161 lines
6.0 KiB
Agda
161 lines
6.0 KiB
Agda
open import Lattice
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-- Due to universe levels, it becomes relatively annoying to handle the case
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-- where the levels of A and B are not the same. For the time being, constrain
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-- them to be the same.
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module Lattice.IterProd {a} {A B : Set a}
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(_≈₁_ : A → A → Set a) (_≈₂_ : B → B → Set a)
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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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(lA : IsLattice A _≈₁_ _⊔₁_ _⊓₁_) (lB : IsLattice B _≈₂_ _⊔₂_ _⊓₂_) where
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open import Agda.Primitive using (lsuc)
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open import Data.Nat using (ℕ; zero; suc; _+_)
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open import Data.Product using (_×_; _,_; proj₁; proj₂)
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open import Utils using (iterate)
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open import Chain using (Height)
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open IsLattice lA renaming (FixedHeight to FixedHeight₁)
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open IsLattice lB renaming (FixedHeight to FixedHeight₂)
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IterProd : ℕ → Set a
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IterProd k = iterate k (λ t → A × t) B
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-- To make iteration more convenient, package the definitions in Lattice
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-- records, perform the recursion, and unpackage.
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--
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-- If we prove isLattice and isFiniteHeightLattice by induction separately,
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-- we lose the connection between the operations (which should be the same)
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-- that are built up by the two iterations. So, do everything in one iteration.
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-- This requires some odd code.
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build : A → B → (k : ℕ) → IterProd k
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build _ b zero = b
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build a b (suc s) = (a , build a b s)
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private
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record RequiredForFixedHeight : Set (lsuc a) where
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field
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≈₁-dec : IsDecidable _≈₁_
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≈₂-dec : IsDecidable _≈₂_
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h₁ h₂ : ℕ
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fhA : FixedHeight₁ h₁
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fhB : FixedHeight₂ h₂
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⊥₁ : A
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⊥₁ = Height.⊥ fhA
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⊥₂ : B
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⊥₂ = Height.⊥ fhB
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⊥k : ∀ (k : ℕ) → IterProd k
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⊥k = build ⊥₁ ⊥₂
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record IsFiniteHeightWithBotAndDecEq {A : Set a} {_≈_ : A → A → Set a} {_⊔_ : A → A → A} {_⊓_ : A → A → A} (isLattice : IsLattice A _≈_ _⊔_ _⊓_) (⊥ : A) : Set (lsuc a) where
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field
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height : ℕ
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fixedHeight : IsLattice.FixedHeight isLattice height
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≈-dec : IsDecidable _≈_
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⊥-correct : Height.⊥ fixedHeight ≈ ⊥
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record Everything (k : ℕ) : Set (lsuc a) where
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T = IterProd k
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field
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_≈_ : T → T → Set a
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_⊔_ : T → T → T
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_⊓_ : T → T → T
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isLattice : IsLattice T _≈_ _⊔_ _⊓_
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isFiniteHeightIfSupported :
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∀ (req : RequiredForFixedHeight) →
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IsFiniteHeightWithBotAndDecEq isLattice (RequiredForFixedHeight.⊥k req k)
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everything : ∀ (k : ℕ) → Everything k
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everything 0 = record
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{ _≈_ = _≈₂_
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; _⊔_ = _⊔₂_
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; _⊓_ = _⊓₂_
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; isLattice = lB
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; isFiniteHeightIfSupported = λ req → record
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{ height = RequiredForFixedHeight.h₂ req
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; fixedHeight = RequiredForFixedHeight.fhB req
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; ≈-dec = RequiredForFixedHeight.≈₂-dec req
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; ⊥-correct = IsLattice.≈-refl lB
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}
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}
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everything (suc k') = record
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{ _≈_ = P._≈_
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; _⊔_ = P._⊔_
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; _⊓_ = P._⊓_
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; isLattice = P.isLattice
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; isFiniteHeightIfSupported = λ req →
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let
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fhlRest = Everything.isFiniteHeightIfSupported everythingRest req
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in
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record
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{ height = (RequiredForFixedHeight.h₁ req) + IsFiniteHeightWithBotAndDecEq.height fhlRest
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; fixedHeight =
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P.fixedHeight
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(RequiredForFixedHeight.≈₁-dec req) (IsFiniteHeightWithBotAndDecEq.≈-dec fhlRest)
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(RequiredForFixedHeight.h₁ req) (IsFiniteHeightWithBotAndDecEq.height fhlRest)
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(RequiredForFixedHeight.fhA req) (IsFiniteHeightWithBotAndDecEq.fixedHeight fhlRest)
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; ≈-dec = P.≈-dec (RequiredForFixedHeight.≈₁-dec req) (IsFiniteHeightWithBotAndDecEq.≈-dec fhlRest)
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; ⊥-correct = (IsLattice.≈-refl lA , IsFiniteHeightWithBotAndDecEq.⊥-correct fhlRest)
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}
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}
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where
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everythingRest = everything k'
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import Lattice.Prod
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_≈₁_ (Everything._≈_ everythingRest)
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_⊔₁_ (Everything._⊔_ everythingRest)
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_⊓₁_ (Everything._⊓_ everythingRest)
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lA (Everything.isLattice everythingRest) as P
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module _ (k : ℕ) where
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open Everything (everything k) using (_≈_; _⊔_; _⊓_; isLattice) public
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open Lattice.IsLattice isLattice public
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lattice : Lattice (IterProd k)
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lattice = record
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{ _≈_ = _≈_
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; _⊔_ = _⊔_
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; _⊓_ = _⊓_
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; isLattice = isLattice
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}
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module _ (≈₁-dec : IsDecidable _≈₁_) (≈₂-dec : IsDecidable _≈₂_)
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(h₁ h₂ : ℕ)
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(fhA : FixedHeight₁ h₁) (fhB : FixedHeight₂ h₂) where
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private
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required : RequiredForFixedHeight
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required = record
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{ ≈₁-dec = ≈₁-dec
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; ≈₂-dec = ≈₂-dec
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; h₁ = h₁
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; h₂ = h₂
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; fhA = fhA
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; fhB = fhB
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}
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fixedHeight = IsFiniteHeightWithBotAndDecEq.fixedHeight (Everything.isFiniteHeightIfSupported (everything k) required)
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isFiniteHeightLattice = record
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{ isLattice = isLattice
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; fixedHeight = fixedHeight
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}
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finiteHeightLattice : FiniteHeightLattice (IterProd k)
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finiteHeightLattice = record
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{ height = IsFiniteHeightWithBotAndDecEq.height (Everything.isFiniteHeightIfSupported (everything k) required)
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; _≈_ = _≈_
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; _⊔_ = _⊔_
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; _⊓_ = _⊓_
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; isFiniteHeightLattice = isFiniteHeightLattice
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}
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