it doesn't matter exactly how much deeper it is. 2 levels deeper? 3? 100? We don't care, and it could be considered inefficient to find out only to throw away the result.

isBalanced :: BinaryTree a -> Bool
isBalanced = and . treeToBalanceSize

treeToBalanceSize :: BinaryTree a -> BalanceSize
treeToBalanceSize Empty      = []
treeToBalanceSize (Node l r) = True : mergeBalanceSizes (treeToBalanceSize l) (treeToBalanceSize r)

mergeBalanceSizes :: BalanceSize -> BalanceSize -> BalanceSize
mergeBalanceSizes []       []       = []
mergeBalanceSizes [x]      []       = [x]
mergeBalanceSizes []       [y]      = [y]
mergeBalanceSizes (x : xs) (y : ys) = (x && y) : mergeBalanceSizes xs ys
mergeBalanceSizes _        _        = [False]

type BalanceSize = [Bool]

Satisfy yourself that

  1. If tree is balanced and of size size, then treeToBalanceSize tree = replicate size True.
  2. If tree is unbalanced, then treeToBalanceSize tree will end with a False.
  3. Evaluating mergeBalanceSizes [True] list does not cause list to be evaluated beyond its third element.
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