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i have this

data Something = Something Integer deriving (MyClass, Show)

class MyClass a where   
    hello :: MyClass a => a -> a

instance MyClass Integer where
    hello i = i + 1

main = print . hello $ Something 3

but MyClass isn't derivable. Why?

share|improve this question
have a look at the GHC users guide about deriving – Gabriel Riba Feb 7 '13 at 16:30
You don't need the MyClass a => part of the type signature for hello; it's implied by the fact that a is brought into scope via a class declaration of the form class MyClass a where .... – Antal Spector-Zabusky Feb 7 '13 at 16:33
up vote 12 down vote accepted

GHC cannot magically derive instances for arbitrary data types. However, it can make use of the fact that newtype declarations create a new name for the same underlying type to derive instances for those using the GeneralizedNewtypeDeriving extension. So, you could do something like this:

{-# LANGUAGE GeneralizedNewtypeDeriving #-}

newtype Something = Something Integer deriving (MyClass, Show)

class MyClass a where
    hello :: MyClass a => a -> a

instance MyClass Integer where
    hello i = i + 1

main = print . hello $ Something 3

The reason GHC cannot derive the new instance is that it does not know what the instance should be. Even if your data type only has one field, it may not necessarily be the same as that field. The ability to derive instances for newtypes is convenient, since they are usually used to provide different behaviours for certain typeclasses or as a way to use the type system to separate things that have the same type but different uses in your code.

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newtype deriving is convient but not safe with its current implementation. I say only use in early versions of your code. The new default/generic framework is more general and safe (but also clunkier), so use that instead when possible. – Philip JF Feb 7 '13 at 17:19
@PhilipJF That is good to know. – sabauma Feb 7 '13 at 17:29
@PhilipJF what is unsafe about the current implementation of newtype deriving? – Dan Burton Feb 7 '13 at 18:45
@DanBurton 1. it does not interact correctly with type equalities, see my blog… and lets you type unsafeCoerce 2. it breaks modules that rely on "single instance property" (I think we should give this up, but what ever) with just Haskell 98 since you can define class IntIso a where intIso :: f Int -> f a with instance Int and newtype X = X Int deriving IntIso which lets you coerce between Set Int and Set X but X might have a different ordering relation and so can break Data.Set . – Philip JF Feb 7 '13 at 18:54
All the evil examples of NewtypeDeriving involve somebody setting out to do evil. If you use it sanely, it won't be a problem. And it is getting fixed in newer GHC anyway. – sclv Feb 7 '13 at 21:51

You may want to have a look at the GHC documentation on Generic Programming.
You need to create a class that can work on a generic representation of arbitrary types. I don't think the specific example you gave is reasonable for a derivable class.

share|improve this answer
+1 Glad someone brought that up as a response to this question. Do you fancy exapanding into an example of one where it is reasonable? – AndrewC Feb 7 '13 at 17:05
@AndrewC unfortunately I don't understand it well enough to expand that far. If you do feel free to edit the question. – Andrew Myers Feb 7 '13 at 17:11
here is an example of a generic "Default" class (a type defaults to its first construct): (I'm learning generic programming myself, I don't know if this is the best way) – sam boosalis Oct 30 '14 at 4:25

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