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I recently generalized a type class away from a constraint MonadError GenError m to a more flexible constraint of MonadError e m, CanContainGenError e. This is useful for using the relevant monad transformer with a stack that already has an ErrorT SomeError m - I can just add GenError as an element of a new constructor in the SomeError data type.

I found myself surprised to be writing a custom CanContainGenError class hard-coded to GenError. Isn't there a common ContainedType class or some such? (I almost called it "subtype", heh)

Anything like the below CanContainType or ContainsType classes I just made up?

class CanContainType cont orig where
    toCont   :: orig -> cont
    fromCont :: cont -> Maybe orig

class ContainsType orig sub where
    toContainer :: orig -> cont
    fromContainer :: cont -> orig

Where an example instantiation is:

-- edit fixed example instance to reflect what I want, sorry for the misleading code
data IntOrFloatOrDouble= I Int | F Float | D Double
instance CanContainType IntOrFloatOrDouble Int where
    toCont   = I
    fromCont (I a) = Just a
    fromCont _ = Nothing

Now that I've typed this out I'm realizing there probably isn't an established one because my requirements mandate MPTCs. Still, I'm interested in any thoughts.

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Your toCont for IntAndStuff doesn't work. Which also point to why your toCont and toContainer functions are a bit poorly typed, I think. If you inject a value into a container, you need default values for all the other bits. Generally, I think this solution is a bit too inbetween and weak, so folks who want/need this frequently step up to HList based solutions. –  sclv Apr 13 '11 at 16:33
@sclv Right ,that instance was poorly thought out. In my real code I have data SomeError = PreExistinErr1 | PreExistinErr2 | IsGenError GenError and in the instance it's just toCont = IsGenError. This is why I don't need default bits. See my edit. –  Thomas M. DuBuisson Apr 13 '11 at 17:05

1 Answer 1

up vote 1 down vote accepted

Sometimes things like this come up in EDSL construction, for lifting instances from Haskell to the EDSL. See e.g. http://www.galois.com/~dons/tmp/Type.hs

data IntegralType a where
  TypeInt     :: IntegralDict Int     -> IntegralType Int
  TypeInt8    :: IntegralDict Int8    -> IntegralType Int8
  TypeInt16   :: IntegralDict Int16   -> IntegralType Int16
  TypeInt32   :: IntegralDict Int32   -> IntegralType Int32
  TypeInt64   :: IntegralDict Int64   -> IntegralType Int64

There's nothing standard, obviously.

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