`Char`

is no type class, it is a type:

```
tupleCat :: (Integral a) => (a, Char) -> (a, Char) -> (a, [Char])
tupleCat (x1, y1) (x2, y2) =(x1 + x2, [y1] ++ [y2])
```

And if you really want `Int`

s and not an `Integral`

, they are types, too:

```
tupleCat :: (Int, Char) -> (Int, Char) -> (Int, [Char])
tupleCat (x1, y1) (x2, y2) =(x1+ x2, [y1] ++ [y2])
```

Further, you might consider to make this a new type and to implement the Monoid type class (as suggested in the comments). One possibility would be

```
newtype Cat = Cat (Int, String)
instance Monoid Cat where
mempty = Cat (0, [])
mappend (Cat (i1,s1)) (Cat (i2,s2)) = Cat (i1 + i2, s1 ++ s2)
```

With this definition `tupleCat`

becomes simply `mappend`

. Then you can e.g. concatenate the `Cat`

s in every `Foldable`

(e.g. a list). Of course I don't know your intentions, so this is just a educated guess.

`Sum`

and then using the monoid functions --- see the Data.Monoid package. Your`tupleCat`

would then be`mappend`

. – dave4420 Jun 23 '11 at 8:55`mappend`

suggestion as an answer, please? – Waldheinz Jun 23 '11 at 11:40