From 11c0a5f856037394c880d98fd8e33937dabd518f Mon Sep 17 00:00:00 2001 From: depsterr Date: Thu, 23 Jun 2022 22:10:35 +0200 Subject: [PATCH] update --- misc/wlpo.agda | 109 ------------------------------------------------- 1 file changed, 109 deletions(-) delete mode 100644 misc/wlpo.agda diff --git a/misc/wlpo.agda b/misc/wlpo.agda deleted file mode 100644 index 2ff556a..0000000 --- a/misc/wlpo.agda +++ /dev/null @@ -1,109 +0,0 @@ -{-# OPTIONS --safe --without-K #-} - -open import Agda.Primitive renaming (Set to 𝒰) -open import Agda.Builtin.Nat renaming (Nat to ℕ) hiding (_+_) -open import Agda.Builtin.Bool renaming (Bool to 𝟚; false to 𝟘; true to 𝟙) -open import Agda.Builtin.Equality using (_≡_; refl) -open import Function using (_∘_; const) - -{- Variables -} -variable - ₙ : Level - ₘ : Level - A : 𝒰 ₙ - B : 𝒰 ₙ - C : 𝒰 ₙ - -{- Types -} - -data ⊥ : 𝒰₀ where - -infixr 8 ¬_ -¬_ : 𝒰 ₙ → 𝒰 ₙ -¬ p = p → ⊥ - -infixr 2 _+_ -data _+_ (A : 𝒰 ₙ) (B : 𝒰 ₘ) : 𝒰 (ₙ ⊔ ₘ) where - inl : A → A + B - inr : B → A + B - -binary-sequence : 𝒰₀ -binary-sequence = ℕ → 𝟚 - -all-zeros : binary-sequence → 𝒰₀ -all-zeros α = (n : ℕ) → α n ≡ 𝟘 - -has-WLPO : binary-sequence → 𝒰₀ -has-WLPO α = all-zeros α + ¬ (all-zeros α) - -WLPO : 𝒰₀ -WLPO = (α : binary-sequence) → has-WLPO α - -at-most-one-one : binary-sequence → 𝒰₀ -at-most-one-one α = (a b : ℕ) → α a ≡ 𝟙 → α b ≡ 𝟙 → a ≡ b - --- needed for LLPO -dup : ℕ → ℕ -dup 0 = 0 -dup (suc n) = suc (suc (dup n)) - -evens : ℕ → ℕ -evens = dup - -odds : ℕ → ℕ -odds = suc ∘ dup - -LLPO : 𝒰₀ -LLPO = (α : binary-sequence) → at-most-one-one α → all-zeros (α ∘ evens) + all-zeros (α ∘ odds) - -{- Eliminators -} -⊥-elim : ⊥ → A -⊥-elim () - -+-elim : A + B → (A → C) → (B → C) → C -+-elim (inl a) f _ = f a -+-elim (inr b) _ g = g b - --- A bit funky, but comes in handy -𝟚-elim : (C : 𝟚 → 𝒰 ₙ) → (b : 𝟚) → (b ≡ 𝟘 → C 𝟘) → (b ≡ 𝟙 → C 𝟙) → C b -𝟚-elim _ 𝟘 z _ = z refl -𝟚-elim _ 𝟙 _ o = o refl - -{- Lemmas -} - --- I think this is a bit ugly, but it works and I'm tired -e≢o : {n m : ℕ} → ¬ (evens n ≡ odds m) -e≢o {zero} {zero} () -e≢o {zero} {suc m} () -e≢o {suc n} {zero} () -e≢o {suc n} {suc m} p = e≢o {n} {m} (ds (tr (he n) (ho m) p)) - where - he : (q : ℕ) → evens (suc q) ≡ suc (suc (evens q)) - he _ = refl - - ho : (q : ℕ) → odds (suc q) ≡ suc (suc (odds q)) - ho _ = refl - - tr : ∀ {a b c d : ℕ} → a ≡ b → c ≡ d → a ≡ c → b ≡ d - tr refl refl refl = refl - - ds : ∀ {q r : ℕ} → suc (suc q) ≡ suc (suc r) → q ≡ r - ds {zero} {zero} _ = refl - ds {suc q} {suc r} refl = refl - - -lemma : (α : binary-sequence) → at-most-one-one α → ¬ all-zeros (α ∘ evens) → all-zeros (α ∘ odds) -lemma α am11 na0e i = 𝟚-elim (_≡ 𝟘) ((α ∘ odds) i) - (const refl) - (λ p₁ → ⊥-elim (na0e (λ j → 𝟚-elim (_≡ 𝟘) ((α ∘ evens) j) - (const refl) - (λ p₂ → ⊥-elim (e≢o (am11 (evens j) (odds i) p₂ p₁)))))) - - -{- The main dish -} -WLPO→LLPO : WLPO → LLPO -WLPO→LLPO wlpo α am11 = +-elim (wlpo (α ∘ evens)) - inl - (λ na0e → +-elim (wlpo (α ∘ odds)) - inr - (λ na0o → ⊥-elim (na0o (lemma α am11 na0e))))