Difference between revisions of "Existential type"
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EndreyMark (talk | contribs) (Adding a new section →Trac: which contains links to Trac pages on existential types) |
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* [http://www.cs.uu.nl/wiki/pub/Ehc/WebHome/20050107-eh-intro.pdf Essential Haskell Compiler overview] |
* [http://www.cs.uu.nl/wiki/pub/Ehc/WebHome/20050107-eh-intro.pdf Essential Haskell Compiler overview] |
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* [http://www.cs.uu.nl/wiki/Ehc/Examples#EH_4_forall_and_exists_everywher Examples] |
* [http://www.cs.uu.nl/wiki/Ehc/Examples#EH_4_forall_and_exists_everywher Examples] |
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| + | == Trac == |
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| + | [http://hackage.haskell.org/trac/haskell-prime/wiki/ExistentialQuantification Existential Quantification] is a detailed material on the topic. It has link also to the smaller [http://hackage.haskell.org/trac/haskell-prime/wiki/ExistentialQuantifier Existential Quantifier] page. |
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[[Category:Idioms]] |
[[Category:Idioms]] |
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Revision as of 18:58, 2 May 2006
Dynamic dispatch mechanism of OOP
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 constructor
--
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]
(You may see other Smart constructors for other purposes).
Generalised algebraic datatype
The type of the parser for this GADT is a good example to illustrate the concept of existential type.
Examples from the Essential Haskell Compiler project
See the documentation on EHC, each paper at the Version 4 part:
- Chapter 8 (EH4) of Atze Dijksta's Essential Haskell PhD thesis (most recent version). A detailed explanation. It explains also that existential types can be expressed in Haskell, but their use is restricted to data declarations, and the notation (using keyword
forall) may be confusing. In Essential Haskell, existential types can occur not only in data declarations, and a separate keywordexistsis used for their notation. - Essential Haskell Compiler overview
- Examples
Trac
Existential Quantification is a detailed material on the topic. It has link also to the smaller Existential Quantifier page.