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Suppose I have defined these types:

data Km     = Km Float deriving (Show, Eq)
data Mile   = Mile Float deriving (Show, Eq)
data Meter  = Meter Float deriving (Show, Eq)
data Feet   = Feet Float deriving (Show, Eq)

And I have some functions like:

kms_to_miles    :: Km   -> Meter
kms_to_feets    :: Km   -> Feet
miles_to_meters :: Mile -> Meter

This is perfect because I can't mix units.

Now, if I have some simple function:

doubleTheDistance' :: Float -> Float
doubleTheDistance' x = 2 * x

And I want to apply it to my types I could:

class Dbl a where
    doubleTheDistance :: a -> a
instance Dbl Km where
    doubleTheDistance (Km x) = Km (2 * x)
instance Dbl Mile where
    doubleTheDistance (Mile x) = Mile (2 * x)
--  an instance with the same for all my types here...  

As my types are not parametric, I can't use a Functor and map a general function (doubleTheDistance') over them.

Am I missing something? Is there any way to abstract this behaviour so I don't have to write the same function for every tagged type?

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2  
You can use a Unit data type, declare newtypes wrapping it, and use generalized newtype deriving extension to avoid redefining the function. –  Simon Apr 23 at 13:06

3 Answers 3

up vote 3 down vote accepted

Another approach is to use phantom type to encode "units". Which still gives you type-safe specific types, like Distance Km, but also allows you to apply more generic functions, like doubleTheDistance, when needed:

data Km
data Mile
data Meter
data Feet

data Distance m = Distance Float  deriving (Show, Eq)

kms_to_miles :: Distance Km -> Distance Mile
kms_to_miles (Distance km) = Distance (km*0.621371192)

doubleTheDistance :: Distance m -> Distance m
doubleTheDistance (Distance x) = Distance (2 * x)

-- Tests
km = Distance 5 :: Distance Km

doubled = doubleTheDistance km

You can even show it nicely your Distance:

{-# LANGUAGE ScopedTypeVariables  #-}

data Km
data Mile
data Meter
data Feet

data Distance m = Distance Float deriving Eq

instance Show Km where
   show _ = "km"
instance Show Mile where
   show _ = "ml"
instance Show Feet where
   show _ = "ft"

instance Show m => Show (Distance m) where
   show (Distance a) = show a ++ " " ++ show (undefined :: m)

km = Distance 5 :: Distance Km -- Is shown as "0.5 km"
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This is perfect (and with a Show bonus!). My first contact with phantom types. For all the beginners like myself out there: "{-# LANGUAGE ScopedTypeVariables #-}" activate a Haskell extension that is necessary to make "show (undefined :: m)" to work. See: haskell.org/haskellwiki/Scoped_type_variables –  Robert Apr 24 at 18:49

As usual, lens can simplify this a whole lot. It provides a facility for converting from and to newtypes via Isos.

Add an instance of your newtypes to the Wrapped class:

newtype Km = Km { getFloatKm :: Float }
makeWrapped ''Km

Now you can use the normal Iso facilities to work with your newtype wrapper. You can get at the Iso via the _Unwrapped and _Wrapped functions:

let x = Km 5 in x & _Wrapped %~ (*2)
> Km {getFloatKm = 10.0}

This is of course more generally powerful than this simple example.

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1  
I think you are looking for Control.Lens.TH.makeWrapped. –  Ørjan Johansen Apr 24 at 3:40
    
Indeed I am, thanks. I'll edit my answer. –  acomar Apr 24 at 3:43

One approach without extensions:

class Distance a where
  toFloat :: a -> Float
  fromFloat :: Float -> a

instance Distance Miles where
  toFloat (Miles x) = x
  fromFloat x = Miles x

-- same for other units

mapDistance :: Distance a => (Float -> Float) -> a -> a
mapDistance f = fromFloat . f . toFloat

doubleTheDistance = mapDistance (* 2.0)

You still need some duplication, but it's once per unit, not once per function. In practice I'd most likely prefer Simon's approach. Of course, they can be combined:

{-# LANGUAGE GeneralizedNewtypeDeriving #-}

instance Distance Float where
  toFloat x = x
  fromFloat x = x

newType Km = Km Float deriving (Show, Eq, Distance)

-- definitions of mapDistance and doubleTheDistance as above
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I will go with newtype and record syntax "Km (doubleTheDistance' (kms a))". Yet, I find strange that Haskell don't let you make pattern matching against the type in a tagged type: any type discrepancy should be visible in compiling time. –  Robert Apr 23 at 18:11

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