I'd like to read some data which itself specifies the data type to use.
For example, let's assume there may be user inputs like these:
integer pair 1 2 integer triple 1 2 3 real pair 1 2 real triple 1 2 3
and there is a data type to represent it:
data (MValue a) => T a = TP (Pair a) | TT (Triple a) deriving (Show, Eq) data Pair a = Pair a a deriving (Show, Eq) data Triple a = Triple a a a deriving (Show, Eq)
where the allowed value types have to belong to
class (Num a, Read a) => MValue a where typename :: a -> String readval :: [String] -> Maybe a instance MValue Int where typename _ = "integer" readval [s] = maybeRead s readval _ = Nothing instance MValue Double where typename _ = "real" readval [s] = maybeRead s readval _ = Nothing maybeRead s = case reads s of [(x,_)] -> Just x _ -> Nothing
I can easily write readers for
readPair (w1:w2:) = Pair <$> maybeRead w1 <*> maybeRead w2 readTriple (w1:w2:w3:) = Triple <$> maybeRead w1 <*> maybeRead w2 <*> maybeRead w3
The problem is how do I write a polymorphic reader for the entire
T a type?:
readT :: (MValue a, Read a) => String -> Maybe (T a)
- The type
ais chosen by the caller.
Nothingif the user's input is incompatible with
Just (T a)if the input is valid.
- Numbers should be read as integers or as doubles depending on the input.
A naive implementation
readT :: (MValue a, Read a) => String -> Maybe (T a) readT s = case words s of (tp:frm:rest) -> if tp /= typename (undefined :: a) then Nothing else case frm of "pair" -> TP <$> readPair rest "triple" -> TT <$> readTriple rest _ -> Nothing _ -> Nothing
gives an error in the line
if tp /= typename (undefined :: a):
rd.hs:45:17: Ambiguous type variable `a' in the constraint: `MValue a' arising from a use of `typename' at rd.hs:45:17-41 Probable fix: add a type signature that fixes these type variable(s) Failed, modules loaded: none.
The error goes away if I remove this check, but how can I verify if the user input is compatible with the data type chosen by the caller? A solution might be to have separate
readTDouble, but I'd like the same
readT to work polymorphically the same way as