mirror of
https://github.com/idris-lang/Idris2.git
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130 lines
3.7 KiB
Idris
130 lines
3.7 KiB
Idris
||| A binary relation is a function of type (ty -> ty -> Type).
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||| A prominent example of a binary relation is LTE over Nat.
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||| This module defines some interfaces for describing properties of
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||| binary relations. It also proves somes relations among relations.
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module Control.Relation
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%default total
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||| A relation on ty is a type indexed by two ty values
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public export
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Rel : Type -> Type
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Rel ty = ty -> ty -> Type
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||| A relation is reflexive if x ~ x for every x.
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public export
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interface Reflexive ty rel | rel where
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constructor MkReflexive
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reflexive : {x : ty} -> rel x x
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||| A relation is transitive if x ~ z when x ~ y and y ~ z.
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public export
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interface Transitive ty rel | rel where
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constructor MkTransitive
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transitive : {x, y, z : ty} -> rel x y -> rel y z -> rel x z
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||| A relation is symmetric if y ~ x when x ~ y.
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public export
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interface Symmetric ty rel | rel where
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constructor MkSymmetric
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symmetric : {x, y : ty} -> rel x y -> rel y x
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||| A relation is antisymmetric if no two distinct elements bear the relation to each other.
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public export
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interface Antisymmetric ty rel | rel where
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constructor MkAntisymmetric
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antisymmetric : {x, y : ty} -> rel x y -> rel y x -> x = y
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||| A relation is dense if when x ~ y there is z such that x ~ z and z ~ y.
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public export
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interface Dense ty rel | rel where
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constructor MkDense
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dense : {x, y : ty} -> rel x y -> (z : ty ** (rel x z, rel z y))
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||| A relation is serial if for all x there is a y such that x ~ y.
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public export
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interface Serial ty rel | rel where
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constructor MkSerial
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serial : {x : ty} -> (y : ty ** rel x y)
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||| A relation is euclidean if y ~ z when x ~ y and x ~ z.
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public export
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interface Euclidean ty rel | rel where
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constructor MkEuclidean
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euclidean : {x, y, z : ty} -> rel x y -> rel x z -> rel y z
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||| A tolerance relation is reflexive and symmetric.
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public export
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interface (Reflexive ty rel, Symmetric ty rel) => Tolerance ty rel | rel where
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||| A partial equivalence is transitive and symmetric.
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public export
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interface (Transitive ty rel, Symmetric ty rel) => PartialEquivalence ty rel | rel where
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||| An equivalence relation is transitive, symmetric, and reflexive.
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public export
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interface (Reflexive ty rel, Transitive ty rel, Symmetric ty rel) => Equivalence ty rel | rel where
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----------------------------------------
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||| Every reflexive relation is dense.
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public export
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Reflexive ty rel => Dense ty rel where
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dense xy = (x ** (reflexive, xy))
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||| Every reflexive relation is serial.
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public export
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Reflexive ty rel => Serial ty rel where
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serial = (x ** reflexive)
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||| A transitive symmetric serial relation is reflexive.
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public export
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(Transitive ty rel, Symmetric ty rel, Serial ty rel) => Reflexive ty rel where
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reflexive = let (y ** xy) = serial in transitive xy $ symmetric xy
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||| A reflexive euclidean relation is symmetric.
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public export
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[RES] (Reflexive ty rel, Euclidean ty rel) => Symmetric ty rel where
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symmetric xy = euclidean xy $ reflexive
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||| A reflexive euclidean relation is transitive.
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public export
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[RET] (Reflexive ty rel, Euclidean ty rel) =>
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Transitive ty rel using RES where
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transitive xy yz = symmetric $ euclidean yz $ symmetric xy
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||| A transitive symmetrics relation is euclidean.
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public export
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[TSE] (Transitive ty rel, Symmetric ty rel) => Euclidean ty rel where
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euclidean xy xz = transitive (symmetric xy) xz
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----------------------------------------
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public export
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Reflexive ty Equal where
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reflexive = Refl
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public export
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Symmetric ty Equal where
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symmetric xy = sym xy
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public export
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Transitive ty Equal where
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transitive xy yz = trans xy yz
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public export
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Euclidean ty Equal where
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euclidean = euclidean @{TSE}
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public export
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Tolerance ty Equal where
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public export
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PartialEquivalence ty Equal where
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public export
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Equivalence ty Equal where
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