I'm rewriting some of my libraries to use type families instead of functional dependencies. However, it seems like some of the constraints that I have to add to functions in order to get them to compile shouldn't be necessary. That makes me suspect that I'm not doing things in the best way.

In the example below, is there a way to improve the definitions of `Grid`

and `GridMap`

so that the signatures for `diff`

and `classify`

are simpler? In particular, the constraints `BaseGrid (Container gm k) ~ BaseGrid gm`

, `Container (Container gm k) ~ Container gm`

, and `GridMap (Container gm k)`

on `classify`

seem inelegant.

```
{-# LANGUAGE TypeFamilies, FlexibleContexts #-}
import Prelude hiding (map)
import Data.List (minimumBy)
import qualified Data.Map as M
import Data.Ord (comparing)
class Grid g where
type Index g
indices :: g -> [Index g]
-- plus other functions
class (Grid (BaseGrid gm)) => GridMap gm where
type BaseGrid gm
type Value gm
type Container gm :: * -> *
toMap :: gm -> M.Map (Index (BaseGrid gm)) (Value gm)
toList :: gm -> [(Index (BaseGrid gm), Value gm)]
toList = M.toList . toMap
map
:: (GridMap gm2, gm2 ~ Container gm (Value gm2)) =>
(Value gm -> Value gm2) -> gm -> gm2
mapWithKey
:: (GridMap gm2, gm2 ~ Container gm (Value gm2)) =>
(Index gm -> Value gm -> Value gm2) -> gm -> gm2
-- plus other functions
class Pattern p where
type Metric p
difference :: p -> p -> Metric p
makeSimilar :: p -> Metric p -> p -> p
diff
:: (GridMap gm1, p ~ Value gm1, GridMap gm2, Pattern p,
Metric p ~ Value gm2, Container gm1 ~ Container gm2,
BaseGrid gm1 ~ BaseGrid gm2,
gm2 ~ Container gm2 (Value gm2)) =>
gm1 -> p -> gm2
diff c pattern = map (pattern `difference`) c
classify
:: (GridMap gm, p ~ Value gm, Pattern p, Ord k, k ~ Metric p,
k ~ Index (BaseGrid gm), k ~ Value (Container gm k),
BaseGrid (Container gm k) ~ BaseGrid gm,
Container (Container gm k) ~ Container gm,
GridMap (Container gm k)) =>
gm -> p -> k
classify c pattern =
fst $ minimumBy (comparing snd) $ toList $ diff c pattern
```

EDIT: I like leventov's solution, but when I try to implement it, I get a compile error that I don't understand.

```
{-# LANGUAGE TypeFamilies, FlexibleContexts #-}
import Prelude hiding (map)
import Data.List (minimumBy)
import qualified Data.Map as M
import Data.Ord (comparing)
class Grid g where
type Index g
indices :: g -> [Index g]
-- plus other functions
class (Grid (BaseGrid gm a)) => GridMap gm a where
type BaseGrid gm a
toMap :: gm -> M.Map (Index (BaseGrid gm a)) a
toList :: gm -> [(Index (BaseGrid gm a), a)]
toList = M.toList . toMap
map :: GridMap gm b => (a -> b) -> gm a -> gm b -- <<<<<LINE 20>>>>>
mapWithKey
:: GridMap gm b =>
(Index (BaseGrid gm a) -> a -> b) -> gm a -> gm b
-- plus other functions
class Pattern p where
type Metric p
difference :: p -> p -> Metric p
makeSimilar :: p -> Metric p -> p -> p
diff
:: (GridMap gm p, Pattern p, GridMap gm m,
Metric p ~ m, BaseGrid gm p ~ BaseGrid gm m) =>
gm p -> p -> gm m
diff c pattern = map (pattern `difference`) c
classify
:: (GridMap gm p, Pattern p, Ord k, k ~ Metric p,
k ~ Index (BaseGrid gm p),
BaseGrid gm k ~ BaseGrid gm p) =>
gm p -> p -> k
classify c pattern =
fst $ minimumBy (comparing snd) $ toList $ diff c pattern
```

The error I get is:

```
../Amy5.hs:20:42:
`gm' is applied to too many type arguments
In the type `GridMap gm b => (a -> b) -> gm a -> gm b'
In the class declaration for `GridMap'
Failed, modules loaded: none.
```

I also get this error if I leave off the constraint `GridMap gm b =>`

.