I have a type that has a mappend-like function but not a real mappend, so it is not a Semigroup. For instance:

data MyType = MyType Int deriving Show

myMerge :: MyType -> MyType -> Maybe MyType
myMerge (MyType x) (MyType y)
  | (x < 0) || (y < 0) = Nothing
  | otherwise          = Just $ MyType $ x + y

I always deal with MyType when it is wrapped in Maybe. I need semantics that would be perfectly represented if I could define a Semigroup instance on the "combined" type Maybe MyType like this:

instance Semigroup (Maybe MyType) where
  (Just x) <> (Just y) = myMerge x y
  Nothing  <> Nothing  = Nothing
  Nothing  <> (Just _) = Nothing
  (Just _) <> Nothing  = Nothing

I.e. when both parameters are Just's, I can get either a Just or Nothing, otherwise I always get Nothing. But this is not possible, I get an error:

All instance types must be of the form (T a1 ... an)

How can I represent the semantics that I need?

  • 2
    Your definition of myMerge surely won't compile - the arguments should be MyType x and MyType y? – Robin Zigmond Aug 29 at 23:14
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    The error should point to some Haskell extensions that should be enabled for the instance to work. Modern Haskell heavily uses many GHC extensions. – chi Aug 29 at 23:40
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    It's unclear what you are actually trying to achieve. Do you just want a type which represents strictly positive integers? The idiomatic way to do this is to define an abstract type with a function toMyType :: Int -> Maybe MyType which returns Nothing iff the argument is less than 0. Otherwise, I would suggest not trying to fit your type into an interface it doesn't support - it would be idiomatic to define this simply as a free function. (Finally note your <> definition is simply liftA2 myMerge - it might be easier to just write that inline where needed) – user2407038 Aug 29 at 23:41
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    @user2407038 I don't think this is liftA2 myMerge. That would require myMerge to have the signature MyType -> MyType -> MyType. But myMerge can choose to return a Nothing even when given two Justs, which is quite a different kettle of fish. – amalloy Aug 30 at 0:02
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    If you always deal with MyType when it is wrapped in Maybe, maybe Maybe may be better as part of MyType? – luqui Aug 30 at 2:31

The instance you defined is illegal because it is basically trying to define a different (partial) Semigroup instance for Maybe, but Maybe already has one. Instead, use a newtype wrapper:

newtype MaybeMyType = MaybeMyType (Maybe MyType)

instance Semigroup MaybeMyType where

You will have to interact with your type through this MaybeMyType wrapper in the cases where you want to use its Semigroup instance.

  • I had a feeling that a type wrapper would do the job, though it looks clunky. But your explanation about me trying to define a second instance for the same type makes sense. – crosser Aug 30 at 7:07
  • It's really a simplification: even if Maybe had no Semigroup instance this would be illegal, because you can't define instances for some specializations of a parameterized type but not others. Also I agree with luqui's comment to just include the maybe-ness in your type, if you always work with it that way. Define it as a newtype wrapper over Maybe Int, or make your own equivalent data definition. – amalloy Aug 30 at 14:03

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