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The Haskell code below works fine.

data Point = Point Float Float deriving (Show)  
data Shape = Circle Point Float  
surface :: Shape -> Float  
surface (Circle _ r) = pi * r ^ 2  


*Main> surface $ Circle (Point 0 0) 10  

The Haskell code below does not work. Why? How to write surface function for Shape - Circle correctly?

data Point = Point Float Float deriving (Show)  
data Radius = Radius Float deriving (Show)

data Shape = Circle Point Radius   

surface :: Shape -> Float  
surface (Circle _ (Radius r)) = pi * (Radius r) ^ 2
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3 Answers 3

up vote 2 down vote accepted

Your last line is constructing a Radius object and raising that to a power. Since you haven’t defined the power operator for Radius, that can’t work. Remove the constructor call:

surface (Circle _ (Radius r)) = pi * r ^ 2
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Konrad Rudolph: Sir, Remove the constructor call means, I have to write data Shape = Circle Point Float , right? Which will be better writing a power operator for Radius or removing the constructor call? How to write power operator for Radius? Please guide. –  Optimight Jul 20 '12 at 6:53
@Optimight No, it doesn’t mean that; look at my code, the Circle class is still built with a Radius. Only the calculation itself works on float directly –  Konrad Rudolph Jul 20 '12 at 6:55
Sir, Got the point. Your suggested code compiles, OK. But When I run it and try to test it with : (a) surface $ Circle (Point 0 0) 1 (b) surface $ Circle ((Point 0 0) 10) and (c) surface $ Circle ((Point 0 0) Radius 10) - All fails. Unable to understand the respective error message and implement accordingly. Please guide. –  Optimight Jul 20 '12 at 7:07
@Optimight It should be surface $ Circle (Point 0 0) (Radius 10) –  kosmikus Jul 20 '12 at 7:37

You can simply use (,) instead of Point, and Float instead of Radius.

You can also define the Shape as a class. So the code will be

type Point = (Float, Float)
data Circle = Circle { center :: Point, radius :: Float }

class Shape a where
  surface :: a -> Float

instance Shape Circle where
  surface c = pi * (radius c) ** 2

This is a possible implementation, just try it ~

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There's two fixes. One is the just like the first snippet of code you wrote: use a Float instead of a Radius in the actual calculation bit.

surface :: Shape -> Float
surface (Circle _ (Radius r)) = pi * r ^ 2

The other is to look at the type of (^):

(^) :: (Num a, Integral b) -> a -> b -> a

...and observe that for Radius r ^ 2 to work, we would need to have an instance Num Radius. Also, the result would be a value of type Radius (not Float), so the type signature of surface would have to change to match. Easy:

newtype Radius = Radius Float deriving (Num, Show)

surface :: Shape -> Radius -- weird looking type
surface (Circle _ r) = pi * r ^ 2
surface (Circle _ (Radius r)) = pi * Radius r ^ 2 -- equivalent
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Don't you have to turn Radius into a newtype for deriving Num to work? –  kosmikus Jul 20 '12 at 7:40
@kosmikus ...yup, fixed. –  Daniel Wagner Jul 20 '12 at 14:35

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