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I've posed the question in the literate haskell...makes it easier to evaluate It should be self explanatory.

I want GHC automatically derives instances of unspecified typeclasses, of a simple discrimited union over types (best look at the code).

The recipe for the instance inference seems self evident i.e

if all the types of the wrapped values in the union are instances of a typeclass, then trivially the union can be made an instance.

The difficulty is how to express this, without actually specifiy the specific type classes themself (or the associated function).

> {-# LANGUAGE MultiParamTypeClasses #-}
> {-# LANGUAGE ScopedTypeVariables #-}
> {-# LANGUAGE AllowAmbiguousTypes #-}
> {-# LANGUAGE FlexibleInstances #-}
> {-# LANGUAGE FlexibleContexts #-}
> {-# LANGUAGE FunctionalDependencies #-}
> {-# LANGUAGE ConstraintKinds #-}
> --{-# LANGUAGE UndecidableInstances #-}
> --{-# LANGUAGE MonoLocalBinds #-}

is it divisible by 1?

> class Div1 a b | a -> b where
>     div1 :: a -> b
>     

Is it divisible by 2?

> class Div2 a b | a -> b where
>     div2 :: a -> b

    Some natural numbers...

> data Zero = Zero deriving Show
> data One = One deriving Show
> data Two = Two deriving Show

and declare the obvious instances...
(this is an example...so we're not doing anything "clever")

> instance Div1 Zero Zero where
>   div1 x = x

> instance Div1 One One where
>   div1 x = x

> instance Div1 Two Two where
>   div1 x = x

> instance Div2 Two One where
>   div2 Two = One

> instance Div2 Zero Zero where
>   div2 Zero = Zero

create a union..lets just do Zero and One

> data SomeNumbers = Zero' Zero | One' One deriving Show
>   

...now we need something that knows how to wrap a number into the union

> class MkSomeNumber a where
>   mkNum :: a -> SomeNumbers

> instance MkSomeNumber Zero where
>   mkNum = Zero'

> instance MkSomeNumber One where
>   mkNum = One'


So SomeNumbers obviously can be made an instance of some type classes

if we do it manually

> instance Div1 SomeNumbers SomeNumbers where
>   div1 (Zero' x) = mkNum $ div1 x
>   div1 (One' x) = mkNum $ div1 x

....but mentally..

there is a general pattern here, at least in this very constrained case.

the recipe is you take the members of the union, and for each line apply the method to the wrapped value, 
and promote the answer into the union.

This would work for any type class

> -- instance ? SomeNumbers SomeNumbers where
> --  ? (Zero' x) = mkNum $ ? x
> --  ? (One' x) = mkNum $ ? x


is my OO brain obviscating some Haskell reality?

Can we do this in Haskell?..or is it pointless because...bla bla?

this question has been marked down...if someone can give me a clue why, that would help. Do people NOT like literate code.

Its allegedly not researched OR unclear OR unhelpful.

which as a complaint is a little unclear and unhelpful.

As for unresearched, I may be guilty...Haskell is far from my first language so its difficult to know where to look...I'm suspecting some sort of "you can't do this, but you can in template haskell"

  • Have you looked at how DerivingFunctor, DerivingFoldable, etc, work? There is very good discussion on the Haskell wiki for the chain of reasoning that can be applied to arbitrary data types in deriving instances automatically. – Bob Dalgleish Apr 16 at 14:30
  • interesting....I'll have to work through it to see if it applies...I notice though that it is still naming the type class...I'm talking about something that is generalised, if the typelass applies to each type in the union, then it must be able to be derived to the union..its just some predicate that is true in all cases. – Mr D Apr 16 at 16:15
  • in fact in some sense its just a type level match where each case has the same solution – Mr D Apr 16 at 16:18
  • What should the result be when you apply div2 (One' One)? I'm reasonably certain this makes it impossible to induce any such properties. – Bob Dalgleish Apr 16 at 16:35
  • the logic is (in this easy context), if all the types in the union are instances of a typeclass then the union can be made to be,..One isnt an instance of div2, so the union isn't, and the code doesnt compile (which is exactly the behaviour I'm after). – Mr D Apr 17 at 9:20

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