The second part of your case statement shouldn't try to retest because you already know it's not an `Error`

- that would have matched the first. (Skip `/= Error err`

.)

`eval e1 = v1`

tries to redo the eval you did at the start. You don't need to do that.

Here's what I think you intended to do:

```
eval :: Exp -> Error Val
eval (App e1 e2) = case eval e1 of
Error _ -> Error "Not an application"
S v1 -> case eval e2 of -- nested case statement
Error _ -> Error "Not an application"
S v2 -> appVals v1 v2 -- match the S away
```

But it all seems a bit ugly, so let's take exellent advice from Gabriel Gonzalez and make an applicative out of `Error`

.

```
instance Functor Error where
fmap f (Error e) = Error e -- pass through errors
fmap f (S x) = S (f x) -- edit successes
```

So for example, `fmap (+4) (Error "oops") = Error "oops"`

whereas `fmap (+4) (S 5) = S 9`

.

If this `fmap`

is all new to you, why not read a Functors tutorial?

Next let's make an Applicative instance. Applicative lets you use complicated functions like simple ones.
You need to `import Control.Applicative`

at the top of your file to get it working.

```
instance Applicative Error where
pure x = S x -- how to put ordinary data in
S f <*> S x = S (f x)
Error e <*> _ = Error e
_ <*> Error e = Error e
```

Now, if there weren't any errors then you'd define

```
appVal' :: Val -> Val -> Val
eval' :: Exp -> Val
eval' (App e1 e2) = appVal' (eval' e1) (eval' e2)
```

With applicative, we can use `<$>`

which works a bit like `$`

except it does whatever plumbing you defined in `fmap`

.
Similarly, `<*>`

works a bit like

function application, except for the extra plumbing, so we can define

```
eval :: Exp -> Error Val
eval (App e1 e2) = appVals <$> eval e1 <*> eval e2
```

which is a nice clean way of dealing with the errors behind the scenes whilst focussing on the functionality.