You need to add constructor names for each alternative:

```
data NumPair = Pair (Int, Int) | More (Int, NumPair) deriving (Eq, Show)
```

Those constructor names are what let you pattern match on the data type like so:

```
f :: NumPair -> A
f (Pair (x, y )) = ...
f (More (x, np)) = ...
```

You can then build a value using the constructors to (which is why they are called constructors):

```
myNumPair :: NumPair
myNumPair = More (1, More (2, Pair (3, 4)))
```

There are two other ways you can improve your type. Haskell constructors have built-in support for multiple fields, so rather than using a tuple you can just list the values directly in the constructor like this:

```
data NumPair = Pair Int Int | More Int NumPair deriving (Eq, Show)
```

Another way you can improve upon it is to recognize that you've just written the type for a non-empty list. The best implementation for non-empty lists resides in `Data.List.NonEmpty`

of the `semigroups`

package, which you can find here.

Then your type just becomes:

```
type NumPair = NonEmpty Int
```

... and you get a bunch of function on non-empty lists for free from that module.

**Edit**: n.m. brought to my attention that what you probably wanted was:

```
data NumPair = Pair (Int, Int) | More ((Int, Int), NumPair)
```

... which is equivalent to:

```
type NumPair = NonEmpty (Int, Int)
```

The difference is that this latter one lets you append pairs of integers, where as the previous one that followed your question's type only lets you append integers.