79 lines
3.2 KiB
Agda
79 lines
3.2 KiB
Agda
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module Equivalence where
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open import Data.Product using (_×_; Σ; _,_; proj₁; proj₂)
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open import Relation.Binary.Definitions
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open import Relation.Binary.PropositionalEquality as Eq using (_≡_; sym)
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record IsEquivalence {a} (A : Set a) (_≈_ : A → A → Set a) : Set a where
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field
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≈-refl : {a : A} → a ≈ a
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≈-sym : {a b : A} → a ≈ b → b ≈ a
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≈-trans : {a b c : A} → a ≈ b → b ≈ c → a ≈ c
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module IsEquivalenceInstances where
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module ForProd {a} {A B : Set a}
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(_≈₁_ : A → A → Set a) (_≈₂_ : B → B → Set a)
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(eA : IsEquivalence A _≈₁_) (eB : IsEquivalence B _≈₂_) where
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infix 4 _≈_
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_≈_ : A × B → A × B → Set a
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(a₁ , b₁) ≈ (a₂ , b₂) = (a₁ ≈₁ a₂) × (b₁ ≈₂ b₂)
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ProdEquivalence : IsEquivalence (A × B) _≈_
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ProdEquivalence = record
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{ ≈-refl = λ {p} →
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( IsEquivalence.≈-refl eA
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, IsEquivalence.≈-refl eB
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)
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; ≈-sym = λ {p₁} {p₂} (a₁≈a₂ , b₁≈b₂) →
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( IsEquivalence.≈-sym eA a₁≈a₂
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, IsEquivalence.≈-sym eB b₁≈b₂
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)
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; ≈-trans = λ {p₁} {p₂} {p₃} (a₁≈a₂ , b₁≈b₂) (a₂≈a₃ , b₂≈b₃) →
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( IsEquivalence.≈-trans eA a₁≈a₂ a₂≈a₃
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, IsEquivalence.≈-trans eB b₁≈b₂ b₂≈b₃
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)
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}
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module ForMap {a b} (A : Set a) (B : Set b)
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(≡-dec-A : Decidable (_≡_ {a} {A}))
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(_≈₂_ : B → B → Set b)
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(eB : IsEquivalence B _≈₂_) where
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open import Map A B ≡-dec-A using (Map; lift; subset)
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open import Data.List using (_∷_; []) -- TODO: re-export these with nicer names from map
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open IsEquivalence eB renaming
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( ≈-refl to ≈₂-refl
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; ≈-sym to ≈₂-sym
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; ≈-trans to ≈₂-trans
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)
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_≈_ : Map → Map → Set (Agda.Primitive._⊔_ a b)
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_≈_ = lift _≈₂_
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_⊆_ : Map → Map → Set (Agda.Primitive._⊔_ a b)
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_⊆_ = subset _≈₂_
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private
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⊆-refl : (m : Map) → m ⊆ m
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⊆-refl _ k v k,v∈m = (v , (≈₂-refl , k,v∈m))
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⊆-trans : (m₁ m₂ m₃ : Map) → m₁ ⊆ m₂ → m₂ ⊆ m₃ → m₁ ⊆ m₃
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⊆-trans _ _ _ m₁⊆m₂ m₂⊆m₃ k v k,v∈m₁ =
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let
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(v' , (v≈v' , k,v'∈m₂)) = m₁⊆m₂ k v k,v∈m₁
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(v'' , (v'≈v'' , k,v''∈m₃)) = m₂⊆m₃ k v' k,v'∈m₂
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in (v'' , (≈₂-trans v≈v' v'≈v'' , k,v''∈m₃))
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LiftEquivalence : IsEquivalence Map _≈_
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LiftEquivalence = record
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{ ≈-refl = λ {m} → (⊆-refl m , ⊆-refl m)
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; ≈-sym = λ {m₁} {m₂} (m₁⊆m₂ , m₂⊆m₁) → (m₂⊆m₁ , m₁⊆m₂)
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; ≈-trans = λ {m₁} {m₂} {m₃} (m₁⊆m₂ , m₂⊆m₁) (m₂⊆m₃ , m₃⊆m₂) →
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( ⊆-trans m₁ m₂ m₃ m₁⊆m₂ m₂⊆m₃
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, ⊆-trans m₃ m₂ m₁ m₃⊆m₂ m₂⊆m₁
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)
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}
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