few more files, one diverges

diff --git a/helm/software/matita/nlibrary/depends b/helm/software/matita/nlibrary/depends
index 1b7a60cdbc629aedf59437bd3b16392b8f5465ad..2aca2bbd3078267429f6b195842bd37d9ecf393c 100644 (file)
--- a/helm/software/matita/nlibrary/depends
+++ b/helm/software/matita/nlibrary/depends
@@ -1,5 +1,8 @@
 sets/sets.ma logic/equality.ma
+topology/igt.ma logic/connectives.ma properties/relations.ma
 logic/equality.ma logic/connectives.ma
+.unnamed.ma logic/pts.ma
 logic/connectives.ma logic/pts.ma
 algebra/magmas.ma sets/sets.ma
+properties/relations.ma logic/pts.ma
 logic/pts.ma 

diff --git a/helm/software/matita/nlibrary/depends.dot b/helm/software/matita/nlibrary/depends.dot
index eb6855410ab5062636773db9408f5e76023fac7e..8898c6c2e225b96c89b4ec44118ee67880340f5c 100644 (file)
--- a/helm/software/matita/nlibrary/depends.dot
+++ b/helm/software/matita/nlibrary/depends.dot
@@ -1,12 +1,19 @@
 digraph g {
   "sets/sets.ma" [];
   "sets/sets.ma" -> "logic/equality.ma" [];
+  "topology/igt.ma" [];
+  "topology/igt.ma" -> "logic/connectives.ma" [];
+  "topology/igt.ma" -> "properties/relations.ma" [];
   "logic/equality.ma" [];
   "logic/equality.ma" -> "logic/connectives.ma" [];
+  ".unnamed.ma" [];
+  ".unnamed.ma" -> "logic/pts.ma" [];
   "logic/connectives.ma" [];
   "logic/connectives.ma" -> "logic/pts.ma" [];
   "algebra/magmas.ma" [];
   "algebra/magmas.ma" -> "sets/sets.ma" [];
+  "properties/relations.ma" [];
+  "properties/relations.ma" -> "logic/pts.ma" [];
   "logic/pts.ma" [];
   
   }
\ No newline at end of file

diff --git a/helm/software/matita/nlibrary/depends.png b/helm/software/matita/nlibrary/depends.png
index 31bab15390047a8bf2cb44dd9a8720a13ea21c2a..6d8cfcfd912a8c417bf5b863cb08cd0dc2b086c2 100644 (file)
Binary files a/helm/software/matita/nlibrary/depends.png and b/helm/software/matita/nlibrary/depends.png differ

diff --git a/helm/software/matita/nlibrary/properties/relations.ma b/helm/software/matita/nlibrary/properties/relations.ma
new file mode 100644 (file)
index 0000000..619ab78
--- /dev/null
+++ b/helm/software/matita/nlibrary/properties/relations.ma
@@ -0,0 +1,19 @@
+(**************************************************************************)
+(*       ___                                                              *)
+(*      ||M||                                                             *)
+(*      ||A||       A project by Andrea Asperti                           *)
+(*      ||T||                                                             *)
+(*      ||I||       Developers:                                           *)
+(*      ||T||         The HELM team.                                      *)
+(*      ||A||         http://helm.cs.unibo.it                             *)
+(*      \   /                                                             *)
+(*       \ /        This file is distributed under the terms of the       *)
+(*        v         GNU General Public License Version 2                  *)
+(*                                                                        *)
+(**************************************************************************)
+
+include "logic/pts.ma".
+
+ndefinition reflexive ≝ λT:Type.λP:T → T → CProp. ∀x.P x x.
+ndefinition symmetric ≝ λT:Type.λP:T → T → CProp. ∀x,y.P x y → P y x.
+ndefinition transitive ≝ λT:Type.λP:T → T → CProp. ∀z,x,y. P x z → P z y → P x y.

diff --git a/helm/software/matita/nlibrary/topology/igt.ma b/helm/software/matita/nlibrary/topology/igt.ma
new file mode 100644 (file)
index 0000000..fbe12b6
--- /dev/null
+++ b/helm/software/matita/nlibrary/topology/igt.ma
@@ -0,0 +1,249 @@
+include "logic/connectives.ma".
+include "properties/relations.ma".
+
+nrecord iff (A,B: CProp) : CProp ≝
+ { if: A → B;
+   fi: B → A
+ }.
+
+notation > "hvbox(a break \liff b)"
+  left associative with precedence 25
+for @{ 'iff $a $b }.
+
+notation "hvbox(a break \leftrightarrow b)"
+  left associative with precedence 25
+for @{ 'iff $a $b }.
+
+interpretation "logical iff" 'iff x y = (iff x y).
+
+nrecord setoid : Type[1] ≝
+ { carr:> Type;
+   eq: carr → carr → CProp;
+   refl: reflexive ? eq;
+   sym: symmetric ? eq;
+   trans: transitive ? eq
+ }.
+
+ndefinition proofs: CProp → setoid.
+#P; napply (mk_setoid ?????);
+##[ napply P;
+##|  napply (λ_,_.True);
+     #x; #y; napply True; (* DIVERGE *)
+ intro;
+ constructor 1;
+  [ apply A
+  | intros;
+    apply True
+  | intro;
+    constructor 1
+  | intros 3;
+    constructor 1
+  | intros 5;
+    constructor 1]
+qed.
+
+definition reflexive1 ≝ λA:Type.λR:A→A→CProp.∀x:A.R x x.
+definition symmetric1 ≝ λC:Type.λlt:C→C→CProp. ∀x,y:C.lt x y → lt y x.
+definition transitive1 ≝ λA:Type.λR:A→A→CProp.∀x,y,z:A.R x y → R y z → R x z.
+
+record setoid1 : Type ≝
+ { carr1:> Type;
+   eq1: carr1 → carr1 → CProp;
+   refl1: reflexive1 ? eq1;
+   sym1: symmetric1 ? eq1;
+   trans1: transitive1 ? eq1
+ }.
+
+definition proofs1: CProp → setoid1.
+ intro;
+ constructor 1;
+  [ apply A
+  | intros;
+    apply True
+  | intro;
+    constructor 1
+  | intros 3;
+    constructor 1
+  | intros 5;
+    constructor 1]
+qed.
+
+definition CCProp: setoid1.
+ constructor 1;
+  [ apply CProp
+  | apply iff
+  | intro;
+    split;
+    intro;
+    assumption
+  | intros 3;
+    cases H; clear H;
+    split;
+    assumption
+  | intros 5;
+    cases H; cases H1; clear H H1;
+    split;
+    intros;
+    [ apply (H4 (H2 H))
+    | apply (H3 (H5 H))]]
+qed.
+
+record function_space (A,B: setoid): Type ≝
+ { f:1> A → B;
+   f_ok: ∀a,a':A. proofs (eq ? a a') → proofs (eq ? (f a) (f a'))
+ }.
+ 
+notation "hbox(a break ⇒ b)" right associative with precedence 20 for @{ 'Imply $a $b }.
+
+record function_space1 (A: setoid1) (B: setoid1): Type ≝
+ { f1:1> A → B;
+   f1_ok: ∀a,a':A. proofs1 (eq1 ? a a') → proofs1 (eq1 ? (f1 a) (f1 a'))
+ }.
+
+definition function_space_setoid: setoid → setoid → setoid.
+ intros (A B);
+ constructor 1;
+  [ apply (function_space A B);
+  | intros;
+    apply (∀a:A. proofs (eq ? (f a) (f1 a)));
+  | simplify;
+    intros;
+    apply (f_ok ? ? x);
+    unfold carr; unfold proofs; simplify;
+    apply (refl A)
+  | simplify;
+    intros;
+    unfold carr; unfold proofs; simplify;
+    apply (sym B);
+    apply (f a)
+  | simplify;
+    intros;
+    unfold carr; unfold proofs; simplify;
+    apply (trans B ? (y a));
+    [ apply (f a)
+    | apply (f1 a)]]
+qed.
+
+definition function_space_setoid1: setoid1 → setoid1 → setoid1.
+ intros (A B);
+ constructor 1;
+  [ apply (function_space1 A B);
+  | intros;
+    apply (∀a:A. proofs1 (eq1 ? (f a) (f1 a)));
+  |*: cases daemon] (* simplify;
+    intros;
+    apply (f1_ok ? ? x);
+    unfold proofs; simplify;
+    apply (refl1 A)
+  | simplify;
+    intros;
+    unfold proofs; simplify;
+    apply (sym1 B);
+    apply (f a)
+  | simplify;
+    intros;
+    unfold carr; unfold proofs; simplify;
+    apply (trans1 B ? (y a));
+    [ apply (f a)
+    | apply (f1 a)]] *)
+qed.
+
+interpretation "function_space_setoid1" 'Imply a b = (function_space_setoid1 a b).
+
+record isomorphism (A,B: setoid): Type ≝
+ { map1:> function_space_setoid A B;
+   map2:> function_space_setoid B A;
+   inv1: ∀a:A. proofs (eq ? (map2 (map1 a)) a);
+   inv2: ∀b:B. proofs (eq ? (map1 (map2 b)) b)
+ }.
+
+interpretation "isomorphism" 'iff x y = (isomorphism x y).
+
+definition setoids: setoid1.
+ constructor 1;
+  [ apply setoid;
+  | apply isomorphism;
+  | intro;
+    split;
+     [1,2: constructor 1;
+        [1,3: intro; assumption;
+        |*: intros; assumption]
+     |3,4:
+       intros;
+       simplify;
+       unfold proofs; simplify;
+       apply refl;]
+  |*: cases daemon]
+qed.
+
+definition setoid1_of_setoid: setoid → setoid1.
+ intro;
+ constructor 1;
+  [ apply (carr s)
+  | apply (eq s)
+  | apply (refl s)
+  | apply (sym s)
+  | apply (trans s)]
+qed.
+
+coercion setoid1_of_setoid.
+
+(*
+record dependent_product (A:setoid)  (B: A ⇒ setoids): Type ≝
+ { dp:> ∀a:A.carr (B a);
+   dp_ok: ∀a,a':A. ∀p:proofs1 (eq1 ? a a'). proofs1 (eq1 ? (dp a) (map2 ?? (f1_ok ?? B ?? p) (dp a')))
+ }.*)
+
+record forall (A:setoid)  (B: A ⇒ CCProp): CProp ≝
+ { fo:> ∀a:A.proofs (B a) }.
+
+record subset (A: setoid) : CProp ≝
+ { mem: A ⇒ CCProp }.
+
+definition ssubset: setoid → setoid1.
+ intro;
+ constructor 1;
+  [ apply (subset s);
+  | apply (λU,V:subset s. ∀a. mem ? U a \liff mem ? V a)
+  | simplify;
+    intros;
+    split;
+    intro;
+    assumption
+  | simplify;
+    cases daemon
+  | cases daemon]
+qed.
+
+definition mmem: ∀A:setoid. (ssubset A) ⇒ A ⇒ CCProp.
+ intros;
+ constructor 1;
+  [ apply mem; 
+  | unfold function_space_setoid1; simplify;
+    intros (b b');
+    change in ⊢ (? (? (?→? (? %)))) with (mem ? b a \liff mem ? b' a);
+    unfold proofs1; simplify; intros;
+    unfold proofs1 in c; simplify in c;
+    unfold ssubset in c; simplify in c;
+    cases (c a); clear c;
+    split;
+    assumption]
+qed.
+
+(*
+definition sand: CCProp ⇒ CCProp.
+
+definition intersection: ∀A. ssubset A ⇒ ssubset A ⇒ ssubset A.
+ intro;
+ constructor 1;
+  [ intro;
+    constructor 1;
+     [ intro;
+       constructor 1;
+       constructor 1;
+       intro;
+       apply (mem ? c c2 ∧ mem ? c1 c2);
+     |
+  |
+  |
+*)