I was going through some Arrow tutorial, toying with functions returning a new version of themselves in an attempt to maintain some state.

The new type is defined like that:

```
newtype Circuit a b = Circuit {runCircuit :: a -> (b, Circuit a b)}
```

Because I want to be able to compose circuits I make it an instance of Category. When composing two circuits, the result must also be a circuit. `(Circuit b c) . (Circuit a b)`

gives a `Circuit a c`

.

I wrote this :

```
import qualified Control.Category as Cat
instance Cat.Category Circuit where
(Circuit g) . (Circuit f) = Circuit $ \a -> let
(b, new_f) = f a
(c, new_g) = g b
new_circ = new_g . new_f
in (c, new_circ)
```

but it fails:

```
Main.hs:70:64:
Couldn't match expected type `b0 -> c0'
with actual type `Circuit b c'
In the first argument of `(.)', namely `new_g'
In the expression: new_g . new_f
In an equation for `new_circ': new_circ = new_g . new_f
```

I looked up the answer in the tutorial and this answer was introducing an intermediate function like this, which compiles nicely:

```
(.) = dot where
(Circuit g) `dot` (Circuit f) = Circuit $ \a -> let
(b, new_f) = f a
(c, new_g) = g b
new_circ = new_g `dot` new_f
in (c, new_circ)
```

I fail to see the difference.