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I am trying to define a function that will concatenate two tuples of (Int, Char) like this:

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

However, I get the following error message:

Type constructor `Char' used as a class ...

What am I doing wrong?

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Consider wrapping the integer in 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
(classes) => (types), there should be only class before the '=>' –  Nybble Jun 23 '11 at 9:24
@dave4420 could you post your mappend suggestion as an answer, please? –  Waldheinz Jun 23 '11 at 11:40
Thanks all you guys for your help :) –  sakhunzai Jun 23 '11 at 12:32

2 Answers 2

up vote 8 down vote accepted

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

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Interesting that the error message calls Char a type constructor, which it is not... –  Tom Crockett Jun 23 '11 at 8:03
Char is a type constructor that takes no parameters. Please don't confuse type constructors (e.g. Maybe) with value constructors (e.g. Just or Maybe). –  dave4420 Jun 23 '11 at 8:50
@dave4420 - Ah, I wasn't confusing type constructors with value constructors, but I was under the impression that "type constructors" took at least one type argument. But I see from the Haskell 98 report that that's not necessarily so... I guess I was thinking of type functions. –  Tom Crockett Jun 23 '11 at 9:13
Thank you Landei, its working :) –  sakhunzai Jun 23 '11 at 12:21
Thanks for the monoid tip , I am just new to Haskell to consume that stuff :) Its just confusing that we can define (Integral a) but not (Char a) . I would love if some one point me to these basic ideas . Thanks again. +1 for dave4420 Char takes no parameters :) –  sakhunzai Jun 23 '11 at 12:54

Good points all around so far, but I think its worth pointing out that YOUR FUNCTION CODE IS OK! You did, however, mess up the type signature. Its not so much that it doesn't match your function, but that Char is a concrete type, not a typeclass like Integral, Ord, Show etc.

Others have shared the matching type signature, I want to help you get there. Often a good, (at least) first step is to let Haskell determine the type for you.

Prelude> let tupleCat (x1, y1) (x2, y2) =(x1+ x2, [y1] ++ [y2])
Prelude> :t tupleCat
tupleCat :: (Num t) => (t, t1) -> (t, t1) -> (t, [t1])

This is a little more general than you wanted, but replace Num with Integral and t1 with Char and your there.

PS - the Monoid idea above is a great idea and allows a lot of higher order uses. But don't be worried if it confuses you, it would've thrown me for a loop pretty badly just a few months back.

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jon_darkstar , Thanks this is also working . I don't have functional programming background and just try to mess around . Its really fascinating me that you guys answered me so quickly and perfectly . You made my day :) I just wanted to be rigid in function definition like conventional way –  sakhunzai Jun 23 '11 at 12:24
@sak - i think you kind of missed my point. i didnt do anything to make it work. try your original function definition without ANY (explicit) type signature. just tupleCat (x1, y1) (x2, y2) =(x1+ x2, [y1] ++ [y2]) and nothing more. it will work fine bc Haskell's typing system figures it out for you (although it comes out slightly differently than you seem to have intended) –  jon_darkstar Jun 24 '11 at 13:50

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