I want to make my Trie data structure foldable. The basic data structure looks like this:

```
data Trie a = Trie {
value :: Maybe a,
children :: [(Char, Trie a)]
} deriving (Show)
```

I tried to implement the Foldable class by defining foldr:

```
instance F.Foldable Trie where
foldr f z (Trie (Just v) children) =
F.foldr (\a b -> F.foldr f b a) (f v z) children
foldr f z (Trie Nothing children) =
F.foldr (\a b -> F.foldr f b a) z children
```

This does not compile with this error:

```
Couldn't match type `a' with `Trie a'
`a' is a rigid type variable bound by
the type signature for foldr :: (a -> b -> b) -> b -> Trie a -> b
at Trie.hs:17:5
Expected type: [(Char, a)]
Actual type: [(Char, Trie a)]
In the third argument of `F.foldr', namely `children'
In the expression:
F.foldr (\ a b -> F.foldr f b a) (f v z) children
```

However, if I change the type of children to `Map Char (Trie a)`

, the Foldable implementation works without a change. I would like to keep the association list for simplicity's sake at the moment. Could you explain to me why foldr behaves differently on a map and an association list?

`[]`

's`Foldable`

instance isn't the one you would want if all lists were association lists. – Daniel Wagner Jan 30 '13 at 15:48`foldr`

at the list type`[(a,b)]`

, it will operate on tuples of type`(a,b)`

, whereas if you wanted to think of all lists as association lists, you might expect`foldr`

to operate only on the value part, the`b`

part. This is exactly what happens when you instantiate`foldr`

at the map type`Map a b`

: it only operates on the`b`

s. – Daniel Wagner Jan 30 '13 at 21:16