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I'm new to Haskell and just playing around awhile.

I have written a lightweight OOP simulation:

 {-# LANGUAGE MultiParamTypeClasses, FlexibleInstances, UndecidableInstances, ScopedTypeVariables, FunctionalDependencies #-}

module OOP where 
class Provides obj iface where
    o #> meth = meth $ provide o

class Instance cls obj | obj -> cls where

class Implements cls iface where
    implement::(Instance cls obj)=>cls->obj->iface

instance (Instance cls obj, Implements cls iface)=>Provides obj iface where
    provide x = implement (classOf x::cls) x

using it like:

 {-# LANGUAGE MultiParamTypeClasses #-}

import OOP
data I1 = I1
getI1 i1 = "Interface 1"

data I2 = I2
getI2 i2 = "Interface 2"

data C = C

instance Implements C I1 where
    implement C o = I1

instance Implements C I2 where
    implement C o = I2

data O = O
instance Instance C O where
    classOf o = C

main = do
    putStrLn (O #> getI1)
    putStrLn (O #> getI2)

I read that UndecidableInstances feature is pretty inconvenient and can lead to stack overflows in the compiler. So I have two questions.

  1. Could this code be improved, preserving ease of use and 1 to N relations between instance and class data types as well as between interface and class?
  2. Could be the similar logic implemented with Single Param Type Classes?
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It can't be repeated often enough that writing OO in Haskell is a bad idea, especially for beginners... but I think you know that already. The way you approach it actually looks quite interesting. — There's in fact not much bad about UndecidableInstances; anything bad that could happen will happen during compilation, so it's pretty safe. –  leftaroundabout Jan 19 '14 at 13:15
@leftaroundabout I'm not intend this for practical use, although i'm under impression of this article. Main idea is to understand haskell approaches to define proper type architecture and OOP is just domain i'm familiar with. –  Odomontois Jan 19 '14 at 14:01
Typically the domain being modeled won't be done using type classes. MPTCs without fundeps have bad inference properties. Instead of making your types simple and storing information in the typeclasses, it's usually more common place to make that stuff explicit and represent it in the types as records. The compiler makes that transformation for you anyway (that's how TCs are implemented) but you won't have inference woes. –  J. Abrahamson Jan 19 '14 at 15:33
The article you link to, Gabriel Gonzalez' Comonads are Objects is a good article about comonads, but you seem to have diverged significantly from that, and you should be aware that comonads are not Java in a Haskell box. –  enough rep to comment Jan 19 '14 at 16:56
@Odomontois OK, if I now understand you correctly, there are two approaches you might benefit from. One is Type Families, where you can program with types in a much more functional way. I find that a significant proportion of the time, {-# LANGUAGE MultiParamTypeClasses, FunctionalDependencies #-} with class MPFD a b | a -> b is better off as {-# LANGUAGE TypeFamilies #-} with class TF a where B a :: *. At the moment you're implementing a OO paradigm using a FP language and Logic Programming at the type level. Type Families removes one paradigm, and uses functions at the type level. –  enough rep to comment Jan 19 '14 at 17:17

1 Answer 1

up vote 0 down vote accepted

Your use of undecidable instances in this case is fine.

instance (Instance cls obj, Implements cls iface)=>Provides obj iface where

is undecidable because you might have an instance for Instance or Implements that in turn relies on Provides causing a loop.

However, in this case, you don't need the Provides class at all, because you only give an implementation of it in terms of methods from your other two classes!

You could instead pull provides and #> out to be top level functions with the appropriate Instance and Implements constraints and you would lose nothing, and avoid the need for the undecidable instance.

You do need/want MPTCs for this however, and that's fine...

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