From 1afd7ec589d63a1b02165211391bce345a33d62f Mon Sep 17 00:00:00 2001 From: Claudio Sacerdoti Coen Date: Thu, 3 Jul 2008 21:31:55 +0000 Subject: [PATCH 1/1] First few lemmas. But I have some problems in making Matita accept my constructor. --- .../matita/library/demo/formal_topology.ma | 107 +++++++++++++++--- 1 file changed, 92 insertions(+), 15 deletions(-) diff --git a/helm/software/matita/library/demo/formal_topology.ma b/helm/software/matita/library/demo/formal_topology.ma index 54c6aa629..cb720ffb4 100644 --- a/helm/software/matita/library/demo/formal_topology.ma +++ b/helm/software/matita/library/demo/formal_topology.ma @@ -13,25 +13,102 @@ (**************************************************************************) include "logic/connectives.ma". +include "logic/equality.ma". -coinductive fish (A:Type) (i: A → Type) (C: ∀a:A.i a → A → Prop) (U: A → Prop) - : A → Prop -≝ - mk_foo: ∀a:A. (U a ∧ ∀j: i a. ∃y: A. C a j y ∧ fish A i C U y) → fish A i C U a. +record powerset (A: Type) : Type ≝ { char: A → Prop }. -let corec fish_rec (A:Type) (i: A → Type) (C: ∀a:A.i a → A → Prop) (U: A → Prop) - (P: A → Prop) (H1: ∀a:A. P a → U a) - (H2: ∀a:A. P a → ∀j: i a. ∃y: A. C a j y ∧ P y) : - ∀a:A. ∀p: P a. fish A i C U a ≝ +notation "hvbox(2 \sup A)" non associative with precedence 45 +for @{ 'powerset $A }. + +interpretation "powerset" 'powerset A = (powerset A). + +definition mem ≝ λA.λS:2 \sup A.λx:A. match S with [mk_powerset c ⇒ c x]. + +notation "hvbox(a break ∈ b)" non associative with precedence 45 +for @{ 'mem $a $b }. + +interpretation "mem" 'mem a S = (mem _ S a). + +record axiom_set : Type ≝ + { A:> Type; + i: A → Type; + C: ∀a:A. i a → 2 \sup A + }. + +inductive covers (A: axiom_set) (U: 2 \sup A) : A → CProp ≝ + refl: ∀a:A. a ∈ U → covers A U a + | infinity: ∀a:A. ∀j: i ? a. coversl A U (C ? a j) → covers A U a +with coversl : (2 \sup A) → CProp ≝ + iter: ∀V:2 \sup A.(∀a:A.a ∈ V → covers A U a) → coversl A U V. + +notation "hvbox(a break ◃ b)" non associative with precedence 45 +for @{ 'covers $a $b }. + +interpretation "covers" 'covers a U = (covers _ U a). +interpretation "coversl" 'covers A U = (coversl _ U A). + +axiom covers_elim: + ∀A:axiom_set.∀U: 2 \sup A.∀P:A → CProp. + ∀H1:∀a:A. a ∈ U → P a. + ∀H2:∀a:A.∀j:i ? a. C ? a j ◃ U → (∀b. b ∈ C ? a j → P b) → P a. + ∀a:A.∀p:a ◃ U.P a. +(* +definition covers_elim ≝ + λA:axiom_set.λU: 2 \sup A.λP:2 \sup A. + λH1:∀a:A. a ∈ U → a ∈ P. + λH2:∀a:A.∀j:i ? a. C ? a j ◃ U → (∀b. b ∈ C ? a j → b ∈ P) → a ∈ P. + let rec aux (a:A) (p:a ◃ U) : a ∈ P ≝ + match p return λaa.λ_.aa ∈ P with + [ refl a q ⇒ H1 a q + | infinity a j q ⇒ H2 a j q (auxl (C ? a j) q) + ] + and auxl (V: 2 \sup A) (q: V ◃ U) : ∀b. b ∈ V → b ∈ P ≝ + match q return λVV.λ_.∀b. b ∈ VV → b ∈ P with + [ iter VV f ⇒ λb.λr. aux b (f b r) ] + in + aux. +*) + +coinductive fish (A:axiom_set) (U: 2 \sup A) : A → Prop ≝ + mk_fish: ∀a:A. (a ∈ U ∧ ∀j: i ? a. ∃y: A. y ∈ C ? a j ∧ fish A U y) → fish A U a. + +notation "hvbox(a break ⋉ b)" non associative with precedence 45 +for @{ 'fish $a $b }. + +interpretation "fish" 'fish a U = (fish _ U a). + +let corec fish_rec (A:axiom_set) (U: 2 \sup A) + (P: 2 \sup A) (H1: ∀a:A. a ∈ P → a ∈ U) + (H2: ∀a:A. a ∈ P → ∀j: i ? a. ∃y: A. y ∈ C ? a j ∧ y ∈ P) : + ∀a:A. ∀p: a ∈ P. a ⋉ U ≝ λa,p. - mk_foo A i C U a + mk_fish A U a (conj ? ? (H1 ? p) - (λj: i a. + (λj: i ? a. match H2 a p j with - [ ex_intro (y: A) (Ha: C a j y ∧ P y) ⇒ + [ ex_intro (y: A) (Ha: y ∈ C ? a j ∧ y ∈ P) ⇒ match Ha with - [ conj (fHa: C a j y) (sHa: P y) ⇒ - ex_intro A (λy.C a j y ∧ fish A i C U y) y - (conj ? ? fHa (fish_rec A i C U P H1 H2 y sHa)) + [ conj (fHa: y ∈ C ? a j) (sHa: y ∈ P) ⇒ + ex_intro A (λy.y ∈ C ? a j ∧ fish A U y) y + (conj ? ? fHa (fish_rec A U P H1 H2 y sHa)) ] - ])). \ No newline at end of file + ])). + +theorem reflexivity: ∀A:axiom_set.∀a:A.∀V. a ∈ V → a ◃ V. + intros; + apply refl; + assumption. +qed. + +theorem transitivity: ∀A:axiom_set.∀a:A.∀U,V. a ◃ U → U ◃ V → a ◃ V. + intros; + elim H using covers_elim; + [ cases H1 in H2; + intro; + apply H2; + assumption + | apply infinity; + [ assumption + | constructor 1; + assumption]] +qed. \ No newline at end of file -- 2.39.2