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Existential type

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Existential types in conjunction with type classes can be used to emulate the dynamic dispatch mechanism of object oriented programming languages. To illustrate this concept I show how a classic example from object oriented programming can be encoded in Haskell.
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'''Existential types''' in conjunction with type classes can be used to emulate the dynamic dispatch mechanism of object oriented programming languages. To illustrate this concept I show how a classic example from object oriented programming can be encoded in Haskell.
 
 
   
 
class Shape_ a where
 
class Shape_ a where

Revision as of 07:21, 23 February 2006

Existential types in conjunction with type classes can be used to emulate the dynamic dispatch mechanism of object oriented programming languages. To illustrate this concept I show how a classic example from object oriented programming can be encoded in Haskell.

class Shape_ a where
  perimeter :: a -> Double
  area      :: a -> Double

data Shape = forall a. Shape_ a => Shape a

type Radius = Double
type Side   = Double
 
data Circle    = Circle    Radius
data Rectangle = Rectangle Side Side
data Square    = Square    Side


instance Shape_ Circle where
  perimeter (Circle r) = 2 * pi * r
  area      (Circle r) = pi * r * r

instance Shape_ Rectangle where
  perimeter (Rectangle x y) = 2*(x + y)
  area      (Rectangle x y) = x * y

instance Shape_ Square where
  perimeter (Square s) = 4*s
  area      (Square s) = s*s

instance Shape_ Shape where
  perimeter (Shape shape) = perimeter shape
  area      (Shape shape) = area      shape


--
-- Smart constructors
--

circle :: Radius -> Shape
circle r = Shape (Circle r)

rectangle :: Side -> Side -> Shape
rectangle x y = Shape (Rectangle x y)

square :: Side -> Shape
square s = Shape (Square s)

shapes :: [Shape]
shapes = [circle 2.4, rectangle 3.1 4.4, square 2.1]