I am trying to write a simple n-ary tree in Haskell.

This is what I have done so far:

```
data TreeN a = LeafN a | NodeN a [TreeN a]
deriving (Show)
-- Traverses the tree
previsitN :: TreeN a -> [a]
previsitN (LeafN a) = [a]
previsitN (NodeN n xs) = [n] ++ concatMap previsitN xs
-- Checks if the first parameter is present in the tree
presentN :: Eq a => a -> TreeN a -> Bool
presentN p (LeafN a) = a == p
presentN p (NodeN a xs) = a == p || or [presentN p t | t <- xs]
```

My code works but I would like to know if I can simplify the last line of the presentN method:

```
presentN p (NodeN a xs) = a == p || or [presentN p t | t <- xs]
```

I have tried to do something like this:

```
presentN p (NodeN a xs) = a == p || or (map (presentN p) xs)
```

but the interpreter gives me an error I don't understand.

I was trying to do partial applications to map the presentN method to the list of TreeN elements.

What am I doing wrong? Are there better ways to do it?

Thank you!

`map`

works for me. What error do you get? Other than that, I suggest you to implement Foldable. This way, you'll get many functions for free, including`toList`

and`elem`

(which are the standard equivalents of your`previsitN`

and`presentN`

). – Petr Pudlák Dec 5 '12 at 21:22`or (map p ...)`

with`any p ...`

– hammar Dec 5 '12 at 21:26`LeafN`

constructor? You can already express a leaf using a`NodeN`

with an empty list of subtrees. – kosmikus Dec 5 '12 at 21:41