2015-02-21 00:30:32 +00:00
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/-
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Copyright (c) 2014 Jakob von Raumer. All rights reserved.
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Released under Apache 2.0 license as described in the file LICENSE.
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2015-05-14 02:01:48 +00:00
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Authors: Jakob von Raumer, Floris van Doorn
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2015-02-21 00:30:32 +00:00
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Ported from Coq HoTT
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-/
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2015-06-04 01:41:21 +00:00
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import arity .eq .bool .unit .sigma
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open is_trunc eq prod sigma nat equiv option is_equiv bool unit
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2014-12-12 04:14:53 +00:00
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2015-05-14 02:01:48 +00:00
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structure pointed [class] (A : Type) :=
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(point : A)
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structure Pointed :=
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{carrier : Type}
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(Point : carrier)
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open Pointed
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namespace pointed
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attribute Pointed.carrier [coercion]
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variables {A B : Type}
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definition pt [unfold 2] [H : pointed A] := point A
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protected abbreviation Mk [constructor] := @Pointed.mk
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protected definition mk' [constructor] (A : Type) [H : pointed A] : Pointed :=
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Pointed.mk (point A)
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definition pointed_carrier [instance] [constructor] (A : Pointed) : pointed A :=
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pointed.mk (Point A)
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-- Any contractible type is pointed
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definition pointed_of_is_contr [instance] [priority 800] [constructor]
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(A : Type) [H : is_contr A] : pointed A :=
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pointed.mk !center
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-- A pi type with a pointed target is pointed
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definition pointed_pi [instance] [constructor] (P : A → Type) [H : Πx, pointed (P x)]
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: pointed (Πx, P x) :=
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pointed.mk (λx, pt)
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-- A sigma type of pointed components is pointed
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definition pointed_sigma [instance] [constructor] (P : A → Type) [G : pointed A]
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[H : pointed (P pt)] : pointed (Σx, P x) :=
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pointed.mk ⟨pt,pt⟩
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definition pointed_prod [instance] [constructor] (A B : Type) [H1 : pointed A] [H2 : pointed B]
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: pointed (A × B) :=
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pointed.mk (pt,pt)
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definition pointed_loop [instance] [constructor] (a : A) : pointed (a = a) :=
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pointed.mk idp
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definition pointed_bool [instance] [constructor] : pointed bool :=
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pointed.mk ff
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definition Bool [constructor] : Pointed :=
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pointed.mk' bool
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definition pointed_fun_closed [constructor] (f : A → B) [H : pointed A] : pointed B :=
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pointed.mk (f pt)
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definition Loop_space [reducible] [constructor] (A : Pointed) : Pointed :=
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pointed.mk' (point A = point A)
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-- definition Iterated_loop_space : Pointed → ℕ → Pointed
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-- | Iterated_loop_space A 0 := A
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-- | Iterated_loop_space A (n+1) := Iterated_loop_space (Loop_space A) n
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definition Iterated_loop_space [reducible] (n : ℕ) (A : Pointed) : Pointed :=
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nat.rec_on n (λA, A) (λn IH A, IH (Loop_space A)) A
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prefix `Ω`:(max+5) := Loop_space
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notation `Ω[`:95 n:0 `]`:0 A:95 := Iterated_loop_space n A
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definition iterated_loop_space (A : Type) [H : pointed A] (n : ℕ) : Type :=
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Ω[n] (pointed.mk' A)
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open equiv.ops
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definition Pointed_eq {A B : Pointed} (f : A ≃ B) (p : f pt = pt) : A = B :=
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begin
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cases A with A a, cases B with B b, esimp at *,
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fapply apd011 @Pointed.mk,
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{ apply ua f},
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{ rewrite [cast_ua,p]},
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end
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definition add_point [constructor] (A : Type) : Pointed :=
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Pointed.mk (none : option A)
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postfix `₊`:(max+1) := add_point
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-- the inclusion A → A₊ is called "some", the extra point "pt" or "none" ("@none A")
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end pointed
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open pointed
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structure pmap (A B : Pointed) :=
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(map : A → B)
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(resp_pt : map (Point A) = Point B)
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open pmap
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namespace pointed
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abbreviation respect_pt [unfold 3] := @pmap.resp_pt
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notation `map₊` := pmap
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infix `→*`:30 := pmap
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attribute pmap.map [coercion]
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variables {A B C D : Pointed} {f g h : A →* B}
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definition pmap_eq (r : Πa, f a = g a) (s : respect_pt f = (r pt) ⬝ respect_pt g) : f = g :=
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begin
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cases f with f p, cases g with g q,
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esimp at *,
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fapply apo011 pmap.mk,
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{ exact eq_of_homotopy r},
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{ apply concato_eq, apply pathover_eq_Fl, apply inv_con_eq_of_eq_con,
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rewrite [ap_eq_ap10,↑ap10,apd10_eq_of_homotopy,s]}
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end
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definition pid [constructor] (A : Pointed) : A →* A :=
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pmap.mk function.id idp
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definition pcompose [constructor] (g : B →* C) (f : A →* B) : A →* C :=
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pmap.mk (λa, g (f a)) (ap g (respect_pt f) ⬝ respect_pt g)
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infixr `∘*`:60 := pcompose
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structure phomotopy (f g : A →* B) :=
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(homotopy : f ~ g)
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(homotopy_pt : homotopy pt ⬝ respect_pt g = respect_pt f)
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infix `~*`:50 := phomotopy
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abbreviation to_homotopy_pt [unfold 5] := @phomotopy.homotopy_pt
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abbreviation to_homotopy [coercion] [unfold 5] (p : f ~* g) : Πa, f a = g a :=
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phomotopy.homotopy p
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definition passoc (h : C →* D) (g : B →* C) (f : A →* B) : (h ∘* g) ∘* f ~* h ∘* (g ∘* f) :=
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begin
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fconstructor, intro a, reflexivity,
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cases A, cases B, cases C, cases D, cases f with f pf, cases g with g pg, cases h with h ph,
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esimp at *,
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induction pf, induction pg, induction ph, reflexivity
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end
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definition pid_comp (f : A →* B) : pid B ∘* f ~* f :=
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begin
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fconstructor,
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{ intro a, reflexivity},
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{ esimp, exact !idp_con ⬝ !ap_id⁻¹}
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end
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definition comp_pid (f : A →* B) : f ∘* pid A ~* f :=
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begin
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fconstructor,
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{ intro a, reflexivity},
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{ reflexivity}
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end
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definition pmap_equiv_left (A : Type) (B : Pointed) : A₊ →* B ≃ (A → B) :=
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begin
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fapply equiv.MK,
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{ intro f a, cases f with f p, exact f (some a)},
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{ intro f, fconstructor,
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intro a, cases a, exact pt, exact f a,
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reflexivity},
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{ intro f, reflexivity},
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{ intro f, cases f with f p, esimp, fapply pmap_eq,
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{ intro a, cases a; all_goals (esimp at *), exact p⁻¹},
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{ esimp, exact !con.left_inv⁻¹}},
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end
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-- definition Loop_space_functor (f : A →* B) : Ω A →* Ω B :=
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-- begin
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-- fapply pmap.mk,
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-- { intro p, exact ap f p},
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-- end
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-- set_option pp.notation false
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-- definition pmap_equiv_right (A : Pointed) (B : Type)
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-- : (Σ(b : B), map₊ A (pointed.Mk b)) ≃ (A → B) :=
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-- begin
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-- fapply equiv.MK,
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-- { intro u a, cases u with b f, cases f with f p, esimp at f, exact f a},
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-- { intro f, refine ⟨f pt, _⟩, fapply pmap.mk,
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-- intro a, esimp, exact f a,
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-- reflexivity},
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-- { intro f, reflexivity},
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-- { intro u, cases u with b f, cases f with f p, esimp at *, apply sigma_eq p,
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-- esimp, apply sorry
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-- }
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-- end
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definition pmap_bool_equiv (B : Pointed) : map₊ Bool B ≃ B :=
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begin
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fapply equiv.MK,
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{ intro f, cases f with f p, exact f tt},
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{ intro b, fconstructor,
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intro u, cases u, exact pt, exact b,
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reflexivity},
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{ intro b, reflexivity},
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{ intro f, cases f with f p, esimp, fapply pmap_eq,
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{ intro a, cases a; all_goals (esimp at *), exact p⁻¹},
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{ esimp, exact !con.left_inv⁻¹}},
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end
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definition apn [constructor] (n : ℕ) (f : map₊ A B) : Ω[n] A →* Ω[n] B :=
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begin
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revert A B f, induction n with n IH,
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{ intros A B f, exact f},
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{ intros A B f, esimp [Iterated_loop_space], apply IH (Ω A),
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{ esimp, fconstructor,
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intro q, refine !respect_pt⁻¹ ⬝ ap f q ⬝ !respect_pt,
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esimp, apply con.left_inv}}
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end
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definition ap1 [constructor] (f : A →* B) : Ω A →* Ω B := apn (succ 0) f
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definition ap1_compose (g : B →* C) (f : A →* B) : ap1 (g ∘* f) ~* ap1 g ∘* ap1 f :=
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begin
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induction B, induction C, induction g with g pg, induction f with f pf, esimp at *,
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induction pg, induction pf,
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fconstructor,
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{ intro p, esimp, apply whisker_left, exact ap_compose g f p ⬝ ap (ap g) !idp_con⁻¹},
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{ reflexivity}
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end
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protected definition phomotopy.refl [refl] (f : A →* B) : f ~* f :=
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begin
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fconstructor,
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{ intro a, exact idp},
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{ apply idp_con}
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end
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protected definition phomotopy.trans [trans] (p : f ~* g) (q : g ~* h)
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: f ~* h :=
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begin
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fconstructor,
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{ intro a, exact p a ⬝ q a},
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{ induction f, induction g, induction p with p p', induction q with q q', esimp at *,
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induction p', induction q', esimp, apply con.assoc}
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end
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2015-06-17 23:31:05 +00:00
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protected definition phomotopy.symm [symm] (p : f ~* g) : g ~* f :=
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2015-06-17 19:58:58 +00:00
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begin
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2015-06-23 16:47:52 +00:00
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fconstructor,
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2015-06-17 19:58:58 +00:00
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{ intro a, exact (p a)⁻¹},
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{ induction f, induction p with p p', esimp at *,
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induction p', esimp, apply inv_con_cancel_left}
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end
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2015-06-17 23:31:05 +00:00
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infix `⬝*`:75 := phomotopy.trans
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postfix `⁻¹*`:(max+1) := phomotopy.symm
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definition eq_of_phomotopy (p : f ~* g) : f = g :=
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2015-06-17 19:58:58 +00:00
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begin
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fapply pmap_eq,
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{ intro a, exact p a},
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{ exact !to_homotopy_pt⁻¹}
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end
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2015-06-17 23:31:05 +00:00
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definition pwhisker_left (h : B →* C) (p : f ~* g) : h ∘* f ~* h ∘* g :=
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begin
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2015-06-23 16:47:52 +00:00
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fconstructor,
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2015-06-17 23:31:05 +00:00
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{ intro a, exact ap h (p a)},
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{ induction A, induction B, induction C,
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induction f with f pf, induction g with g pg, induction h with h ph,
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induction p with p p', esimp at *, induction ph, induction pg, induction p', reflexivity}
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end
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definition pwhisker_right (h : C →* A) (p : f ~* g) : f ∘* h ~* g ∘* h :=
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begin
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2015-06-23 16:47:52 +00:00
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fconstructor,
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2015-06-17 23:31:05 +00:00
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{ intro a, exact p (h a)},
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{ induction A, induction B, induction C,
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induction f with f pf, induction g with g pg, induction h with h ph,
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induction p with p p', esimp at *, induction ph, induction pg, induction p', esimp,
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exact !idp_con⁻¹}
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end
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2015-06-17 19:58:58 +00:00
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structure pequiv (A B : Pointed) :=
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(to_pmap : A →* B)
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(is_equiv_to_pmap : is_equiv to_pmap)
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infix `≃*`:25 := pequiv
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attribute pequiv.to_pmap [coercion]
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attribute pequiv.is_equiv_to_pmap [instance]
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definition equiv_of_pequiv [constructor] (f : A ≃* B) : A ≃ B :=
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equiv.mk f _
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2015-05-14 02:01:48 +00:00
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end pointed
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