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d99d4a2893
| Author | SHA1 | Date | |
|---|---|---|---|
| d99d4a2893 | |||
| fbb98de40f | |||
| 706b593d1d | |||
| 45606679f5 |
@ -148,6 +148,10 @@ record IsPartialSemilattice {a} {A : Set a}
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with a₁ ⊔? x | refl⇒a₁⊔?x=nothing refl | x-absorbʳ a₁
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... | nothing | refl | ()
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PartialAbsorb : ∀ {a} {A : Set a} (_≈_ : A → A → Set a) (_⊗₁_ : A → A → Maybe A) (_⊗₂_ : A → A → Maybe A) → Set a
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PartialAbsorb {a} {A} _≈_ _⊗₁_ _⊗₂_ = ∀ (x y : A) → maybe (λ x⊗₂y → lift-≈ _≈_ (x ⊗₁ x⊗₂y) (just x)) (Trivial _) (x ⊗₂ y)
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record IsPartialLattice {a} {A : Set a}
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(_≈_ : A → A → Set a)
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(_⊔?_ : A → A → Maybe A)
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@ -157,8 +161,8 @@ record IsPartialLattice {a} {A : Set a}
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{{partialJoinSemilattice}} : IsPartialSemilattice _≈_ _⊔?_
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{{partialMeetSemilattice}} : IsPartialSemilattice _≈_ _⊓?_
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absorb-⊔-⊓ : (x y : A) → maybe (λ x⊓y → lift-≈ _≈_ (x ⊔? x⊓y) (just x)) (Trivial _) (x ⊓? y)
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absorb-⊓-⊔ : (x y : A) → maybe (λ x⊔y → lift-≈ _≈_ (x ⊓? x⊔y) (just x)) (Trivial _) (x ⊔? y)
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absorb-⊔-⊓ : PartialAbsorb _≈_ _⊔?_ _⊓?_
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absorb-⊓-⊔ : PartialAbsorb _≈_ _⊓?_ _⊔?_
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open IsPartialSemilattice partialJoinSemilattice
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renaming (HasAbsorbingElement to HasGreatestElement)
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@ -213,6 +217,7 @@ record PartialLattice {a} (A : Set a) : Set (lsuc a) where
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least-⊔-identˡ le x = ≈?-trans (⊔-comm (HasLeastElement.x le) x) (least-⊔-identʳ le x)
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record PartialLatticeType (a : Level) : Set (lsuc a) where
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constructor mkPartialLatticeType
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field
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EltType : Set a
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{{partialLattice}} : PartialLattice EltType
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@ -508,6 +513,24 @@ eval _⊔?_ (e₁ ∨ e₂) = (eval _⊔?_ e₁) >>= (λ v₁ → (eval _⊔?_
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PartiallySubHomo : ∀ {a b} {A : Set a} {B : Set b} (f : A → B) (_⊕_ : A → A → Maybe A) (_⊗_ : B → B → Maybe B) → Set (a ⊔ℓ b)
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PartiallySubHomo {A = A} f _⊕_ _⊗_ = ∀ (a₁ a₂ : A) → (f a₁ ⊗ f a₂) ≡ Maybe.map f (a₁ ⊕ a₂)
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PartialAbsorb-map : ∀ {a b} {A : Set a} {B : Set b}
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(f : A → B)
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(_≈ᵃ_ : A → A → Set a) (_≈ᵇ_ : B → B → Set b) →
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(∀ a₁ a₂ → a₁ ≈ᵃ a₂ → f a₁ ≈ᵇ f a₂) →
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∀ (_⊕₁_ : A → A → Maybe A) (_⊕₂_ : A → A → Maybe A)
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(_⊗₁_ : B → B → Maybe B) (_⊗₂_ : B → B → Maybe B) →
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PartiallySubHomo f _⊕₁_ _⊗₁_ →
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PartiallySubHomo f _⊕₂_ _⊗₂_ →
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PartialAbsorb _≈ᵃ_ _⊕₁_ _⊕₂_ →
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∀ (x y : A) → maybe (λ x⊗₂y → lift-≈ _≈ᵇ_ (f x ⊗₁ x⊗₂y) (just (f x))) (Trivial _) (f x ⊗₂ f y)
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PartialAbsorb-map f _≈ᵃ_ _≈ᵇ_ ≈ᵃ⇒≈ᵇ _⊕₁_ _⊕₂_ _⊗₁_ _⊗₂_ psh₁ psh₂ absorbᵃ x y
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with x ⊕₂ y | f x ⊗₂ f y | psh₂ x y | absorbᵃ x y
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... | nothing | nothing | refl | _ = mkTrivial
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... | just x⊕₂y | just fx⊗₂fy | refl | x⊕₁xy≈?x
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with x ⊕₁ x⊕₂y | f x ⊗₁ (f x⊕₂y) | psh₁ x x⊕₂y | x⊕₁xy≈?x
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... | just x⊕₁xy | just fx⊗₁fx⊕₂y | refl | ≈-just x⊕₁xy≈x = ≈-just (≈ᵃ⇒≈ᵇ _ _ x⊕₁xy≈x)
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-- this evaluation property, which depends on PartiallySubHomo, effectively makes
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-- it easier to talk about compound operations and the preservation of their
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-- structure when _⊗_ is PartiallySubHomo.
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@ -609,6 +632,30 @@ lvMeet-comm = lvCombine-comm PartialLatticeType._⊓?_ PartialLatticeType.⊓-co
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lvMeet-idemp : ∀ {a} (L : List (PartialLatticeType a)) → PartialIdemp (eqL L) (lvMeet L)
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lvMeet-idemp = lvCombine-idemp PartialLatticeType._⊓?_ PartialLatticeType.⊓-idemp
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lvCombine-absorb : ∀ {a} (f₁ f₂ : CombineForPLT a) →
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(∀ plt → PartialAbsorb (PartialLatticeType._≈_ plt) (f₁ plt) (f₂ plt)) →
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∀ (L : List (PartialLatticeType a)) →
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PartialAbsorb (eqL L) (lvCombine f₁ L) (lvCombine f₂ L)
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lvCombine-absorb f₁ f₂ absorb-f₁-f₂ [] ()
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lvCombine-absorb f₁ f₂ absorb-f₁-f₂ (plt ∷ plts) (inj₁ v₁) (inj₁ v₂)
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= PartialAbsorb-map inj₁ _ _ (λ _ _ x → x) (f₁ plt) (f₂ plt)
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(lvCombine f₁ (plt ∷ plts)) (lvCombine f₂ (plt ∷ plts))
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(λ _ _ → refl) (λ _ _ → refl)
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(absorb-f₁-f₂ plt) v₁ v₂
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lvCombine-absorb f₁ f₂ absorb-f₁-f₂ (plt ∷ plts) (inj₂ lv₁) (inj₁ v₂) = mkTrivial
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lvCombine-absorb f₁ f₂ absorb-f₁-f₂ (plt ∷ plts) (inj₁ v₁) (inj₂ lv₂) = mkTrivial
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lvCombine-absorb f₁ f₂ absorb-f₁-f₂ (plt ∷ plts) (inj₂ lv₁) (inj₂ lv₂)
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= PartialAbsorb-map inj₂ _ _ (λ _ _ x → x) (lvCombine f₁ plts) (lvCombine f₂ plts)
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(lvCombine f₁ (plt ∷ plts)) (lvCombine f₂ (plt ∷ plts))
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(λ _ _ → refl) (λ _ _ → refl)
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(lvCombine-absorb f₁ f₂ absorb-f₁-f₂ plts) lv₁ lv₂
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absorb-lvJoin-lvMeet : ∀ {a} (L : List (PartialLatticeType a)) → PartialAbsorb (eqL L) (lvJoin L) (lvMeet L)
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absorb-lvJoin-lvMeet = lvCombine-absorb PartialLatticeType._⊔?_ PartialLatticeType._⊓?_ PartialLatticeType.absorb-⊔-⊓
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absorb-lvMeet-lvJoin : ∀ {a} (L : List (PartialLatticeType a)) → PartialAbsorb (eqL L) (lvMeet L) (lvJoin L)
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absorb-lvMeet-lvJoin = lvCombine-absorb PartialLatticeType._⊓?_ PartialLatticeType._⊔?_ PartialLatticeType.absorb-⊓-⊔
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lvJoin-greatest-total : ∀ {a} {L : Layer a} → (lv₁ lv₂ : LayerValue L) → LayerGreatest L → lvJoin (toList L) lv₁ lv₂ ≡ nothing → ⊥
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lvJoin-greatest-total {L = plt ∷⁺ []} (inj₁ v₁) (inj₁ v₂) (MkLayerGreatest {{hasGreatest = hasGreatest}}) v₁⊔v₂≡nothing
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with IsPartialLattice.HasGreatestElement.not-partial (PartialLatticeType.isPartialLattice plt) hasGreatest v₁ v₂
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@ -946,6 +993,73 @@ pathMeet'-idemp {Ls = add-via-greatest l ls} (inj₁ lv)
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... | just lv⊔lv | ≈-just lv⊔lv≈lv = ≈-just lv⊔lv≈lv
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pathMeet'-idemp {Ls = add-via-greatest l ls} (inj₂ p) = lift-≈-map inj₂ _ _ (λ _ _ x → x) _ _ (pathMeet'-idemp {Ls = ls} p)
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absorb-pathJoin'-pathMeet' : ∀ {a} {Ls : Layers a} → PartialAbsorb (eqPath' Ls) (pathJoin' Ls) (pathMeet' Ls)
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absorb-pathJoin'-pathMeet' {Ls = single l} lv₁ lv₂ = absorb-lvJoin-lvMeet (toList l) lv₁ lv₂
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absorb-pathJoin'-pathMeet' {Ls = Ls@(add-via-least l ls)} (inj₁ lv₁) (inj₁ lv₂)
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= PartialAbsorb-map inj₁ _ _ (λ _ _ x → x) (lvJoin (toList l)) (lvMeet (toList l))
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(pathJoin' Ls) (pathMeet' Ls)
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(λ _ _ → refl) (λ _ _ → refl)
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(absorb-lvJoin-lvMeet (toList l)) lv₁ lv₂
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absorb-pathJoin'-pathMeet' {Ls = add-via-least l {{least}} ls} (inj₂ p₁) (inj₁ lv₂)
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= pathJoin'-idemp {Ls = add-via-least l {{least}} ls} (inj₂ p₁)
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absorb-pathJoin'-pathMeet' {Ls = add-via-least l ls} (inj₁ lv₁) (inj₂ p₂)
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= ≈-just (eqLv-refl l lv₁)
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absorb-pathJoin'-pathMeet' {Ls = add-via-least l@(plt ∷⁺ []) {{MkLayerLeast {{hasLeast = hasLeast}}}} ls} (inj₂ p₁) (inj₂ p₂)
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with pathMeet' ls p₁ p₂ | absorb-pathJoin'-pathMeet' {Ls = ls} p₁ p₂
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... | nothing | _ = mkTrivial
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... | just p₁⊓p₂ | p₁⊔p₁p₂≈?p₁
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with pathJoin' ls p₁ p₁⊓p₂ | p₁⊔p₁p₂≈?p₁
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... | just _ | ≈-just p₁⊔p₁p₂≈p₁ = ≈-just p₁⊔p₁p₂≈p₁
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absorb-pathJoin'-pathMeet' {Ls = add-via-greatest l ls {{greatest}}} (inj₁ lv₁) (inj₁ lv₂)
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with lvMeet (toList l) lv₁ lv₂ | absorb-lvJoin-lvMeet (toList l) lv₁ lv₂
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... | nothing | _ = ≈-just (eqLv-refl l lv₁)
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... | just lv₁⊓lv₂ | lv₁⊔lv₁lv₂≈?lv₁
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with lvJoin (toList l) lv₁ lv₁⊓lv₂ | lv₁⊔lv₁lv₂≈?lv₁
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... | just _ | ≈-just lv₁⊔lv₁lv₂≈lv₁ = ≈-just lv₁⊔lv₁lv₂≈lv₁
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absorb-pathJoin'-pathMeet' {Ls = add-via-greatest l ls {{greatest}} } (inj₂ p₁) (inj₁ lv₂)
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= pathJoin'-idemp {Ls = add-via-greatest l ls {{greatest}}} (inj₂ p₁)
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absorb-pathJoin'-pathMeet' {Ls = add-via-greatest l ls} (inj₁ lv₁) (inj₂ p₂)
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= ≈-just (eqLv-refl l lv₁)
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absorb-pathJoin'-pathMeet' {Ls = Ls@(add-via-greatest l ls)} (inj₂ p₁) (inj₂ p₂)
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= PartialAbsorb-map inj₂ _ _ (λ _ _ x → x) (pathJoin' ls) (pathMeet' ls)
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(pathJoin' Ls) (pathMeet' Ls)
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(λ _ _ → refl) (λ _ _ → refl)
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(absorb-pathJoin'-pathMeet' {Ls = ls}) p₁ p₂
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absorb-pathMeet'-pathJoin' : ∀ {a} {Ls : Layers a} → PartialAbsorb (eqPath' Ls) (pathMeet' Ls) (pathJoin' Ls)
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absorb-pathMeet'-pathJoin' {Ls = single l} lv₁ lv₂ = absorb-lvMeet-lvJoin (toList l) lv₁ lv₂
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absorb-pathMeet'-pathJoin' {Ls = Ls@(add-via-least l ls)} (inj₁ lv₁) (inj₁ lv₂)
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= PartialAbsorb-map inj₁ _ _ (λ _ _ x → x) (lvMeet (toList l)) (lvJoin (toList l))
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(pathMeet' Ls) (pathJoin' Ls)
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(λ _ _ → refl) (λ _ _ → refl)
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(absorb-lvMeet-lvJoin (toList l)) lv₁ lv₂
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absorb-pathMeet'-pathJoin' {Ls = add-via-least l ls} (inj₂ p₁) (inj₁ lv₂)
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= ≈-just (eqPath'-refl ls p₁)
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absorb-pathMeet'-pathJoin' {Ls = add-via-least l {{least}} ls} (inj₁ lv₁) (inj₂ p₂)
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= pathMeet'-idemp {Ls = add-via-least l {{least}} ls} (inj₁ lv₁)
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absorb-pathMeet'-pathJoin' {Ls = add-via-least l@(plt ∷⁺ []) {{MkLayerLeast {{hasLeast = hasLeast}}}} ls} (inj₂ p₁) (inj₂ p₂)
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with pathJoin' ls p₁ p₂ | absorb-pathMeet'-pathJoin' {Ls = ls} p₁ p₂
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... | nothing | _ = ≈-just (eqPath'-refl ls p₁)
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... | just p₁⊓p₂ | p₁⊔p₁p₂≈?p₁
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with pathMeet' ls p₁ p₁⊓p₂ | p₁⊔p₁p₂≈?p₁
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... | just _ | ≈-just p₁⊔p₁p₂≈p₁ = ≈-just p₁⊔p₁p₂≈p₁
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absorb-pathMeet'-pathJoin' {Ls = add-via-greatest l ls {{greatest}}} (inj₁ lv₁) (inj₁ lv₂)
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with lvJoin (toList l) lv₁ lv₂ | absorb-lvMeet-lvJoin (toList l) lv₁ lv₂
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... | nothing | _ = mkTrivial
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... | just lv₁⊓lv₂ | lv₁⊔lv₁lv₂≈?lv₁
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with lvMeet (toList l) lv₁ lv₁⊓lv₂ | lv₁⊔lv₁lv₂≈?lv₁
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... | just _ | ≈-just lv₁⊔lv₁lv₂≈lv₁ = ≈-just lv₁⊔lv₁lv₂≈lv₁
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absorb-pathMeet'-pathJoin' {Ls = add-via-greatest l ls} (inj₂ p₁) (inj₁ lv₂)
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= ≈-just (eqPath'-refl ls p₁)
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absorb-pathMeet'-pathJoin' {Ls = add-via-greatest l ls {{greatest}}} (inj₁ lv₁) (inj₂ p₂)
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= pathMeet'-idemp {Ls = add-via-greatest l ls {{greatest}}} (inj₁ lv₁)
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absorb-pathMeet'-pathJoin' {Ls = Ls@(add-via-greatest l ls)} (inj₂ p₁) (inj₂ p₂)
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= PartialAbsorb-map inj₂ _ _ (λ _ _ x → x) (pathMeet' ls) (pathJoin' ls)
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(pathMeet' Ls) (pathJoin' Ls)
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(λ _ _ → refl) (λ _ _ → refl)
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(absorb-pathMeet'-pathJoin' {Ls = ls}) p₁ p₂
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record _≈_ {a} {Ls : Layers a} (p₁ p₂ : Path Ls) : Set a where
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constructor mk-≈
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field pathEq : eqPath' Ls (Path.path p₁) (Path.path p₂)
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@ -1026,6 +1140,59 @@ instance
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; ≈-⊔-cong = ≈-⊓̇-cong {Ls = Ls}
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}
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⊔̇-⊓̇-absorb : ∀ {a} {Ls : Layers a} → PartialAbsorb (_≈_ {Ls = Ls}) (_⊔̇_ {Ls = Ls}) (_⊓̇_ {Ls = Ls})
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⊔̇-⊓̇-absorb {Ls = Ls} (MkPath p₁) (MkPath p₂)
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= PartialAbsorb-map MkPath _ _ (λ _ _ → mk-≈) (pathJoin' Ls) (pathMeet' Ls)
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(_⊔̇_ {Ls = Ls}) (_⊓̇_ {Ls = Ls})
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(λ _ _ → refl) (λ _ _ → refl)
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(absorb-pathJoin'-pathMeet' {Ls = Ls}) p₁ p₂
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⊓̇-⊔̇-absorb : ∀ {a} {Ls : Layers a} → PartialAbsorb (_≈_ {Ls = Ls}) (_⊓̇_ {Ls = Ls}) (_⊔̇_ {Ls = Ls})
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⊓̇-⊔̇-absorb {Ls = Ls} (MkPath p₁) (MkPath p₂)
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= PartialAbsorb-map MkPath _ _ (λ _ _ → mk-≈) (pathMeet' Ls) (pathJoin' Ls)
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(_⊓̇_ {Ls = Ls}) (_⊔̇_ {Ls = Ls})
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(λ _ _ → refl) (λ _ _ → refl)
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(absorb-pathMeet'-pathJoin' {Ls = Ls}) p₁ p₂
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instance
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Path-IsPartialLattice : ∀ {a} {Ls : Layers a} → IsPartialLattice (_≈_ {Ls = Ls}) (_⊔̇_ {Ls = Ls}) (_⊓̇_ {Ls = Ls})
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Path-IsPartialLattice {Ls = Ls} =
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record
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{ absorb-⊔-⊓ = ⊔̇-⊓̇-absorb {Ls = Ls}
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; absorb-⊓-⊔ = ⊓̇-⊔̇-absorb {Ls = Ls}
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}
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instance
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-- IsLattice-IsPartialLattice : ∀ {a} {A : Set a}
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-- {_≈_ : A → A → Set a} {_⊔_ : A → A → A} {_⊓_ : A → A → A}
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-- {{lA : IsLattice A _≈_ _⊔_ _⊓_}} → IsPartialLattice _≈_ _⊔_ _⊓_
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-- IsLattice-IsPartialLattice = {!!}
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Lattice-PartialLattice : ∀ {a} {A : Set a}
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{{lA : Lattice A }} → PartialLattice A
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Lattice-PartialLattice = {!!}
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Lattice-Least : ∀ {a} {A : Set a}
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{{lA : Lattice A }} → PartialLattice.HasLeastElement (Lattice-PartialLattice {{lA = lA}})
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Lattice-Least = {!!}
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open import Lattice.Unit
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ThreeElements : Set
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ThreeElements = Path (add-via-least ((mkPartialLatticeType ⊤) ∷⁺ []) (add-via-least ((mkPartialLatticeType ⊤) ∷⁺ []) (single ((mkPartialLatticeType ⊤) ∷⁺ []))))
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e₁ : ThreeElements
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e₁ = MkPath (inj₁ (inj₁ tt))
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e₂ : ThreeElements
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e₂ = MkPath (inj₂ (inj₁ (inj₁ tt)))
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e₃ : ThreeElements
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e₃ = MkPath (inj₂ (inj₂ (inj₁ tt)))
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ex1 : e₁ ⊔̇ e₂ ≡ just e₁
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ex1 = refl
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-- data ListValue {a : Level} : List (PartialLatticeType a) → Set (lsuc a) where
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-- here : ∀ {plt : PartialLatticeType a} {pltl : List (PartialLatticeType a)}
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-- (v : PartialLatticeType.EltType plt) → ListValue (plt ∷ pltl)
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