/- Copyright (c) 2014 Jakob von Raumer. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Module: init.axioms.ua Author: Jakob von Raumer Ported from Coq HoTT -/ prelude import ..path ..equiv open eq equiv is_equiv --Ensure that the types compared are in the same universe section universe variable l variables {A B : Type.{l}} definition is_equiv_tr_of_eq (H : A = B) : is_equiv (transport (λX:Type, X) H) := (@is_equiv_tr Type (λX, X) A B H) definition equiv_of_eq (H : A = B) : A ≃ B := equiv.mk _ (is_equiv_tr_of_eq H) end axiom univalence (A B : Type) : is_equiv (@equiv_of_eq A B) attribute univalence [instance] -- This is the version of univalence axiom we will probably use most often definition ua {A B : Type} : A ≃ B → A = B := (@equiv_of_eq A B)⁻¹ -- One consequence of UA is that we can transport along equivalencies of types namespace equiv universe variable l protected definition transport_of_equiv (P : Type → Type) {A B : Type.{l}} (H : A ≃ B) : P A → P B := eq.transport P (ua H) -- We can use this for calculation evironments calc_subst transport_of_equiv definition rec_on_of_equiv_of_eq {A B : Type} {P : (A ≃ B) → Type} (p : A ≃ B) (H : Π(q : A = B), P (equiv_of_eq q)) : P p := retr equiv_of_eq p ▹ H (ua p) end equiv