/- Copyright (c) 2015 Floris van Doorn. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Authors: Floris van Doorn Declaration of set-quotients -/ import .type_quotient .trunc open eq is_trunc trunc type_quotient equiv namespace quotient section parameters {A : Type} (R : A → A → hprop) -- set-quotients are just truncations of type-quotients definition quotient : Type := trunc 0 (type_quotient (λa a', trunctype.carrier (R a a'))) definition class_of (a : A) : quotient := tr (class_of _ a) definition eq_of_rel {a a' : A} (H : R a a') : class_of a = class_of a' := ap tr (eq_of_rel _ H) theorem is_hset_quotient : is_hset quotient := begin unfold quotient, exact _ end protected definition rec {P : quotient → Type} [Pt : Πaa, is_hset (P aa)] (Pc : Π(a : A), P (class_of a)) (Pp : Π⦃a a' : A⦄ (H : R a a'), Pc a =[eq_of_rel H] Pc a') (x : quotient) : P x := begin apply (@trunc.rec_on _ _ P x), { intro x', apply Pt}, { intro y, fapply (type_quotient.rec_on y), { exact Pc}, { intros, apply equiv.to_inv !(pathover_compose _ tr), apply Pp}} end protected definition rec_on [reducible] {P : quotient → Type} (x : quotient) [Pt : Πaa, is_hset (P aa)] (Pc : Π(a : A), P (class_of a)) (Pp : Π⦃a a' : A⦄ (H : R a a'), Pc a =[eq_of_rel H] Pc a') : P x := rec Pc Pp x theorem rec_eq_of_rel {P : quotient → Type} [Pt : Πaa, is_hset (P aa)] (Pc : Π(a : A), P (class_of a)) (Pp : Π⦃a a' : A⦄ (H : R a a'), Pc a =[eq_of_rel H] Pc a') {a a' : A} (H : R a a') : apdo (rec Pc Pp) (eq_of_rel H) = Pp H := !is_hset.elimo protected definition elim {P : Type} [Pt : is_hset P] (Pc : A → P) (Pp : Π⦃a a' : A⦄ (H : R a a'), Pc a = Pc a') (x : quotient) : P := rec Pc (λa a' H, pathover_of_eq (Pp H)) x protected definition elim_on [reducible] {P : Type} (x : quotient) [Pt : is_hset P] (Pc : A → P) (Pp : Π⦃a a' : A⦄ (H : R a a'), Pc a = Pc a') : P := elim Pc Pp x theorem elim_eq_of_rel {P : Type} [Pt : is_hset P] (Pc : A → P) (Pp : Π⦃a a' : A⦄ (H : R a a'), Pc a = Pc a') {a a' : A} (H : R a a') : ap (elim Pc Pp) (eq_of_rel H) = Pp H := begin apply eq_of_fn_eq_fn_inv !(pathover_constant (eq_of_rel H)), rewrite [▸*,-apdo_eq_pathover_of_eq_ap,↑elim,rec_eq_of_rel], end /- there are no theorems to eliminate to the universe here, because the universe is generally not a set -/ end end quotient attribute quotient.class_of [constructor] attribute quotient.rec quotient.elim [unfold-c 7] [recursor 7] attribute quotient.rec_on quotient.elim_on [unfold-c 4]