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I am looking for some refactoring / Best practice advice on the following code. I would like to try to avoid the extensions while maintaining separate modules for different "versions" that are mutually exclusive. My current solution is to use a class and use existential quantification to create a common type for each of the CountrySets.

This is an easy thing for me to accomplish if I was using OOP, but I can't seam to think "functional" yet.

Thanks for your time.

Province.hs

{-# LANGUAGE ExistentialQuantification, RankNTypes  #-}
module Province where

  class Country a where
    --some stuff that is not important

  data Power = 
    forall a. (Show a, Eq a, Country a) => Power a |
    Netural |
    Water

  data Unit = Unit {
    power  :: forall a. (Show a, Eq a, Country a) => a, 
    piece :: Piece

  data Piece = Tank | Plane

  data Province = Province {
    power  :: Power,
    provName :: String
  } deriving (Eq)

  instance Show Power where
    show (Power b) = "Power " ++ show b
    show (Netural) = "Netural"
    show (Water) = "Water"

  instance Eq Power where
    (==) a b = Prelude.show a == Prelude.show b

Version1.hs

import Province

  data CountrySet1 =
    Country11 |
      Country12 
    deriving (Eq, Show)
  instance Country CountrySet1 where

  provs = 
    one1:one2:[]

  one1 = Province (Power Country11) "Place11"
  one2 = Province (Power Country12) "Place12" 

Version2.hs

import Province

  data CountrySet2 =
    Country21 |
    Country22 
      deriving (Eq, Show)
  instance Country CountrySet2 where

  provs = 
    two1:two2:[]

  two1 = Province (Power Country11) "Place21"
  two2 = Province (Power Country12) "Place22" 
share|improve this question
3  
I think this is a good candidate for the Code Review site. However, I don't use it myself so I'm not 100% certain it fits their criteria. –  Tikhon Jelvis Aug 6 '12 at 21:30
1  
I'll post it there and see what I get. –  Ra is dead Aug 6 '12 at 21:38

1 Answer 1

up vote 7 down vote accepted

You don't have to put class constraints in the data types. You can instead parametrize your data type on the a variable so that you can place the constraints on the type-class instances themselves, like so:

-- Note that I added a type variable to "Power"
data Power a = Power a | Neutral | Water

instance (Show a) => Show (Power a) where ...

instance (Eq a) => Eq (Power a) where ...

... or you could do what most people do and use deriving:

data Power a = Power a | Neutral | Water deriving (Eq, Show)

This generates the exact same instances you wrote (except the Eq one will be much more efficient than what you wrote). No extensions required!

Then if you want a to be a specific type, you just say so!

-- Version1.hs
myValue1 :: Power CountrySet1
myValue1 = ...


-- Version2.hs
myValue2 :: Power CountrySet2
myValue2 = ...

These are then completely compatible and both implementations can coexist alongside each other.

share|improve this answer
3  
Also see this post by Luke Palmer. –  Ptharien's Flame Aug 6 '12 at 23:15
1  
@Ptharien'sFlame Wow, that is really well written. I'm bookmarking that for teaching. –  Gabriel Gonzalez Aug 6 '12 at 23:37
1  
How to I adjust data Province { power :: Power, ... accordingly? (line 19, sorry I don't know how to display line numbers) –  Ra is dead Aug 7 '12 at 0:29
1  
@Raisdead data Province a = Province { power :: Power a, ... } –  Gabriel Gonzalez Aug 7 '12 at 0:36
1  
Of course! I guess I havn't made the connection yet that anything that starts with data construct is the same thing. Thanks a bunch! –  Ra is dead Aug 7 '12 at 0:40

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