While studying `Applicative`

deeper, I came to `Traversable`

. Although I already knew `Foldable`

from LYHGG, I haven't seen the former yet, so I started reading the Haskell wiki about Traversable.

While reading it, I understood why `Foldable.fold`

is parallel to `Traversable.sequenceA`

and `Foldable.foldMap`

is parallel to `Traversable.traverse`

.

I've seen also that every `Traversable`

is also a `Foldable`

and a `Functor`

, and `sequenceA`

and `traversal`

have a default implementation in terms of each other:

```
traverse f = sequenceA . fmap f
sequenceA = traverse id
```

So, as I have seen in LYHGG that `foldMap`

is a minimal complete definition for `Foldable`

, I thought that, it is parallel to `traverse`

, so `fold`

(which is parallel to `sequenceA`

) would be a minimal complete definition too (which it isn't)... `Foldable`

is not a `Functor`

like `Traversable`

is, so we cannot apply this:

```
foldMap f = fold . fmap f
fold = foldMap id -- this is ok
```

Why isn't every `Foldable`

a `Functor`

, and what would be an instance of `Foldable`

that actually isn't a `Functor`

?

`Set`

is a classic example of a`Foldable`

that's not a`Functor`

. So are unboxed vectors.`Set`

to understand why it isn't a`Functor`

, but, Sets can be thought as containers of things that don't repeat... That being said, I cannot figure out quickly why it is not a`Functor`

instance...`Functor`

doesn't give implementations the opportunity to constrain their type arguments. Imagine if someone wrote`fmap f s`

where`f :: Int -> Integer -> Integer`

. The type`Integer -> Integer`

is not even an instance of`Eq`

, let alone`Ord`

, so there's no way to check for duplicates when mapping. The function could map multiple elements to identical functions, and you'd have no way of collapsing the duplicates.`xs :: U.Vector Int`

,`fmap Just xs`

would have to produce something of type`U.Vector (Maybe Int)`

, which isn't a real thing.`Traversable`

class was conceived first (e.g., McBride and Patterson, "Applicative Programming with Effects"; Gibbons and Oliveira, "The Essence of the Iterator Pattern").`Foldable`

was added as a superclass because of the "containers that aren't`Functor`

s" problem. But`foldMap`

falls out of`traverse`

-ing with the`Const`

applicative, as shown in Gibbons and Oliveira's paper.