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I have some datatype Verb p defined as such:

data Verb p =   Look          {getPreps :: p}
              | LookExtra     {getPreps :: p}
              | Touch         {getPreps :: p}
              | Smell         {getPreps :: p}
              | HearExtra     {getPreps :: p}
              | Hear          {getPreps :: p}
              | Taste         {getPreps :: p}
              | Pickup        {getPreps :: p}
              | PickupExtra   {getPreps :: p}
              | Move          {getPreps :: p}
              | MoveExtra     {getPreps :: p}
              deriving (Show,Ord,Eq)

I must make this datatype an instance of Functor at the very least. Hence:

instance Functor Verb where
  fmap f (Look a)        = Look (f a)
  fmap f (LookExtra a)   = LookExtra (f a)
  fmap f (Touch a)       = Touch (f a)
  fmap f (Smell a)       = Smell (f a)
  fmap f (HearExtra a)   = HearExtra (f a)
  fmap f (Hear a)        = Hear (f a)
  fmap f (Taste a)       = Taste (f a)
  fmap f (Pickup a)      = Pickup (f a)
  fmap f (PickupExtra a) = PickupExtra (f a)
  fmap f (Move a)        = Move (f a)
  fmap f (MoveExtra a)   = MoveExtra (f a)

If that isn't boilerplate, then I don't know what is. I can imagine this becoming a real pain if I have to progress to Applicative Functors and so on. Is there a better way to write this without changing the structure of Verb p altogether? Due to the way I have written Verb p, It seems like I am doomed to declare an instance for each datatype constructor. Hopefully I can be proven wrong.

1 Answer 1

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Check out the DeriveFunctor extension. As the name hints, it allows you to simply add Functor to the deriving list. Unfortunately, this doesn't extend to Applicative and Monad because, unlike Functor, those generally don't have one way to define the instance, but multiple nonequivalent possibilities.

In your example, I'd simplify the data definition:

data VerbType = Look | LookExtra | ...
type Verb a = (VerbType, a)
-- or data Verb a = Verb { verbType :: VerbType, getPreps :: a }
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    DerivingFunctor is very useful, but for this case, you already have a functor instance (namely ((,) a)) if you define the data type as suggested. Jan 4, 2014 at 1:08
  • 1
    This is a very useful extension; I did not know about this. However, I think your second bit of advice (doing some light restructuring of my datatype) is probably more generally useful to my situation. Thank you very much.
    – eazar001
    Jan 4, 2014 at 1:29

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