I have a type
data Value = Int Integer | Float Double | Complex (Complex Double) | ... (other, non-numeric types)
with an associate error type
data ValueError = TypeMismatch Value | ... (other constructors) type ThrowsError = Either ValueError
and I want to implement generic binary operations over the type, with automatic coercion to the highest type in the heirarchy, and error signalling in case one of the operands isn't a numeric type, i.e. a function
binaryOp :: Num a => (a -> a -> a) -> Value -> Value -> ThrowsError Value
so that I could write, for example,
(binaryOp (+)) (Int 1) (Int 1) ==> Right (Int 2) (binaryOp (+)) (Int 1) (Float 1.0) ==> Right (Float 2.0) (binaryOp (+)) (Int 1) (String "1") ==> Left (TypeMismatch (String "1"))
Is there a simple way to do this? My first thought was to define something like
data NumType = IntType | FloatType | ComplexType
along with functions
typeOf :: Value -> NumType typeOf (Int _) = IntType ... promote :: Value -> Value promote (Int n) = Float (fromInteger n) promote (Float n) = Complex (n :+ 0)
but I'm having difficulty making it work. Any advice?
A bit more context. I'm writing a Scheme interpreter, and I want to implement the Scheme numeric tower.
In fact I want to achieve something slightly more complicated than what I explained, because I want something applicable to an arbitrary number of arguments, along the lines of
binaryOp :: Num a => (a -> a -> a) -> [Value] -> ThrowsError Value
which would be implemented with
foldl1, but I feel that if I can solve the simpler problem then I will be able to solve this more complicated one.