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Consider the following definitions:

class Foo a where
    foo :: a -> Int

class Bar a where
    bar :: a -> [Int]

Now, how do I say "every Foo is also a Bar, with bar defined by default as bar x = [foo x]" in Haskell?

(Whatever I try, the compiler gives me "Illegal instance declaration" or "Constraint is no smaller than the instance head")

Btw, I can define my Foo and Bar classes in some other way, if this would help.

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This is related to (duplicate of?)… – John L Dec 17 '10 at 17:13

3 Answers 3

up vote 4 down vote accepted

As the automatic definition of a Bar instance through a Foo instance can lead to undecidable cases for the compiler - i.e. one explicit instance and one through Foo conflicting with each other - , we need some special options to allow the desired behaviour. The rest through is quite straigtforward.

{-# LANGUAGE FlexibleInstances, UndecidableInstances #-}

class Foo a where
    foo :: a -> Int

class Bar a where
    bar :: a -> [Int]

instance (Foo a) => Bar a where
    bar x = [foo x]
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If you plan to have any more instances of Bar (and doing this is pointless without), then you need OverlappingInstances too. This causes type inference to have weird results sometimes (always use signatures when talking about these classes), and is generally a sign that you are doing something wrong. – luqui Dec 17 '10 at 12:16
And never publish a module with such an instance in it. It is rude (it causes wicked modularity problems). Always prefer max taldykin's solution if you plan on sharing. – luqui Dec 17 '10 at 12:21
Really, you just shouldn't do this. Even if you don't publish it, you'll most likely have other subtle problems. – John L Dec 17 '10 at 17:18

Generally speaking you don't model things with type classes this way[*] - i.e. an instance of a type class should always be some concrete type, though that type itself can be parameteric - e.g. the Show instance for pair has this signature:

instance (Show a, Show b) => Show (a,b) where

Some of the approaches to "Generics" allow you to model a general base case and then have type specific exceptional cases. SYB3 allowed this - perhaps unfortunately SYB3 isn't the common practice Generics library it is Data.Data / Data.Generics which I think is SYB1.

[*] In the wild the story is a little more complicated - as Dario says UndecidableInstances can enable it.

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class Foo a where
    foo :: a -> Int

-- 'a' belongs to 'Bar' only if it belongs to 'Foo' also
class Foo a => Bar a where
    bar :: a -> [Int]
    bar x = [foo x] -- yes, you can specify default implementation

instance Foo Char where
    foo _ = 0

-- instance with default 'bar' implementation
instance Bar Char
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yep, Dario's answer is more to the point – max taldykin Dec 17 '10 at 12:16
This is much friendlier in terms of modularity than the instance Foo a => Bar a solution. – luqui Dec 17 '10 at 12:18
But shouldn't author's requirement of "every Foo is also a Bar" be expressed with 'class Bar a => Foo a where' not vice versa like here? – Ed'ka Dec 17 '10 at 12:25
@Ed'ka, you right, bar x = [foo x] lead me to delusion – max taldykin Dec 17 '10 at 12:37
But it looks to me that m01 actually meant 'class Foo a => Bar' a where' or otherwise it doesn't make sense to define bar via foo – Ed'ka Dec 17 '10 at 12:54

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