From 2f160087008459e5d8a8f4586df01a8b653cd942 Mon Sep 17 00:00:00 2001 From: Ulrik Buchholtz Date: Fri, 26 Oct 2018 16:51:42 +0200 Subject: [PATCH] no longer working on truncatedness of suspensions of pointed sets (: - still some clean-up to do --- homotopy/susp_pset.hlean | 55 ++++++++++++++++++++-------------------- 1 file changed, 28 insertions(+), 27 deletions(-) diff --git a/homotopy/susp_pset.hlean b/homotopy/susp_pset.hlean index 9539ec7..c2956d2 100644 --- a/homotopy/susp_pset.hlean +++ b/homotopy/susp_pset.hlean @@ -8,7 +8,30 @@ import algebra.group_theory hit.set_quotient types.list homotopy.vankampen homotopy.susp .pushout ..algebra.free_group open eq pointed equiv is_equiv is_trunc set_quotient sum list susp trunc algebra - group pi pushout is_conn fiber unit function category paths + group pi pushout is_conn fiber unit function paths + +-- TODO: move to lib +namespace category + open iso + + definition Groupoid_opposite [constructor] (C : Groupoid) : Groupoid := + groupoid.MK (Opposite C) (λ x y f, @is_iso.mk _ (Opposite C) x y f + (@is_iso.inverse _ C y x f ((@groupoid.all_iso _ C y x f))) + (@is_iso.right_inverse _ C y x f ((@groupoid.all_iso _ C y x f))) + (@is_iso.left_inverse _ C y x f ((@groupoid.all_iso _ C y x f)))) + + definition hom_Group (C : Groupoid) (x : C) : Group := + Group.mk (hom x x) (hom_group x) + + definition fundamental_hom_group (A : Type*) : hom_Group (Groupoid_opposite (Π₁ A)) (Point A) ≃g π₁ A := + begin + fapply isomorphism_of_equiv, + { reflexivity }, + { intros p q, reflexivity } + end + + -- [H : is_conn 0 A] : Groupoid_opposite (Π₁ A) ≃c Groupoid_of_Group (π₁ A) +end category open category -- special purpose lemmas definition tr_trunc_eq (A : Type) (a : A) {x y : A} (p : x = y) (q : x = a) @@ -27,25 +50,10 @@ namespace susp local abbreviation N : C := inl star local abbreviation S : C := inr star --- local notation `N` := a - - -- hom group of fundamental groupoid is fundamental group - -- the fundamental group of the suspension is the free group on A - -- could go via van Kampen, but would have to compose with opposite, which is not so well developed + -- this goes via Groupoid_opposite (Π₁ (⅀ A)) ≃c Groupoid_of_Group (free_group A) -- definition fundamental_group_of_susp : π₁(⅀ A) ≃g free_group A := -- sorry - /- - van Kampen instead? - - game plan: -1. lift to 1-connected cover -2. apply flattening lemma -3. provide equivalences F A ≃ ∥N = N∥ ≃ ∥S = N∥ -4. move to is_contr -5. induction induction induction! - -/ - definition pglueNS (a : A) : hom N S := class_of [ bpushout_prehom_index.DE (@id A) F F a ] @@ -58,10 +66,6 @@ namespace susp definition g : A × trunc 0 (@susp.north A = @susp.north A) → trunc 0 (@susp.south A = @susp.north A) := prod.rec (λ a p, tconcat (tr (merid a)⁻¹) p) - --set_option pp.notation false - --set_option pp.implicit true - - definition foo : (Σ(z : susp A), trunc 0 (z = susp.north)) ≃ pushout prod.pr2 g := begin apply equiv.trans !pushout.flattening', @@ -90,8 +94,6 @@ namespace susp apply encode_decode_singleton } end - definition is_contr_susp_fiber_tr : is_contr (Σ(z : susp A), trunc 0 (z = susp.north)) := sorry - definition pfiber_susp_equiv_sigma : pfiber (ptr 1 (⅀ A)) ≃ (Σ(z : susp A), trunc 0 (z = susp.north)) := begin apply equiv.trans !fiber.sigma_char, @@ -99,14 +101,13 @@ namespace susp intro z, apply tr_eq_tr_equiv end - definition is_trunc_susp_of_is_set : is_trunc 1 (susp A) := + definition is_trunc_susp_of_is_set : is_contr (Σ(z : susp A), trunc 0 (z = susp.north)) → is_trunc 1 (susp A) := begin + intro K, apply is_trunc_of_is_equiv_tr, apply is_equiv_of_is_contr_fun, fapply @is_conn.elim -1 (ptrunc 1 (⅀ A)), - change is_contr (pfiber (ptr 1 (⅀ A))), - apply is_contr_equiv_closed_rev pfiber_susp_equiv_sigma, - apply is_contr_susp_fiber_tr + exact is_contr_equiv_closed_rev pfiber_susp_equiv_sigma K end end