I've been trying to "learn me a Haskell" through the online book LYAH.

The author describes the behaviour of Functors of the Applicative type as sort of having the ability to extract a function from one functor and mapping it over a second functor; this is through the <*> function declared for the Applicative type class:

```
class (Functor f) => Applicative f where
pure :: a -> f a
(<*>) :: f (a -> b) -> f a -> f b
```

As a simple example, the Maybe type is an instance of Applicative under the following implementation:

```
instance Applicative Maybe where
pure = Just
Nothing <*> _ = Nothing
(Just f) <*> something = fmap f something
```

An example of the behaviour mentioned previously:

```
ghci> Just (*2) <*> Just 10 -- evaluates to Just 20
```

so the <*> operator "extracts" the (*2) function from the first operand and maps it over the second operand.

Now in Applicative types, both operands of <*> are of the same type, so I thought as an exercise why not try implementing a generalisation of this behaviour, where the two operands are Functors of different types, so I could evaluate something like this:

```
Just (2*) <*:*> [1,2,3,4] -- should evaluate to [2,4,6,8]
```

So this is what I came up with:

```
import Control.Applicative
class (Applicative f, Functor g) => DApplicative f g where
pure1 :: a -> f a
pure1 = pure
(<*:*>) :: f ( a -> b ) -> g a -> g b -- referred below as (1)
instance DApplicative Maybe [] where -- an "instance pair" of this class
(Just func) <*:*> g = fmap func g
main = do putStrLn(show x)
where x = Just (2*) <*:*> [1,2,3,4] -- it works, x equals [2,4,6,8]
```

Now, although the above works, I'm wondering if we can do better; is it possible to give a default implementation for <*:*> that can be applied to a variety of f & g pairs, in the declaration for DApplicative f g itself? And this leads me to the following question: Is there a way to pattern match on constructors across different data types?

I hope my questions make some sense and I'm not just spewing nonsense (if I am, please don't be too harsh; I'm just an FP beginner up way past his bedtime...)