To achieve "sub"-types, one has a few options. The first is just to use more
data types, as you are attempting:
data Car a = Ford (Ford a) | Mercedes (Mercedes a) deriving (Show)
data Ford a = ModelT a | Falcon a deriving (Show) -- different Fords models
data Mercedes a = CClass a | SClass a deriving (Show) -- different Mercedes models
Note that being a type constructor is different to being a data constructor, so one can't just use
data Car = .. | Mercedes a: this is saying that one of the ways to make a
Car String is just by saying
Mercedes "a", it has no correlation with the type called
Mercedes. Now one can just use a function like:
horsepower :: Car a -> Float
horsepower (Ford (ModelT _)) = 1
horsepower (Ford (Falcon _)) = 500
horsepower (Mercedes (CClass _)) = 300
horsepower (Mercedes (SClass _)) = 400
And your example would be:
myfunc :: Show a => Car a -> String
myfunc a = show a ++ " works correctly"
-- myfunc (Ford (ModelT "A")) => Ford (ModelT "A") works correctly
-- myfunc (Mercedes (CClass "b")) => Mercedes (CClass "b") works correctly
Another way to allow "subtyping" like this is to use a type class (depending on the specifics, this might be a better option). E.g.
class (Show c) => Car c where
make :: String
model :: c -> String
horsepower :: c -> Float
number_of_seats :: c -> Int
data Ford a = ModelT a | Falcon a deriving (Show)
instance (Show a) => Car (Ford a) where
make = "Ford"
horsepower (ModelT _) = 1
horsepower (Falcon _) = 500
data Mercedes a = CClass a | SClass a deriving (Show)
instance (Show a) => Car (Mercedes a) where
make = "Mercedes"
horsepower (CClass _) = 300
horsepower (SClass _) = 400
Your example of
myfunc might be:
myfunc :: (Car c) => c -> String
myfunc c = (make `asTypeOf` c) ++ " " ++ show c ++ " works correctly"
-- myfunc (ModelT "A") => Ford ModelT "A" works correctly
-- myfunc (CClass "b") => Mercedes CClass "b" works correctly
Also note that one must call functions like
function (Ford (Ford "a")) (or
function (CClass "a")) with parenthesis.