From: Claudio Sacerdoti Coen Date: Mon, 29 Jan 2007 11:13:06 +0000 (+0000) Subject: More work on setoids. X-Git-Tag: make_still_working~6501 X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=commitdiff_plain;h=cf233f498cb895429893b940b79e1604d52475ca;p=helm.git More work on setoids. --- diff --git a/helm/software/matita/library/technicalities/setoids.ma b/helm/software/matita/library/technicalities/setoids.ma index cde3485c8..f9f3d9daf 100644 --- a/helm/software/matita/library/technicalities/setoids.ma +++ b/helm/software/matita/library/technicalities/setoids.ma @@ -335,140 +335,162 @@ inductive rewrite_direction : Type := Left2Right: rewrite_direction | Right2Left: rewrite_direction. -(*definition variance_of_argument_class : Argument_Class → option variance. - destruct 1. - exact None. - exact (Some v). - exact None. - exact (Some v). - exact None. +definition variance_of_argument_class : Argument_Class → option variance. + intros; + elim a; + [ apply None + | apply (Some ? t) + | apply None + | apply (Some ? t) + | apply None + ] qed. definition opposite_direction := - fun dir => + λdir. match dir with - Left2Right => Right2Left - | Right2Left => Left2Right - end. + [ Left2Right ⇒ Right2Left + | Right2Left ⇒ Left2Right + ]. -Lemma opposite_direction_idempotent: - ∀dir. (opposite_direction (opposite_direction dir)) = dir. - destruct dir; reflexivity. -Qed. +lemma opposite_direction_idempotent: + ∀dir. opposite_direction (opposite_direction dir) = dir. + intros; + elim dir; + reflexivity. +qed. inductive check_if_variance_is_respected : option variance → rewrite_direction → rewrite_direction → Prop := - MSNone : ∀dir dir'. check_if_variance_is_respected None dir dir' - | MSCovariant : ∀dir. check_if_variance_is_respected (Some Covariant) dir dir + MSNone : ∀dir,dir'. check_if_variance_is_respected (None ?) dir dir' + | MSCovariant : ∀dir. check_if_variance_is_respected (Some ? Covariant) dir dir | MSContravariant : ∀dir. - check_if_variance_is_respected (Some Contravariant) dir (opposite_direction dir). + check_if_variance_is_respected (Some ? Contravariant) dir (opposite_direction dir). definition relation_class_of_reflexive_relation_class: Reflexive_Relation_Class → Relation_Class. - induction 1. - exact (SymmetricReflexive ? s r). - exact (AsymmetricReflexive tt r). - exact (Leibniz ? T). + intro; + elim r; + [ apply (SymmetricReflexive ? ? ? H H1) + | apply (AsymmetricReflexive ? something ? ? H) + | apply (Leibniz ? T) + ] qed. definition relation_class_of_areflexive_relation_class: Areflexive_Relation_Class → Relation_Class. - induction 1. - exact (SymmetricAreflexive ? s). - exact (AsymmetricAreflexive tt Aeq). + intro; + elim a; + [ apply (SymmetricAreflexive ? ? ? H) + | apply (AsymmetricAreflexive ? something ? r) + ] qed. definition carrier_of_reflexive_relation_class := - fun R => carrier_of_relation_class (relation_class_of_reflexive_relation_class R). + λR.carrier_of_relation_class ? (relation_class_of_reflexive_relation_class R). definition carrier_of_areflexive_relation_class := - fun R => carrier_of_relation_class (relation_class_of_areflexive_relation_class R). + λR.carrier_of_relation_class ? (relation_class_of_areflexive_relation_class R). definition relation_of_areflexive_relation_class := - fun R => relation_of_relation_class (relation_class_of_areflexive_relation_class R). + λR.relation_of_relation_class ? (relation_class_of_areflexive_relation_class R). -inductive Morphism_Context Hole dir : Relation_Class → rewrite_direction → Type := +inductive Morphism_Context (Hole: Relation_Class) (dir:rewrite_direction) : Relation_Class → rewrite_direction → Type := App : - ∀In Out dir'. + ∀In,Out,dir'. Morphism_Theory In Out → Morphism_Context_List Hole dir dir' In → - Morphism_Context Hole dir Out dir' + Morphism_Context Hole dir Out dir | ToReplace : Morphism_Context Hole dir Hole dir | ToKeep : - ∀S dir'. + ∀S,dir'. carrier_of_reflexive_relation_class S → Morphism_Context Hole dir (relation_class_of_reflexive_relation_class S) dir' | ProperElementToKeep : - ∀S dir' (x: carrier_of_areflexive_relation_class S). + ∀S,dir'.∀x: carrier_of_areflexive_relation_class S. relation_of_areflexive_relation_class S x x → Morphism_Context Hole dir (relation_class_of_areflexive_relation_class S) dir' -with Morphism_Context_List Hole dir : +with Morphism_Context_List : rewrite_direction → Arguments → Type := fcl_singl : - ∀S dir' dir''. + ∀S,dir',dir''. check_if_variance_is_respected (variance_of_argument_class S) dir' dir'' → Morphism_Context Hole dir (relation_class_of_argument_class S) dir' → - Morphism_Context_List Hole dir dir'' (singl S) + Morphism_Context_List Hole dir dir'' (singl ? S) | fcl_cons : - ∀S L dir' dir''. + ∀S,L,dir',dir''. check_if_variance_is_respected (variance_of_argument_class S) dir' dir'' → Morphism_Context Hole dir (relation_class_of_argument_class S) dir' → Morphism_Context_List Hole dir dir'' L → - Morphism_Context_List Hole dir dir'' (cons S L). - -Scheme Morphism_Context_rect2 := Induction for Morphism_Context Sort Type -with Morphism_Context_List_rect2 := Induction for Morphism_Context_List Sort Type. + Morphism_Context_List Hole dir dir'' (cons ? S L). definition product_of_arguments : Arguments → Type. - induction 1. - exact (carrier_of_relation_class a). - exact (prod (carrier_of_relation_class a) IHX). + intro; + elim a; + [ apply (carrier_of_relation_class ? t) + | apply (Prod (carrier_of_relation_class ? t) T) + ] qed. definition get_rewrite_direction: rewrite_direction → Argument_Class → rewrite_direction. - intros dir R. -destruct (variance_of_argument_class R). - destruct v. - exact dir. (* covariant *) - exact (opposite_direction dir). (* contravariant *) - exact dir. (* symmetric relation *) + intros (dir R); + cases (variance_of_argument_class R); + [ cases a; + [ exact dir (* covariant *) + | exact (opposite_direction dir) (* contravariant *) + ] + | exact dir (* symmetric relation *) + ] qed. definition directed_relation_of_relation_class: - ∀dir (R: Relation_Class). - carrier_of_relation_class R → carrier_of_relation_class R → Prop. - destruct 1. - exact (@relation_of_relation_class unit). - intros; exact (relation_of_relation_class ? X0 X). + ∀dir:rewrite_direction.∀R: Relation_Class. + carrier_of_relation_class ? R → carrier_of_relation_class ? R → Prop. + intros; + cases r; + [ exact (relation_of_relation_class ? ? c c1) + | apply (relation_of_relation_class ? ? c1 c) + ] qed. definition directed_relation_of_argument_class: - ∀dir (R: Argument_Class). - carrier_of_relation_class R → carrier_of_relation_class R → Prop. - intros dir R. - rewrite <- - (about_carrier_of_relation_class_and_relation_class_of_argument_class R). - exact (directed_relation_of_relation_class dir (relation_class_of_argument_class R)). + ∀dir:rewrite_direction.∀R: Argument_Class. + carrier_of_relation_class ? R → carrier_of_relation_class ? R → Prop. + intros (dir R); + generalize in match + (about_carrier_of_relation_class_and_relation_class_of_argument_class R); + intro H; + apply (directed_relation_of_relation_class dir (relation_class_of_argument_class R)); + apply (eq_rect ? ? (λX.X) ? ? (sym_eq ? ? ? H)); + [ apply c + | apply c1 + ] qed. - definition relation_of_product_of_arguments: - ∀dir In. + ∀dir:rewrite_direction.∀In. product_of_arguments In → product_of_arguments In → Prop. - induction In. - simpl. - exact (directed_relation_of_argument_class (get_rewrite_direction dir a) a). - - simpl; intros. - destruct X; destruct X0. - apply and. - exact - (directed_relation_of_argument_class (get_rewrite_direction dir a) a c c0). - exact (IHIn p p0). + intros 2; + elim In 0; + [ simplify; + intro; + exact (directed_relation_of_argument_class (get_rewrite_direction r t) t) + | intros; + change in p with (Prod (carrier_of_relation_class variance t) (product_of_arguments n)); + change in p1 with (Prod (carrier_of_relation_class variance t) (product_of_arguments n)); + cases p; + cases p1; + apply And; + [ exact + (directed_relation_of_argument_class (get_rewrite_direction r t) t a a1) + | exact (R b b1) + ] + ] qed. +(* definition apply_morphism: ∀In Out (m: function_type_of_morphism_signature In Out) (args: product_of_arguments In). carrier_of_relation_class Out.