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81 lines
2.6 KiB
Idris
81 lines
2.6 KiB
Idris
module Data.List.Quantifiers
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import Data.List
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import Data.List.Elem
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||| A proof that some element of a list satisfies some property
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||| @ p the property to be satisfied
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public export
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data Any : (0 p : a -> Type) -> List a -> Type where
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||| A proof that the satisfying element is the first one in the `List`
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Here : {0 xs : List a} -> p x -> Any p (x :: xs)
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||| A proof that the satisfying element is in the tail of the `List`
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There : {0 xs : List a} -> Any p xs -> Any p (x :: xs)
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export
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Uninhabited (Any p Nil) where
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uninhabited (Here _) impossible
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uninhabited (There _) impossible
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||| Given a decision procedure for a property, determine if an element of a
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||| list satisfies it.
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|||
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||| @ p the property to be satisfied
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||| @ dec the decision procedure
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||| @ xs the list to examine
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export
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any : (dec : (x : a) -> Dec (p x)) -> (xs : List a) -> Dec (Any p xs)
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any _ Nil = No uninhabited
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any p (x::xs) with (p x)
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any p (x::xs) | Yes prf = Yes (Here prf)
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any p (x::xs) | No ctra =
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case any p xs of
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Yes prf' => Yes (There prf')
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No ctra' => No $ \case
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Here px => ctra px
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There pxs => ctra' pxs
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||| A proof that all elements of a list satisfy a property. It is a list of
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||| proofs, corresponding element-wise to the `List`.
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public export
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data All : (0 p : a -> Type) -> List a -> Type where
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Nil : All p Nil
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(::) : {0 xs : List a} -> p x -> All p xs -> All p (x :: xs)
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||| Given a decision procedure for a property, decide whether all elements of
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||| a list satisfy it.
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|||
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||| @ p the property
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||| @ dec the decision procedure
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||| @ xs the list to examine
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export
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all : (dec : (x : a) -> Dec (p x)) -> (xs : List a) -> Dec (All p xs)
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all _ Nil = Yes Nil
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all d (x::xs) with (d x)
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all d (x::xs) | No ctra = No $ \(p::_) => ctra p
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all d (x::xs) | Yes prf =
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case all d xs of
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Yes prf' => Yes (prf :: prf')
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No ctra' => No $ \(_::ps) => ctra' ps
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||| If there does not exist an element that satifies the property, then it is
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||| the case that all elements do not satisfy it.
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export
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negAnyAll : {xs : List a} -> Not (Any p xs) -> All (Not . p) xs
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negAnyAll {xs=Nil} _ = Nil
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negAnyAll {xs=x::xs} f = (f . Here) :: negAnyAll (f . There)
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||| If there exists an element that doesn't satify the property, then it is
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||| not the case that all elements satisfy it.
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export
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anyNegAll : Any (Not . p) xs -> Not (All p xs)
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anyNegAll (Here ctra) (p::_) = ctra p
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anyNegAll (There np) (_::ps) = anyNegAll np ps
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||| Given a proof of membership for some element, extract the property proof for it
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export
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indexAll : Elem x xs -> All p xs -> p x
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indexAll Here (p::_ ) = p
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indexAll (There e) ( _::ps) = indexAll e ps
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