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I'm trying to define a pair of class instances inductively. That is:

class Foo a b | a -> b where
  foo :: a -> b

instance (not?)Foo a => Bar a b
  foo x = ...

instance Foo a => Bar a b
  foo x = ...

The first instances determines the base action, and the seconds recursively calls foo. Is there any way to do this? A good example would be flattening a list, where in the first case it's the identity function and in the second it's a recursive application of concat.

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Note that in Haskell, it is impossible to be sure that a given type is not an instance of a given type class, because someone else could compile your code with some of their own code that provides the instance. – Dan Burton Mar 4 '12 at 1:41
up vote 5 down vote accepted

Here is an implementation of a flatten function that works with any level of nested list. I wouldn't really recommend using it though - here just for demonstration of how to achieve something like this in haskell.

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Using IncoherentInstances is an invitation to trouble. – augustss Mar 4 '12 at 2:08
@augustss, very true, hence the disclamer I put at the top. I don't think it is possible to implement flatten without IncoherentInstances though (which is probably a very good indication that designing a program that relies on this function is a bad idea). – David Miani Mar 4 '12 at 5:02
@is7s: The solution there can't derive the type of the flattened list (so you have to specify it as flatten [[3],[4]] :: [Int]. For that t work, you need the three extensions you gave. It's likely a worthwhile tradeoff though. – David Miani Mar 4 '12 at 6:34
The above solution does not work for me with ghc 7.4.1. The above solution is also missing 2 extensions at least. – is7s Mar 4 '12 at 15:25
I'm curios to know more about why it's not supported in ghc 7.4.1. It's also not supported in ghc 7.2.1. Which change to these versions stopped the support for this declaration? I'll try to find more about it. – is7s Mar 5 '12 at 14:26

There's no way to do this directly, for a very simple reason--instance selection only looks at the "head", i.e., the part after the =>. Nothing you put in the context--the part before the =>--can influence which instance is selected.

For simple cases, you can often avoid the issue entirely, such as if there's a limited number of "base case" types. A common example there would be type-level lists, where you'd have a recursive case for Cons and a base case of Nil and that's it.

In the general case, you'll typically need some sort of "conditional test" type class that picks a type based on whether some condition is fulfilled, then hand off the actual implementation to a "helper" class which takes the conditional's result value as a parameter and uses that to select an instance.

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How would you implement a generic list flatten class member then? – Jonathan Mar 3 '12 at 23:59
Well, the most honest answer is that I wouldn't. There's no way to do that without it breaking on polymorphic inputs and it's not useful enough to justify the hassle, in my opinion. That said, for flattening lists I think you could just rely on overlapping instances to choose between the recursive vs. base case. Are you using OverlappingInstances here? You'll probably need it one way or another. – C. A. McCann Mar 4 '12 at 0:02
Why would you want a generic list flattening function? It's rarely useful. – augustss Mar 4 '12 at 2:09

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