module Relation.Binary.Vec.Pointwise where
open import Category.Applicative.Indexed
open import Data.Fin
open import Data.Nat
open import Data.Plus as Plus hiding (equivalent; map)
open import Data.Vec as Vec hiding ([_]; map)
import Data.Vec.Properties as VecProp
open import Function
open import Function.Equality using (_⟨$⟩_)
open import Function.Equivalence as Equiv
using (_⇔_; module Equivalence)
import Level
open import Relation.Binary
open import Relation.Binary.PropositionalEquality as P using (_≡_)
open import Relation.Nullary
private
module Dummy {a} {A : Set a} where
record Pointwise (_∼_ : Rel A a) {n} (xs ys : Vec A n) : Set a where
constructor ext
field app : ∀ i → lookup i xs ∼ lookup i ys
infixr 5 _∷_
data Pointwise′ (_∼_ : Rel A a) :
∀ {n} (xs ys : Vec A n) → Set a where
[] : Pointwise′ _∼_ [] []
_∷_ : ∀ {n x y} {xs ys : Vec A n}
(x∼y : x ∼ y) (xs∼ys : Pointwise′ _∼_ xs ys) →
Pointwise′ _∼_ (x ∷ xs) (y ∷ ys)
equivalent : ∀ {_∼_ : Rel A a} {n} {xs ys : Vec A n} →
Pointwise _∼_ xs ys ⇔ Pointwise′ _∼_ xs ys
equivalent {_∼_} = Equiv.equivalence (to _ _) from
where
to : ∀ {n} (xs ys : Vec A n) →
Pointwise _∼_ xs ys → Pointwise′ _∼_ xs ys
to [] [] xs∼ys = []
to (x ∷ xs) (y ∷ ys) xs∼ys =
Pointwise.app xs∼ys zero ∷
to xs ys (ext (Pointwise.app xs∼ys ∘ suc))
nil : Pointwise _∼_ [] []
nil = ext λ()
cons : ∀ {n x y} {xs ys : Vec A n} →
x ∼ y → Pointwise _∼_ xs ys → Pointwise _∼_ (x ∷ xs) (y ∷ ys)
cons {x = x} {y} {xs} {ys} x∼y xs∼ys = ext helper
where
helper : ∀ i → lookup i (x ∷ xs) ∼ lookup i (y ∷ ys)
helper zero = x∼y
helper (suc i) = Pointwise.app xs∼ys i
from : ∀ {n} {xs ys : Vec A n} →
Pointwise′ _∼_ xs ys → Pointwise _∼_ xs ys
from [] = nil
from (x∼y ∷ xs∼ys) = cons x∼y (from xs∼ys)
refl : ∀ {_∼_ : Rel A a} {n} →
Reflexive _∼_ → Reflexive (Pointwise _∼_ {n = n})
refl rfl = ext (λ _ → rfl)
sym : ∀ {_∼_ : Rel A a} {n} →
Symmetric _∼_ → Symmetric (Pointwise _∼_ {n = n})
sym sm xs∼ys = ext λ i → sm (Pointwise.app xs∼ys i)
trans : ∀ {_∼_ : Rel A a} {n} →
Transitive _∼_ → Transitive (Pointwise _∼_ {n = n})
trans trns xs∼ys ys∼zs = ext λ i →
trns (Pointwise.app xs∼ys i) (Pointwise.app ys∼zs i)
isEquivalence :
∀ {_∼_ : Rel A a} {n} →
IsEquivalence _∼_ → IsEquivalence (Pointwise _∼_ {n = n})
isEquivalence equiv = record
{ refl = refl (IsEquivalence.refl equiv)
; sym = sym (IsEquivalence.sym equiv)
; trans = trans (IsEquivalence.trans equiv)
}
Pointwise-≡ : ∀ {n} {xs ys : Vec A n} →
Pointwise _≡_ xs ys ⇔ xs ≡ ys
Pointwise-≡ =
Equiv.equivalence
(to ∘ _⟨$⟩_ (Equivalence.to equivalent))
(λ xs≡ys → P.subst (Pointwise _≡_ _) xs≡ys (refl P.refl))
where
to : ∀ {n} {xs ys : Vec A n} → Pointwise′ _≡_ xs ys → xs ≡ ys
to [] = P.refl
to (P.refl ∷ xs∼ys) = P.cong (_∷_ _) $ to xs∼ys
⁺∙⇒∙⁺ : ∀ {_∼_ : Rel A a} {n} {xs ys : Vec A n} →
Plus (Pointwise _∼_) xs ys → Pointwise (Plus _∼_) xs ys
⁺∙⇒∙⁺ [ ρ≈ρ′ ] = ext (λ x → [ Pointwise.app ρ≈ρ′ x ])
⁺∙⇒∙⁺ (ρ ∼⁺⟨ ρ≈ρ′ ⟩ ρ′≈ρ″) =
ext (λ x → _ ∼⁺⟨ Pointwise.app (⁺∙⇒∙⁺ ρ≈ρ′ ) x ⟩
Pointwise.app (⁺∙⇒∙⁺ ρ′≈ρ″) x)
∙⁺⇒⁺∙ : ∀ {_∼_ : Rel A a} {n} {xs ys : Vec A n} →
Reflexive _∼_ →
Pointwise (Plus _∼_) xs ys → Plus (Pointwise _∼_) xs ys
∙⁺⇒⁺∙ {_∼_} x∼x =
Plus.map (_⟨$⟩_ (Equivalence.from equivalent)) ∘
helper ∘
_⟨$⟩_ (Equivalence.to equivalent)
where
helper : ∀ {n} {xs ys : Vec A n} →
Pointwise′ (Plus _∼_) xs ys → Plus (Pointwise′ _∼_) xs ys
helper [] = [ [] ]
helper (_∷_ {x = x} {y = y} {xs = xs} {ys = ys} x∼y xs∼ys) =
x ∷ xs ∼⁺⟨ Plus.map (λ x∼y → x∼y ∷ xs∼xs) x∼y ⟩
y ∷ xs ∼⁺⟨ Plus.map (λ xs∼ys → x∼x ∷ xs∼ys) (helper xs∼ys) ⟩∎
y ∷ ys ∎
where
xs∼xs : Pointwise′ _∼_ xs xs
xs∼xs = Equivalence.to equivalent ⟨$⟩ refl x∼x
open Dummy public
private
module Counterexample where
data D : Set where
i j x y z : D
data _R_ : Rel D Level.zero where
iRj : i R j
xRy : x R y
yRz : y R z
xR⁺z : x [ _R_ ]⁺ z
xR⁺z =
x ∼⁺⟨ [ xRy ] ⟩
y ∼⁺⟨ [ yRz ] ⟩∎
z ∎
ix : Vec D 2
ix = i ∷ x ∷ []
jz : Vec D 2
jz = j ∷ z ∷ []
ix∙⁺jz : Pointwise′ (Plus _R_) ix jz
ix∙⁺jz = [ iRj ] ∷ xR⁺z ∷ []
¬ix⁺∙jz : ¬ Plus′ (Pointwise′ _R_) ix jz
¬ix⁺∙jz [ iRj ∷ () ∷ [] ]
¬ix⁺∙jz ((iRj ∷ xRy ∷ []) ∷ [ () ∷ yRz ∷ [] ])
¬ix⁺∙jz ((iRj ∷ xRy ∷ []) ∷ (() ∷ yRz ∷ []) ∷ _)
counterexample :
¬ (∀ {n} {xs ys : Vec D n} →
Pointwise (Plus _R_) xs ys →
Plus (Pointwise _R_) xs ys)
counterexample ∙⁺⇒⁺∙ =
¬ix⁺∙jz (Equivalence.to Plus.equivalent ⟨$⟩
Plus.map (_⟨$⟩_ (Equivalence.to equivalent))
(∙⁺⇒⁺∙ (Equivalence.from equivalent ⟨$⟩ ix∙⁺jz)))
map : ∀ {a} {A : Set a} {_R_ _R′_ : Rel A a} {n} →
_R_ ⇒ _R′_ → Pointwise _R_ ⇒ Pointwise _R′_ {n}
map R⇒R′ xsRys = ext λ i →
R⇒R′ (Pointwise.app xsRys i)
gmap : ∀ {a} {A A′ : Set a}
{_R_ : Rel A a} {_R′_ : Rel A′ a} {f : A → A′} {n} →
_R_ =[ f ]⇒ _R′_ →
Pointwise _R_ =[ Vec.map {n = n} f ]⇒ Pointwise _R′_
gmap {_R′_ = _R′_} {f} R⇒R′ {i = xs} {j = ys} xsRys = ext λ i →
let module M = Morphism (VecProp.lookup-morphism i) in
P.subst₂ _R′_ (P.sym $ M.op-<$> f xs)
(P.sym $ M.op-<$> f ys)
(R⇒R′ (Pointwise.app xsRys i))