2014-12-12 04:14:53 +00:00
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/-
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Copyright (c) 2014 Floris van Doorn. All rights reserved.
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Released under Apache 2.0 license as described in the file LICENSE.
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2015-02-26 18:19:54 +00:00
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Module: types.W
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2014-12-12 04:14:53 +00:00
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Author: Floris van Doorn
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Theorems about W-types (well-founded trees)
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-/
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import .sigma .pi
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open eq sigma sigma.ops equiv is_equiv
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2015-05-11 20:23:21 +00:00
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inductive Wtype.{l k} {A : Type.{l}} (B : A → Type.{k}) : Type.{max l k} :=
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sup : Π (a : A), (B a → Wtype.{l k} B) → Wtype.{l k} B
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namespace Wtype
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notation `W` binders `,` r:(scoped B, Wtype B) := r
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universe variables u v
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variables {A A' : Type.{u}} {B B' : A → Type.{v}} {C : Π(a : A), B a → Type}
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{a a' : A} {f : B a → W a, B a} {f' : B a' → W a, B a} {w w' : W(a : A), B a}
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protected definition pr1 [unfold-c 3] (w : W(a : A), B a) : A :=
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by cases w with a f; exact a
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protected definition pr2 [unfold-c 3] (w : W(a : A), B a) : B (Wtype.pr1 w) → W(a : A), B a :=
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by cases w with a f; exact f
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namespace ops
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postfix `.1`:(max+1) := Wtype.pr1
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postfix `.2`:(max+1) := Wtype.pr2
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notation `⟨` a `,` f `⟩`:0 := Wtype.sup a f --input ⟨ ⟩ as \< \>
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end ops
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open ops
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protected definition eta (w : W a, B a) : ⟨w.1 , w.2⟩ = w :=
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by cases w; exact idp
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definition sup_eq_sup (p : a = a') (q : p ▸ f = f') : ⟨a, f⟩ = ⟨a', f'⟩ :=
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by cases p; cases q; exact idp
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definition Wtype_eq (p : w.1 = w'.1) (q : p ▸ w.2 = w'.2) : w = w' :=
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by cases w; cases w';exact (sup_eq_sup p q)
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definition Wtype_eq_pr1 (p : w = w') : w.1 = w'.1 :=
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by cases p;exact idp
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definition Wtype_eq_pr2 (p : w = w') : Wtype_eq_pr1 p ▸ w.2 = w'.2 :=
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by cases p;exact idp
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namespace ops
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postfix `..1`:(max+1) := Wtype_eq_pr1
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postfix `..2`:(max+1) := Wtype_eq_pr2
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end ops open ops open sigma
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definition sup_path_W (p : w.1 = w'.1) (q : p ▸ w.2 = w'.2)
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: ⟨(Wtype_eq p q)..1,(Wtype_eq p q)..2⟩ = ⟨p, q⟩ :=
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by cases w; cases w'; cases p; cases q; exact idp
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definition pr1_path_W (p : w.1 = w'.1) (q : p ▸ w.2 = w'.2) : (Wtype_eq p q)..1 = p :=
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!sup_path_W..1
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definition pr2_path_W (p : w.1 = w'.1) (q : p ▸ w.2 = w'.2)
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: pr1_path_W p q ▸ (Wtype_eq p q)..2 = q :=
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!sup_path_W..2
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definition eta_path_W (p : w = w') : Wtype_eq (p..1) (p..2) = p :=
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by cases p; cases w; exact idp
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definition transport_pr1_path_W {B' : A → Type} (p : w.1 = w'.1) (q : p ▸ w.2 = w'.2)
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: transport (λx, B' x.1) (Wtype_eq p q) = transport B' p :=
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by cases w; cases w'; cases p; cases q; exact idp
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definition path_W_uncurried (pq : Σ(p : w.1 = w'.1), p ▸ w.2 = w'.2) : w = w' :=
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by cases pq with p q; exact (Wtype_eq p q)
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definition sup_path_W_uncurried (pq : Σ(p : w.1 = w'.1), p ▸ w.2 = w'.2)
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: ⟨(path_W_uncurried pq)..1, (path_W_uncurried pq)..2⟩ = pq :=
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by cases pq with p q; exact (sup_path_W p q)
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definition pr1_path_W_uncurried (pq : Σ(p : w.1 = w'.1), p ▸ w.2 = w'.2)
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: (path_W_uncurried pq)..1 = pq.1 :=
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!sup_path_W_uncurried..1
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definition pr2_path_W_uncurried (pq : Σ(p : w.1 = w'.1), p ▸ w.2 = w'.2)
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: (pr1_path_W_uncurried pq) ▸ (path_W_uncurried pq)..2 = pq.2 :=
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!sup_path_W_uncurried..2
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definition eta_path_W_uncurried (p : w = w') : path_W_uncurried ⟨p..1, p..2⟩ = p :=
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!eta_path_W
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definition transport_pr1_path_W_uncurried {B' : A → Type} (pq : Σ(p : w.1 = w'.1), p ▸ w.2 = w'.2)
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: transport (λx, B' x.1) (@path_W_uncurried A B w w' pq) = transport B' pq.1 :=
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by cases pq with p q; exact (transport_pr1_path_W p q)
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definition isequiv_path_W /-[instance]-/ (w w' : W a, B a)
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: is_equiv (@path_W_uncurried A B w w') :=
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adjointify path_W_uncurried
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(λp, ⟨p..1, p..2⟩)
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eta_path_W_uncurried
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sup_path_W_uncurried
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definition equiv_path_W (w w' : W a, B a) : (Σ(p : w.1 = w'.1), p ▸ w.2 = w'.2) ≃ (w = w') :=
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equiv.mk path_W_uncurried !isequiv_path_W
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definition double_induction_on {P : (W a, B a) → (W a, B a) → Type} (w w' : W a, B a)
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(H : ∀ (a a' : A) (f : B a → W a, B a) (f' : B a' → W a, B a),
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(∀ (b : B a) (b' : B a'), P (f b) (f' b')) → P (sup a f) (sup a' f')) : P w w' :=
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begin
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revert w',
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induction w with a f IH,
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intro w',
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cases w' with a' f',
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apply H, intro b b',
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apply IH
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end
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/- truncatedness -/
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open is_trunc
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definition trunc_W [instance] (n : trunc_index)
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[HA : is_trunc (n.+1) A] : is_trunc (n.+1) (W a, B a) :=
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begin
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fapply is_trunc_succ_intro, intro w w',
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eapply (double_induction_on w w'), intro a a' f f' IH,
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fapply is_trunc_equiv_closed,
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{ apply equiv_path_W},
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{ fapply is_trunc_sigma,
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intro p, cases p, esimp,
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apply pi.is_trunc_eq_pi}
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end
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end Wtype
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