# Checking if two n-ary trees are equal in Haskell

I am trying to implement a simple boolean function in Haskell to check if two n-ary trees are equal.

My code is:

``````-- This is the n-ary tree definition.
-- (I know "Leaf a" is not necessary but I prefer to write it for clarity)
data Tree a = Leaf a | Node a [Tree a]
deriving (Show)

-- This is a simple tree used for test purposes
t :: Tree Int
t = Node 3 [Node 5 [Leaf 11, Leaf 13, Leaf 15], Leaf 7, Leaf 9]

treeEquals :: Eq a => Tree a -> Tree a -> Bool
treeEquals (Leaf n1) (Leaf n2) = n1 == n2
treeEquals (Node n1 xs1) (Node n2 xs2) = n1 == n2 && and(zipWith (treeEquals) xs1 xs2)
treeEquals _ _ = False
``````

My problem is that if I do tests such as:

``````treeEquals t t
treeEquals t (Leaf 3)
treeEquals t (Node 3 [Leaf 7])
``````

it returns correctly false because the trees are not equal, but if I try a test such as:

``````treeEquals t (Node 3 [])
``````

It doesn't work because it returns true as the trees were equals.

Do you know what I am doing wrong?

Thank you!

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Are there better ways to implement this method without using zipWith avoiding two lists traversals? –  JohnQ Dec 13 '12 at 18:51

Add another && before the zipWith and check if the lengths of the lists are the same.

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Doing this means potentially two list traversals - it's better not to use zipWith in the first place. –  stephen tetley Dec 13 '12 at 18:49
@Darwin, thanks for your answer. I had not thought that, it was so simple! –  JohnQ Dec 13 '12 at 18:50

Why don't you just derive `Eq` and use `==`?

The problem with your current code is the `zipWith`. It stops as soon as it reaches the end of the shorter list, so `zipWith treeEquals foo []` always returns `[]` (regardless of what `foo` is).

Here's an (untested) alternative solution:

``````treeEquals :: Eq a => Tree a -> Tree a -> Bool
treeEquals (Leaf n1) (Leaf n2) = n1 == n2
treeEquals (Node n1 xs1) (Node n2 xs2) = n1 == n2 && listTreeEquals xs1 xs2
where
listTreeEquals [] [] = True
listTreeEquals (x1 : xs1) (x2 : xs2) = treeEquals x1 x2 && listTreeEquals xs1 xs2
listTreeEquals _ _ = False
treeEquals _ _ = False
``````
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Thank you for your answer. Yes, I have understood what's the problem. Unfortunately I have to implement my own method because I have to exercise myself for an exam. I am trying to implement all the possible things they could ask me, so I can't just use ==. –  JohnQ Dec 13 '12 at 18:47
@JohnQ The cool thing about `(==)` here is that even if you don't derive it, but implement it yourself, you can define `(Node n1 xs1) == (Node n2 xs2) = n1 == n2 && xs1 == xs2` [plus the equations for the other cases, `Leaf/Leaf` and `_/_`]. The `xs1 == xs2` then uses the generic `instance Eq a => Eq [a]` to do the right thing. For your `treeEquals`, you could then simply use `treeEquals = (==)` ;) –  Daniel Fischer Dec 13 '12 at 21:47