Apologies for laconic and mechanical answer. I don't like cherry-picking things like Applicative or Monad, but I don't know where you're at. This is not my usual approach to teaching Haskell.

First, `ap`

is really `(<*>)`

under the hood.

```
Prelude> import Control.Monad
Prelude> import Data.Maybe
Prelude> import Control.Applicative
Prelude> :t ap
ap :: Monad m => m (a -> b) -> m a -> m b
Prelude> :t (<*>)
(<*>) :: Applicative f => f (a -> b) -> f a -> f b
```

What does this mean? It means we don't need something as "strong" as Monad to describe what we're doing. Applicative suffices. Functor doesn't, though.

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

Here's `ap`

/`(<*>)`

with the Maybe Monad/Applicative:

```
Prelude> ap (Just (+1)) (Just 1)
Just 2
Prelude> (<*>) (Just (+1)) (Just 1)
Just 2
```

First thing to figure out is, which instance of the typeclass Applicative are we talking about?

```
Prelude> :t fromMaybe
fromMaybe :: a -> Maybe a -> a
```

Desugaring fromMaybe's type a bit gives us:

```
(->) a (Maybe a -> a)
```

So the type constructor we're concerned with here is `(->)`

. What does GHCi tell us about `(->)`

also known as function types?

```
Prelude> :info (->)
data (->) a b -- Defined in ‘GHC.Prim’
instance Monad ((->) r) -- Defined in ‘GHC.Base’
instance Functor ((->) r) -- Defined in ‘GHC.Base’
instance Applicative ((->) a) -- Defined in ‘GHC.Base’
```

Hrm. What about Maybe?

```
Prelude> :info Maybe
data Maybe a = Nothing | Just a -- Defined in ‘GHC.Base’
instance Monad Maybe -- Defined in ‘GHC.Base’
instance Functor Maybe -- Defined in ‘GHC.Base’
instance Applicative Maybe -- Defined in ‘GHC.Base’
```

What happened with the use of `(<*>)`

for Maybe was this:

```
Prelude> (+1) 1
2
Prelude> (+1) `fmap` Just 1
Just 2
Prelude> Just (+1) <*> Just 1
Just 2
Prelude> :t fmap
fmap :: Functor f => (a -> b) -> f a -> f b
Prelude> let mFmap = fmap :: (a -> b) -> Maybe a -> Maybe b
Prelude> (+1) `mFmap` Just 1
Just 2
Prelude> :t (<*>)
(<*>) :: Applicative f => f (a -> b) -> f a -> f b
Prelude> let mAp = (<*>) :: Maybe (a -> b) -> Maybe a -> Maybe b
Prelude> :t (+1)
(+1) :: Num a => a -> a
Prelude> :t Just (+1)
Just (+1) :: Num a => Maybe (a -> a)
Prelude> Just (+1) `mAp` Just 1
Just 2
```

Okay, what about the function type's Functor and Applicative? One of the tricky parts here is that `(->)`

has be to be partially applied *in the type* to be a Functor/Applicative/Monad. So your `f`

becomes `(->) a`

of the overall `(->) a b`

where `a`

is an argument type and `b`

is the result.

```
Prelude> (fmap (+1) (+2)) 0
3
Prelude> (fmap (+1) (+2)) 0
3
Prelude> :t fmap
fmap :: Functor f => (a -> b) -> f a -> f b
Prelude> let funcMap = fmap :: (a -> b) -> (c -> a) -> c -> b
Prelude> -- f ~ (->) c
Prelude> (funcMap (+1) (+2)) 0
3
Prelude> :t (<*>)
(<*>) :: Applicative f => f (a -> b) -> f a -> f b
Prelude> let funcAp = (<*>) :: (c -> a -> b) -> (c -> a) -> (c -> b)
Prelude> :t fromMaybe
fromMaybe :: a -> Maybe a -> a
Prelude> :t funcAp fromMaybe
funcAp fromMaybe :: (b -> Maybe b) -> b -> b
Prelude> :t const
const :: a -> b -> a
Prelude> :t funcAp const
funcAp const :: (b -> b1) -> b -> b
```

Not guaranteed to be useful. You can tell `funcAp const`

isn't interesting just from the type and knowing how parametricity works.

Edit: speaking of compose, the Functor for `(->) a`

is just `(.)`

. Applicative is that, but with an extra argument. Monad is the Applicative, but with arguments flipped.

Further whuttery: Applicative `<*>`

for `(->) a`

) is S and `pure`

is K of the SKI combinator calculus. (You can derive I from K and S. Actually you can derive any program from K and S.)

```
Prelude> :t pure
pure :: Applicative f => a -> f a
Prelude> :t const
const :: a -> b -> a
Prelude> :t const
const :: a -> b -> a
Prelude> let k = pure :: a -> b -> a
Prelude> k 1 2
1
Prelude> const 1 2
1
```

`ap fromMaybe`

is obfuscated code that hopefully no one would ever write in a real program. – Reid Barton Jan 6 '16 at 13:02