I don't think there's a way to do that directly, unfortunately. With a function you can use `flip`

to partially apply the second argument, but that doesn't work with type constructors like `Either`

.

The simplest thing is probably wrapping it in a `newtype`

:

```
newtype Mirror b a = Mirrored (Either a b)
instance Functor (Mirror e) where
fmap _ (Mirrored (Right a)) = Mirrored $ Right a
fmap f (Mirrored (Left b)) = Mirrored $ Left (f b)
```

Wrapping with `newtype`

is also the standard way to create multiple instances for a single type, such as `Sum`

and `Product`

being instances of `Monoid`

for numeric types. Otherwise, you can only have one instance per type.

Additionally, depending on what it is you want to do, another option is to ignore `Functor`

and define your own type class like this:

```
class Bifunctor f where
bimap :: (a -> c) -> (b -> d) -> f a b -> f c d
instance Bifunctor Either where
bimap f _ (Left a) = Left $ f a
bimap _ g (Right b) = Right $ g b
instance Bifunctor (,) where
bimap f g (a, b) = (f a, g b)
```

Obviously, that class is twice as much fun as a regular `Functor`

. Of course, you can't make a `Monad`

instance out of that very easily.