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I have a record type like this one:

data VehicleState f = VehicleState
                        orientation :: f (Quaternion Double),
                        orientationRate :: f (Quaternion Double),
                        acceleration :: f (V3 (Acceleration Double)),
                        velocity :: f (V3 (Velocity Double)),
                        location :: f (Coordinate),
                        elapsedTime :: f (Time Double)
                    deriving (Show)

This is cool, because I can have a VehicleState Signal where I have all sorts of metadata, I can have a VehicleState (Wire s e m ()) where I have the netwire semantics of each signal, or I can have a VehicleState Identity where I have actual values observed at a certain time.

Is there a good way to map back and forth between VehicleState Identity and VehicleState', defined by mapping runIdentity over each field?

data VehicleState' = VehicleState'
                        orientation :: Quaternion Double,
                        orientationRate :: Quaternion Double,
                        acceleration :: V3 (Acceleration Double),
                        velocity :: V3 (Velocity Double),
                        location :: Coordinate,
                        elapsedTime :: Time Double
                    deriving (Show)

Obviously it's trivial to write one, but I actually have several types like this in my real application and I keep adding or removing fields, so it is tedious.

I am writing some Template Haskell that does it, just wondering if I am reinventing the wheel.

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You might be able to do this with GHC Generics, but I don't know if it'd be any simpler than TH. Since I have experience with TH, that'd be my choice as well. –  bheklilr Jul 23 at 23:01
What I would consider: don't use VehicleState' at all, and make a short alias for Identity and runIdentity. I know, not great. –  luqui Jul 23 at 23:21
Identity is a newtype, so cast :: VehicleState Identity -> VehicleState'; cast = unsafeCoerce is, in this case, actually safe. (obviously the same for the inverse) –  user2407038 Jul 24 at 3:12
I agree with @luqui's suggestion; I've used it and it works well. Just derive lenses to access each field of VehicleState, and then you can access the Identity-wrapped variants by composing wrapped or unwrapped with the lens. –  John L Jul 24 at 3:17
@JohnL, if you have time could you elaborate? I don't understand lenses yet. –  Doug McClean Jul 24 at 13:11

1 Answer 1

If you're not opposed to type families and don't need too much type inference, you can actually get away with using a single datatype:

import Data.Singletons.Prelude

data Record f = Record
  { x :: Apply f Int
  , y :: Apply f Bool
  , z :: Apply f String

type Record' = Record IdSym0

test1 :: Record (TyCon1 Maybe)
test1 = Record (Just 3) Nothing (Just "foo")

test2 :: Record'
test2 = Record 2 False "bar"

The Apply type family is defined in the singletons package. It can be applied to various type functions also defined in that package (and of course, you can define your own). The IdSym0 has the property that Apply IdSym0 x reduces to plain x. And TyCon1 has the property that Apply (TyCon1 f) x reduces to f x.

As demonstrated by test1 and test2, this allows both versions of your datatype. However, you need type annotations for most records now.

share|improve this answer
Very interesting, thanks! –  Doug McClean Jul 24 at 13:12

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