/- Copyright (c) 2015 Microsoft Corporation. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Module: init.quot Author: Leonardo de Moura Quotient types. -/ prelude import init.sigma init.setoid init.logic open sigma.ops setoid constant quot.{l} : Π {A : Type.{l}}, setoid A → Type.{l} -- Remark: if we do not use propext here, then we would need a quot.lift for propositions. constant propext {a b : Prop} : (a ↔ b) → a = b namespace quot constant mk : Π {A : Type} [s : setoid A], A → quot s notation `⟦`:max a `⟧`:0 := mk a constant sound : Π {A : Type} [s : setoid A] {a b : A}, a ≈ b → ⟦a⟧ = ⟦b⟧ constant exact : Π {A : Type} [s : setoid A] {a b : A}, ⟦a⟧ = ⟦b⟧ → a ≈ b constant lift : Π {A B : Type} [s : setoid A] (f : A → B), (∀ a b, a ≈ b → f a = f b) → quot s → B constant ind : ∀ {A : Type} [s : setoid A] {B : quot s → Prop}, (∀ a, B ⟦a⟧) → ∀ q, B q init_quotient protected theorem lift_beta {A B : Type} [s : setoid A] (f : A → B) (c : ∀ a b, a ≈ b → f a = f b) (a : A) : lift f c ⟦a⟧ = f a := rfl protected theorem ind_beta {A : Type} [s : setoid A] {B : quot s → Prop} (p : ∀ a, B ⟦a⟧) (a : A) : ind p ⟦a⟧ = p a := rfl protected definition lift_on [reducible] {A B : Type} [s : setoid A] (q : quot s) (f : A → B) (c : ∀ a b, a ≈ b → f a = f b) : B := lift f c q protected theorem induction_on {A : Type} [s : setoid A] {B : quot s → Prop} (q : quot s) (H : ∀ a, B ⟦a⟧) : B q := ind H q section variable {A : Type} variable [s : setoid A] variable {B : quot s → Type} include s protected definition indep [reducible] (f : Π a, B ⟦a⟧) (a : A) : Σ q, B q := ⟨⟦a⟧, f a⟩ protected lemma indep_coherent (f : Π a, B ⟦a⟧) (H : ∀ (a b : A) (p : a ≈ b), eq.rec (f a) (sound p) = f b) : ∀ a b, a ≈ b → indep f a = indep f b := λa b e, sigma.equal (sound e) (H a b e) protected lemma lift_indep_pr1 (f : Π a, B ⟦a⟧) (H : ∀ (a b : A) (p : a ≈ b), eq.rec (f a) (sound p) = f b) (q : quot s) : (lift (indep f) (indep_coherent f H) q).1 = q := ind (λ a, by esimp) q protected definition rec [reducible] (f : Π a, B ⟦a⟧) (H : ∀ (a b : A) (p : a ≈ b), eq.rec (f a) (sound p) = f b) (q : quot s) : B q := let p := lift (indep f) (indep_coherent f H) q in eq.rec_on (lift_indep_pr1 f H q) (p.2) protected definition rec_on [reducible] (q : quot s) (f : Π a, B ⟦a⟧) (H : ∀ (a b : A) (p : a ≈ b), eq.rec (f a) (sound p) = f b) : B q := rec f H q protected definition rec_on_subsingleton [reducible] [H : ∀ a, subsingleton (B ⟦a⟧)] (q : quot s) (f : Π a, B ⟦a⟧) : B q := rec f (λ a b h, !subsingleton.elim) q end section variables {A B C : Type} variables [s₁ : setoid A] [s₂ : setoid B] include s₁ s₂ protected definition lift₂ [reducible] (f : A → B → C)(c : ∀ a₁ a₂ b₁ b₂, a₁ ≈ b₁ → a₂ ≈ b₂ → f a₁ a₂ = f b₁ b₂) (q₁ : quot s₁) (q₂ : quot s₂) : C := lift (λ a₁, lift (λ a₂, f a₁ a₂) (λ a b H, c a₁ a a₁ b (setoid.refl a₁) H) q₂) (λ a b H, ind (λ a', proof c a a' b a' H (setoid.refl a') qed) q₂) q₁ protected definition lift_on₂ [reducible] (q₁ : quot s₁) (q₂ : quot s₂) (f : A → B → C) (c : ∀ a₁ a₂ b₁ b₂, a₁ ≈ b₁ → a₂ ≈ b₂ → f a₁ a₂ = f b₁ b₂) : C := lift₂ f c q₁ q₂ protected theorem ind₂ {C : quot s₁ → quot s₂ → Prop} (H : ∀ a b, C ⟦a⟧ ⟦b⟧) (q₁ : quot s₁) (q₂ : quot s₂) : C q₁ q₂ := quot.ind (λ a₁, quot.ind (λ a₂, H a₁ a₂) q₂) q₁ protected theorem induction_on₂ {C : quot s₁ → quot s₂ → Prop} (q₁ : quot s₁) (q₂ : quot s₂) (H : ∀ a b, C ⟦a⟧ ⟦b⟧) : C q₁ q₂ := quot.ind (λ a₁, quot.ind (λ a₂, H a₁ a₂) q₂) q₁ protected theorem induction_on₃ [s₃ : setoid C] {D : quot s₁ → quot s₂ → quot s₃ → Prop} (q₁ : quot s₁) (q₂ : quot s₂) (q₃ : quot s₃) (H : ∀ a b c, D ⟦a⟧ ⟦b⟧ ⟦c⟧) : D q₁ q₂ q₃ := quot.ind (λ a₁, quot.ind (λ a₂, quot.ind (λ a₃, H a₁ a₂ a₃) q₃) q₂) q₁ end section variables {A B : Type} variables [s₁ : setoid A] [s₂ : setoid B] include s₁ s₂ variable {C : quot s₁ → quot s₂ → Type} protected definition rec_on_subsingleton₂ [reducible] {C : quot s₁ → quot s₂ → Type₁} [H : ∀ a b, subsingleton (C ⟦a⟧ ⟦b⟧)] (q₁ : quot s₁) (q₂ : quot s₂) (f : Π a b, C ⟦a⟧ ⟦b⟧) : C q₁ q₂:= @quot.rec_on_subsingleton _ _ _ (λ a, quot.ind _ _) q₁ (λ a, quot.rec_on_subsingleton q₂ (λ b, f a b)) end end quot