I guess the following probably works. As per the comments, it's still a terrible, terrible, terrible idea. If you really want to write Haskell like this, then you don't really want to write Haskell.

Anyway, the idea is to provide a type class for:

```
insert :: (Ord k) => k -> v -> a
```

parameterized in all three parameters with a functional dependency specifying that `a`

determines `k`

and `v`

. In your case, `a ~ (Map k' v' -> Map k' v')`

implies `k ~ k'`

and `v ~ v'`

, while `a ~ Set t`

implies `k ~ t`

and `v ~ Set t`

.

```
{-# LANGUAGE MultiParamTypeClasses, FlexibleInstances, FunctionalDependencies,
NoMonomorphismRestriction #-}
module UnifiedInsert where
-- insert :: Ord k => k -> v -> Map k v -> Map k v
-- insert :: Ord a => a -> Set a -> Set a
import Data.Map (Map)
import qualified Data.Map as Map
import Data.Set (Set)
import qualified Data.Set as Set
class Insert k v a | a -> k, a -> v where
insert :: (Ord k) => k -> v -> a
instance Insert k (Set k) (Set k) where
insert = Set.insert
instance Insert k v (Map k v -> Map k v) where
insert = Map.insert
fromList = foldr insert mempty
foo1 :: Set Int
foo1 = fromList [1..10]
```

Note that the type checker can deduce the type of the function `fromList`

(even if `foo1`

is dropped from the program), as long as the monomorphism restriction is off. It will have the rather preposterous type:

```
fromList :: (Foldable t, Insert k v v, Ord k, Monoid v) => t k -> v
```

which can, indeed, be specialized to `Ord a => [a] -> Set a`

, as required.

`insert :: Ord k => k -> v -> Map k v -> Map k v`

and`insert :: Ord a => a -> Set a -> Set a`

. Yes, I know that this might be a bad idea and that some people might not like it. But I don't force anyone to use this approach. I just interested whether it's possible or not.`insertMap`

and`insertSet`

to separate use cases. But it's less convenient since historically name is`insert`

for different types :( I don't think this is onlycoincidencebecause`Set a`

can be just a special case of`Map`

like`Map a ()`

. But it's not convenient to insert`()`

manually.`foo`

were uncurried to`foo :: (a, b) -> x -> x`

, it would make more sense to unify`foo`

and`bar`

.5more comments