lean2/hott/hit/cylinder.hlean

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/-
Copyright (c) 2015 Floris van Doorn. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Module: hit.cylinder
Authors: Floris van Doorn
Declaration of mapping cylinders
-/
import .type_quotient
open type_quotient eq sum equiv equiv.ops
namespace cylinder
section
universe u
parameters {A B : Type.{u}} (f : A → B)
local abbreviation C := B + A
inductive cylinder_rel : C → C → Type :=
| Rmk : Π(a : A), cylinder_rel (inl (f a)) (inr a)
open cylinder_rel
local abbreviation R := cylinder_rel
definition cylinder := type_quotient cylinder_rel -- TODO: define this in root namespace
definition base (b : B) : cylinder :=
class_of R (inl b)
definition top (a : A) : cylinder :=
class_of R (inr a)
definition seg (a : A) : base (f a) = top a :=
eq_of_rel cylinder_rel (Rmk f a)
protected definition rec {P : cylinder → Type}
(Pbase : Π(b : B), P (base b)) (Ptop : Π(a : A), P (top a))
(Pseg : Π(a : A), seg a ▸ Pbase (f a) = Ptop a) (x : cylinder) : P x :=
begin
fapply (type_quotient.rec_on x),
{ intro a, cases a,
apply Pbase,
apply Ptop},
{ intro a a' H, cases H, apply Pseg}
end
protected definition rec_on [reducible] {P : cylinder → Type} (x : cylinder)
(Pbase : Π(b : B), P (base b)) (Ptop : Π(a : A), P (top a))
(Pseg : Π(a : A), seg a ▸ Pbase (f a) = Ptop a) : P x :=
rec Pbase Ptop Pseg x
theorem rec_seg {P : cylinder → Type}
(Pbase : Π(b : B), P (base b)) (Ptop : Π(a : A), P (top a))
(Pseg : Π(a : A), seg a ▸ Pbase (f a) = Ptop a)
(a : A) : apd (rec Pbase Ptop Pseg) (seg a) = Pseg a :=
!rec_eq_of_rel
protected definition elim {P : Type} (Pbase : B → P) (Ptop : A → P)
(Pseg : Π(a : A), Pbase (f a) = Ptop a) (x : cylinder) : P :=
rec Pbase Ptop (λa, !tr_constant ⬝ Pseg a) x
protected definition elim_on [reducible] {P : Type} (x : cylinder) (Pbase : B → P) (Ptop : A → P)
(Pseg : Π(a : A), Pbase (f a) = Ptop a) : P :=
elim Pbase Ptop Pseg x
theorem elim_seg {P : Type} (Pbase : B → P) (Ptop : A → P)
(Pseg : Π(a : A), Pbase (f a) = Ptop a)
(a : A) : ap (elim Pbase Ptop Pseg) (seg a) = Pseg a :=
begin
apply (@cancel_left _ _ _ _ (tr_constant (seg a) (elim Pbase Ptop Pseg (base (f a))))),
rewrite [-apd_eq_tr_constant_con_ap,↑elim,rec_seg],
end
protected definition elim_type (Pbase : B → Type) (Ptop : A → Type)
(Pseg : Π(a : A), Pbase (f a) ≃ Ptop a) (x : cylinder) : Type :=
elim Pbase Ptop (λa, ua (Pseg a)) x
protected definition elim_type_on [reducible] (x : cylinder) (Pbase : B → Type) (Ptop : A → Type)
(Pseg : Π(a : A), Pbase (f a) ≃ Ptop a) : Type :=
elim_type Pbase Ptop Pseg x
theorem elim_type_seg (Pbase : B → Type) (Ptop : A → Type)
(Pseg : Π(a : A), Pbase (f a) ≃ Ptop a)
(a : A) : transport (elim_type Pbase Ptop Pseg) (seg a) = Pseg a :=
by rewrite [tr_eq_cast_ap_fn,↑elim_type,elim_seg];apply cast_ua_fn
end
end cylinder