{-# OPTIONS --without-K --safe #-}
module Data.Maybe.Relation.Unary.All where
open import Category.Applicative
open import Category.Monad
open import Data.Maybe.Base using (Maybe; just; nothing)
open import Data.Maybe.Relation.Unary.Any using (Any; just)
open import Data.Product as Prod using (_,_)
open import Function.Base using (id; _∘′_)
open import Function.Bundles using (_⇔_; mk⇔)
open import Level
open import Relation.Binary.PropositionalEquality as P using (_≡_; cong)
open import Relation.Unary
open import Relation.Nullary hiding (Irrelevant)
import Relation.Nullary.Decidable as Dec
data All {a p} {A : Set a} (P : Pred A p) : Pred (Maybe A) (a ⊔ p) where
just : ∀ {x} → P x → All P (just x)
nothing : All P nothing
module _ {a p} {A : Set a} {P : Pred A p} where
drop-just : ∀ {x} → All P (just x) → P x
drop-just (just px) = px
just-equivalence : ∀ {x} → P x ⇔ All P (just x)
just-equivalence = mk⇔ just drop-just
map : ∀ {q} {Q : Pred A q} → P ⊆ Q → All P ⊆ All Q
map f (just px) = just (f px)
map f nothing = nothing
fromAny : Any P ⊆ All P
fromAny (just px) = just px
module _ {a p q r} {A : Set a} {P : Pred A p} {Q : Pred A q} {R : Pred A r} where
zipWith : P ∩ Q ⊆ R → All P ∩ All Q ⊆ All R
zipWith f (just px , just qx) = just (f (px , qx))
zipWith f (nothing , nothing) = nothing
unzipWith : P ⊆ Q ∩ R → All P ⊆ All Q ∩ All R
unzipWith f (just px) = Prod.map just just (f px)
unzipWith f nothing = nothing , nothing
module _ {a p q} {A : Set a} {P : Pred A p} {Q : Pred A q} where
zip : All P ∩ All Q ⊆ All (P ∩ Q)
zip = zipWith id
unzip : All (P ∩ Q) ⊆ All P ∩ All Q
unzip = unzipWith id
module _ {a} p {A : Set a} {P : Pred A (a ⊔ p)} {F}
(App : RawApplicative {a ⊔ p} F) where
open RawApplicative App
sequenceA : All (F ∘′ P) ⊆ F ∘′ All P
sequenceA nothing = pure nothing
sequenceA (just px) = just <$> px
mapA : ∀ {q} {Q : Pred A q} → (Q ⊆ F ∘′ P) → All Q ⊆ (F ∘′ All P)
mapA f = sequenceA ∘′ map f
forA : ∀ {q} {Q : Pred A q} {xs} → All Q xs → (Q ⊆ F ∘′ P) → F (All P xs)
forA qxs f = mapA f qxs
module _ {a} p {A : Set a} {P : Pred A (a ⊔ p)} {M}
(Mon : RawMonad {a ⊔ p} M) where
private App = RawMonad.rawIApplicative Mon
sequenceM : All (M ∘′ P) ⊆ M ∘′ All P
sequenceM = sequenceA p App
mapM : ∀ {q} {Q : Pred A q} → (Q ⊆ M ∘′ P) → All Q ⊆ (M ∘′ All P)
mapM = mapA p App
forM : ∀ {q} {Q : Pred A q} {xs} → All Q xs → (Q ⊆ M ∘′ P) → M (All P xs)
forM = forA p App
module _ {a p} {A : Set a} {P : Pred A p} where
dec : Decidable P → Decidable (All P)
dec P-dec nothing = yes nothing
dec P-dec (just x) = Dec.map just-equivalence (P-dec x)
universal : Universal P → Universal (All P)
universal P-universal (just x) = just (P-universal x)
universal P-universal nothing = nothing
irrelevant : Irrelevant P → Irrelevant (All P)
irrelevant P-irrelevant (just p) (just q) = cong just (P-irrelevant p q)
irrelevant P-irrelevant nothing nothing = P.refl
satisfiable : Satisfiable (All P)
satisfiable = nothing , nothing