I wish to define the following typeclass `Mapping`

:

```
{-# LANGUAGE MultiParamTypeClasses #-}
class Mapping k v m where
empty :: m v
insert :: k -> v -> m v -> m v
search :: k -> m v -> Maybe v
delete :: k -> m v -> m v
```

One instance of `Mapping`

is `Data.Map.Map`

```
{-# LANGUAGE ..., FlexibleInstances #-}
instance Ord k => Mapping k v (Map.Map k) where
empty = Map.empty
search = Map.lookup
insert = Map.insert
delete = Map.delete
```

And now I want to create a type `Trie :: * -> * -> * -> *`

such as

```
{-# LANGUAGE ..., UndecidableInstances #-}
data Trie m k v = Trie {
trValue :: Maybe v,
trChildren :: m (Trie m k v)
}
instance Mapping k (Trie m k v) m => Mapping [k] v (Trie m k) where
search [] tree = trValue tree
search (x:xs) tree =
search xs =<< search x (trChildren tree)
```

So far so good,
now I also want to define `Trie`

's `insert`

and `empty`

, and that's where I get into problems.

I will discuss `empty`

because it's simpler and `insert`

needs it anyhow..
If I try this:

```
instance Mapping k (Trie m k v) m => Mapping [k] v (Trie m k) where
empty = Trie { trValue = Nothing, trChildren = empty }
...
```

and that makes me get the following error:

```
Could not deduce (Mapping k (Trie m k1 v) (m k1))
from the context (Mapping [k1] v (Trie m k1),
Mapping k1 (Trie m k1 v) (m k1))
arising from a use of `empty' at test.hs:27:49-53
Possible fix:
add (Mapping k (Trie m k1 v) (m k1)) to the context of
the instance declaration
or add an instance declaration for (Mapping k (Trie m k1 v) (m k1))
In the `trChildren' field of a record
In the expression: Trie {trValue = Nothing, trChildren = empty}
In the definition of `empty':
empty = Trie {trValue = Nothing, trChildren = empty}
```

I've tried and tried to solve it but failed.

Does anyone know how to make it work? Is it even possible?

`v`

from the type class definition (but leave it in the signatures of the methods). You don't need it, at least for all the structures you've given so far, because they will all take any contained type, and it makes everything simpler.