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Could you please tell me are there any extensions of Haskell deriving mechanism for Enum class? I mean there are a lot of reasonable situations besides ``nullary constructors'' case. Are there any works on this topic?

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up vote 4 down vote accepted

Do you really need GADTs? Or do you merely want to lift the restriction to a plain enumeration type with only nullary constructors? If the latter, then there are options. One is to use GHC's Generic mechanism together with an implementation of a suitably generic enumeration class. This is available in the generic-deriving package. Here is an example:

{-# LANGUAGE DeriveGeneric #-}
import Generics.Deriving

data Tree a = Leaf a | Node (Tree a) (Tree a)
  deriving (Show, Generic)

instance GEnum Bool
instance GEnum a => GEnum (Tree a)

test :: [Tree Bool]
test = take 10 genum

Now, test is the following list:

[ Leaf False
, Node (Leaf False) (Leaf False)
, Leaf True
, Node (Leaf False) (Node (Leaf False) (Leaf False))
, Node (Node (Leaf False) (Leaf False)) (Leaf False)
, Node (Leaf False) (Leaf True)
, Node (Node (Leaf False) (Leaf False)) (Node (Leaf False) (Leaf False))
, Node (Leaf True) (Leaf False),Node (Leaf False) (Node (Leaf False) (Node (Leaf False) (Leaf False)))
, Node (Node (Leaf False) (Leaf False)) (Leaf True)

This implementation of genum uses diagonalization to merge products. This guarantees that every value actually appears somewhere in the list, but may lead to a surprising order in turn.

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Oh, that's what I was thinking of. Thank you. – Katty J. Apr 25 '13 at 14:08

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