I have a Set-like data structure, implemented as a Trie, with a definition like this:

```
import qualified Data.Map as M
import Data.Foldable (Foldable, foldr)
import Prelude hiding (foldr)
import Data.Maybe (fromMaybe)
data Trie a = Trie { endHere :: Bool
, getTrie :: M.Map a (Trie a)
} deriving (Eq)
```

And an insert operation that looks like this:

```
insert :: (Ord a, Foldable f) => f a -> Trie a -> Trie a
insert = foldr f (\(Trie _ m) -> Trie True m) where
f e a = overMap (M.alter (Just . a . fromMaybe (Trie False M.empty)) e)
overMap :: Ord b => (M.Map a (Trie a) -> M.Map b (Trie b)) -> Trie a -> Trie b
overMap f (Trie e m) = Trie e (f m)
```

And I can get a *kind* of `foldr`

that looks like this:

```
foldrTrie :: ([a] -> b -> b) -> b -> Trie a -> b
foldrTrie f i (Trie a m) = M.foldrWithKey ff s m where
s = if a then f [] i else i
ff k = flip (foldrTrie $ f . (k :))
```

But I can't figure out the `Foldable`

instance for `Trie`

. The `foldrTrie`

seems to have all of the necessary functionality, but I just can't figure out the types.

Here's an example of the `foldr`

behaviour I'm looking for:

```
fromList :: (Ord a, Foldable f, Foldable g) => f (g a) -> Trie a
fromList = foldr insert (Trie False M.empty)
toList :: (Ord a) => Trie a -> [[a]]
toList = foldr (:) [] -- replace foldr here with foldrTrie and you'll get the
-- desired behaviour
toList (fromList ["abc", "def"]) -- ["abc","def"]
```

What I can't manage is the type signature for `Foldable`

:

```
instance Foldable Trie a where
```

I tried making my `Trie`

have a second type parameter:

```
data Trie a (f a) = Trie { endHere :: Bool
, getTrie :: M.Map a (Trie a (f a))
} deriving (Eq)
```

So that I might be able to do something like this:

```
instance Foldable Trie a f where
foldr f i (Trie a m) = M.foldrWithKey ff s m where
s = if a then f [] i else i
ff k = flip (foldrTrie $ f . (k :))
```

but I couldn't figure out the types.

A more general way to frame the question might be like this: if I had a data structure which could store *only* lists, would I be able to define `foldr`

on that data structure, so it treated the lists it stored as each element? What would the type for that data structure look like?

`instance Foldable Trie where foldr f = foldrTrie $ flip $ foldr f`

. I see no reason why a "Trie can only store Foldable things". – user2407038 Nov 2 '15 at 1:51`Foldable`

s), of`Ord`

elements. The things stored in the`Trie`

haveto be`Foldable`

, because that's the only way to insert something into the`Trie`

. I'd like to be able to access the things in the`Trie`

again, using`foldr`

, preserving their sequence-like structure. – oisdk Nov 2 '15 at 2:03`Foldable`

does so. Using only the`Foldable`

interface to`Trie`

, I see no way to write your desired function, because a`Foldable`

simply doesn't do that.`foldrTrie`

is more general than`foldr : (a -> b -> b) -> b -> Trie a -> b`

. – user2407038 Nov 2 '15 at 2:19only(say) lists, could I implement`Foldable`

on that data structure? I can manage the mechanics (I think); but it's the types that are holding me up. What would the type signature for that structure look like? – oisdk Nov 2 '15 at 2:26