To tell you the truth, I usually just find it easier *not* to read the code in these simpler functions, but rather to read the *types* and then write the function myself. Think of it as a puzzle. You're trying to construct this:

```
mapFree :: Functor f => (a -> b) -> Free f a -> Free f b
```

So how do we do it? Well, let's take the `Pure`

constructor first:

```
mapFree f (Pure a) = ...
-- I like to write comments like these while using Haskell, then usually delete
-- them by the end:
--
-- f :: a -> b
-- a :: a
```

With the two type comments in there, and knowing the type of `Pure`

, you should see the solution right away:

```
mapFree f (Pure a) = Pure (f a)
```

Now the second case:

```
mapFree f (Free fa) = ...
-- f :: a -> b
-- fa :: Functor f => f (Free f a)
```

Well, since `f`

is a `Functor`

, we can actually use `mapFree`

to apply `mapFree f`

to the inner component of `f (Free f a)`

. So we get:

```
mapFree f (Free fa) = Free (fmap (mapFree f) fa)
```

Now, using this definition as the `Functor f => Functor (Free f)`

instance, we get:

```
instance Functor f => Functor (Free f) where
fmap f (Pure a) = Pure (f a)
fmap f (Free fa) = Free (fmap (fmap f) fa)
```

With a bit of work, you can verify that the definition we just arrived at here is the same thing as the one you're puzzling over. (As others have mentioned, `(<$>)`

(defined in `Control.Applicative`

) is just a synonym for `fmap`

.) You may still not understand it, but you managed to write it, which for types as abstract as these is very often good enough.

As for understanding it, though, the thing that helps me is the following: think of a `Free`

monad as a sort of list-like structure, with `Pure`

as `[]`

and `Free`

as `(:)`

. From the definition of the type you should see this: `Pure`

is the base case, and `Free`

is the recursive case. What the `fmap`

instance is doing is "pushing" the mapped function to the bottom of this structure, to where the `Pure`

lives.

`<$> == fmap`

, maybe that makes it more clear. This is more or less the only possible implementation. – Niklas B. Apr 13 '13 at 15:13`<$>`

be used both prefix and infix? – גלעד ברקן Apr 13 '13 at 19:11`(+1) <$> [1,2,3] == (<$>) (+1) [1,2,3] == fmap (+1) [1,2,3] == (+1) `fmap` [1,2,3]`

– Niklas B. Apr 13 '13 at 19:12