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The class TypeCast dates back to 2004, and is therefore fairly 'old' Haskell (even if still quite brilliant). My question is: if re-implemented today in state-of-the-art GHC [preferably 7.6, but go ahead, use HEAD if that makes things even better], what would it look like?

If I understand some of the more recent extensions, it may well be that the proper answer is: it is not even needed anymore, just use X. Knowing the value of X would be nice ;)

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Could you provide a simple example where you think it would be useful? – DiegoNolan Oct 29 '13 at 15:38
You mean this class? – leftaroundabout Oct 29 '13 at 15:49
I'm not too familiar with TypeCast; does Dynamic sit in the same niche? – Daniel Wagner Oct 29 '13 at 15:52
Yes, @leftaroundabout I mean exactly that class. – Jacques Carette Oct 29 '13 at 16:56
No, @DanielWagner, Dynamic does not sit in the same niche. – Jacques Carette Oct 29 '13 at 16:56

I'm not familiar with all usages of TypeCast, but in what I've been doing recently you can replace it with a type equality assertion (~) that you get from the TypeFamilies extension. I first saw this in Oleg's stuff here:

 class  TypeEq x y b | x y -> b
 instance               TypeEq x x HTrue
 instance b ~ HFalse => TypeEq x y b

Oleg explains how this voodoo works better than I:

If the type checker can see that two types t1 and t2 are the same so that the first TypeEq instance can be chosen, the constraint TypeEq t1 t2 b simplifies to b ~ HTrue. Otherwise the third argument of TypeEq is unified with HFalse. The word otherwise' betrays the complementation,the default case', which is at the core of overlapping instances. We see the first intimations of the usefulness of overlapping instances and of their relation with type equalities.

This is also mentioned on the "advanced overlap" wiki page in the following snippet:

-- instance TypeCast flag HFalse => ShowPred a flag -- before -XTypeFamilies
instance (flag ~ HFalse) => ShowPred a flag
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While interesting, your answer is not really to my question: TypeCast has a method, which allows one to 'cast' a value. TypeEq merely witnesses type-level convertibility. Sure, it is related, but it only one part of the question. – Jacques Carette Oct 29 '13 at 23:25
The problem is I don't understand in what situations the typeCast method is useful or necessary and don't care to hunt one down; if you can provide a usage example I can try to define a new TypeCast using ~. My post was not about TypeEq per se, that was simply a demonstration of the technique that can replace TypeCast, and you can see both techniques side-by-side in the last code block. – jberryman Oct 30 '13 at 2:01
You can write f :: (a ~ Int) => a; f = (5 :: Int). The old method requires you to repeat the cast at the value-level: g :: (TypeCast a Int) => a; g = typeCast (5 :: Int) – aavogt Oct 31 '13 at 1:01

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