How can I write a generalized foldr function for generic Haskell trees?

```
data (Eq a, Show a) => Tree a = Void | Node a [Tree a]
deriving (Eq, Show)
treefold :: (Eq a, Show a) => (a -> [b] -> b) -> b -> Tree a -> b
```

I'm stuck at the first argument definition...

**EDIT**: what about a more generalized version, avoiding using lists? More here

`(a -> [b] -> b)`

– gremo Feb 13 '11 at 1:28`(a -> [b] -> b)`

. This function takes the first argument of type`a`

(the same type of the tree), the second argument a list of types`b`

and produces a type`b`

. What is not clear to me is why the 2nd argument is a list of`b`

. – gremo Feb 13 '11 at 2:14`a`

is the type of the elements in the tree and`b`

is the result type of the fold. So if you want to sum the lengths of a tree of strings, you'd pass in the function`\str subsums-> length str + sum subsums`

and for each node it would call that function with the string inside the current node as well as the length-sums of the subtrees. The result of calling the function on the root node will be the result of the fold. – sepp2k Feb 13 '11 at 2:30