Prove the transport of 'height lattice' property given an isomorphism
Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>
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Isomorphism.agda
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Isomorphism.agda
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module Isomorphism where
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open import Agda.Primitive using (Level) renaming (_⊔_ to _⊔ℓ_)
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open import Function.Definitions using (Inverseˡ; Inverseʳ; Injective)
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open import Lattice
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open import Equivalence
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open import Relation.Binary.Core using (_Preserves_⟶_ )
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open import Data.Nat using (ℕ)
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open import Data.Product using (_,_)
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open import Relation.Nullary using (¬_)
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module TransportFiniteHeight
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{a b : Level} {A : Set a} {B : Set b}
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{_≈₁_ : A → A → Set a} {_≈₂_ : B → B → Set b}
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{_⊔₁_ : A → A → A} {_⊔₂_ : B → B → B}
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{_⊓₁_ : A → A → A} {_⊓₂_ : B → B → B}
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{height : ℕ}
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(fhlA : IsFiniteHeightLattice A height _≈₁_ _⊔₁_ _⊓₁_) (lB : IsLattice B _≈₂_ _⊔₂_ _⊓₂_)
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{f : A → B} {g : B → A}
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(f-preserves-≈₁ : f Preserves _≈₁_ ⟶ _≈₂_) (g-preserves-≈₂ : g Preserves _≈₂_ ⟶ _≈₁_)
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(f-⊔-distr : ∀ (a₁ a₂ : A) → f (a₁ ⊔₁ a₂) ≈₂ ((f a₁) ⊔₂ (f a₂)))
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(g-⊔-distr : ∀ (b₁ b₂ : B) → g (b₁ ⊔₂ b₂) ≈₁ ((g b₁) ⊔₁ (g b₂)))
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(inverseˡ : Inverseˡ _≈₁_ _≈₂_ f g) (inverseʳ : Inverseʳ _≈₁_ _≈₂_ f g) where
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open IsFiniteHeightLattice fhlA using () renaming (_≺_ to _≺₁_; ≺-cong to ≺₁-cong; ≈-equiv to ≈₁-equiv)
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open IsLattice lB using () renaming (_≺_ to _≺₂_; ≺-cong to ≺₂-cong; ≈-equiv to ≈₂-equiv)
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open IsEquivalence ≈₁-equiv using () renaming (≈-sym to ≈₁-sym; ≈-trans to ≈₁-trans)
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open IsEquivalence ≈₂-equiv using () renaming (≈-sym to ≈₂-sym; ≈-trans to ≈₂-trans)
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open import Chain _≈₁_ ≈₁-equiv _≺₁_ ≺₁-cong using () renaming (Chain to Chain₁; done to done₁; step to step₁)
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open import Chain _≈₂_ ≈₂-equiv _≺₂_ ≺₂-cong using () renaming (Chain to Chain₂; done to done₂; step to step₂)
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f-Injective : Injective _≈₁_ _≈₂_ f
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f-Injective {x} {y} fx≈fy = ≈₁-trans (≈₁-sym (inverseʳ x)) (≈₁-trans (g-preserves-≈₂ fx≈fy) (inverseʳ y))
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g-Injective : Injective _≈₂_ _≈₁_ g
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g-Injective {x} {y} gx≈gy = ≈₂-trans (≈₂-sym (inverseˡ x)) (≈₂-trans (f-preserves-≈₁ gx≈gy) (inverseˡ y))
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f-preserves-̷≈ : f Preserves (λ x y → ¬ x ≈₁ y) ⟶ (λ x y → ¬ x ≈₂ y)
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f-preserves-̷≈ x̷≈y = λ fx≈fy → x̷≈y (f-Injective fx≈fy)
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g-preserves-̷≈ : g Preserves (λ x y → ¬ x ≈₂ y) ⟶ (λ x y → ¬ x ≈₁ y)
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g-preserves-̷≈ x̷≈y = λ gx≈gy → x̷≈y (g-Injective gx≈gy)
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portChain₁ : ∀ {a₁ a₂ : A} {h : ℕ} → Chain₁ a₁ a₂ h → Chain₂ (f a₁) (f a₂) h
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portChain₁ (done₁ a₁≈a₂) = done₂ (f-preserves-≈₁ a₁≈a₂)
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portChain₁ (step₁ {a₁} {a₂} (a₁≼a₂ , a₁̷≈a₂) a₂≈a₂' c) = step₂ (≈₂-trans (≈₂-sym (f-⊔-distr a₁ a₂)) (f-preserves-≈₁ a₁≼a₂) , f-preserves-̷≈ a₁̷≈a₂) (f-preserves-≈₁ a₂≈a₂') (portChain₁ c)
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portChain₂ : ∀ {b₁ b₂ : B} {h : ℕ} → Chain₂ b₁ b₂ h → Chain₁ (g b₁) (g b₂) h
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portChain₂ (done₂ a₂≈a₁) = done₁ (g-preserves-≈₂ a₂≈a₁)
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portChain₂ (step₂ {b₁} {b₂} (b₁≼b₂ , b₁̷≈b₂) b₂≈b₂' c) = step₁ (≈₁-trans (≈₁-sym (g-⊔-distr b₁ b₂)) (g-preserves-≈₂ b₁≼b₂) , g-preserves-̷≈ b₁̷≈b₂) (g-preserves-≈₂ b₂≈b₂') (portChain₂ c)
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isFiniteHeightLattice : IsFiniteHeightLattice B height _≈₂_ _⊔₂_ _⊓₂_
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isFiniteHeightLattice =
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let
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(((a₁ , a₂) , c) , bounded₁) = IsFiniteHeightLattice.fixedHeight fhlA
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in record
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{ isLattice = lB
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; fixedHeight = (((f a₁ , f a₂), portChain₁ c) , λ c' → bounded₁ (portChain₂ c'))
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}
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