X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=helm%2Fsoftware%2Fmatita%2Fnlibrary%2Fsets%2Fsets.ma;h=0e2dd418d3c19ef4e00d02e02c8ed15c79175734;hb=bac3136bf99a18374b91e1ec900e455567e8f741;hp=f3bd3b8898e35dd52f4f3d175ff79caf9690ca25;hpb=b91d9e60b0a5f450d2725d4b9bb3ed7f81ef6d3a;p=helm.git diff --git a/helm/software/matita/nlibrary/sets/sets.ma b/helm/software/matita/nlibrary/sets/sets.ma index f3bd3b889..0e2dd418d 100644 --- a/helm/software/matita/nlibrary/sets/sets.ma +++ b/helm/software/matita/nlibrary/sets/sets.ma @@ -39,7 +39,6 @@ ndefinition big_union ≝ λA,B.λT:Ω^A.λf:A → Ω^B.{ x | ∃i. i ∈ T ∧ ndefinition big_intersection ≝ λA,B.λT:Ω^A.λf:A → Ω^B.{ x | ∀i. i ∈ T → x ∈ f i }. ndefinition full_set: ∀A. Ω^A ≝ λA.{ x | True }. -ncoercion full_set : ∀A:Type[0]. Ω^A ≝ full_set on A: Type[0] to (Ω^?). nlemma subseteq_refl: ∀A.∀S: Ω^A. S ⊆ S. #A; #S; #x; #H; nassumption. @@ -62,6 +61,9 @@ nqed. include "sets/setoids1.ma". +(* this has to be declared here, so that it is combined with carr *) +ncoercion full_set : ∀A:Type[0]. Ω^A ≝ full_set on A: Type[0] to (Ω^?). + ndefinition powerclass_setoid: Type[0] → setoid1. #A; @[ napply (Ω^A)| napply seteq ] nqed. @@ -69,25 +71,33 @@ nqed. include "hints_declaration.ma". alias symbol "hint_decl" = "hint_decl_Type2". -unification hint 0 ≔ A ⊢ carr1 (powerclass_setoid A) ≡ Ω^A. +unification hint 0 ≔ A ⊢ carr1 (mk_setoid1 (Ω^A) (eq1 (powerclass_setoid A))) ≡ Ω^A. (************ SETS OVER SETOIDS ********************) include "logic/cprop.ma". -nrecord qpowerclass (A: setoid) : Type[1] ≝ - { pc:> Ω^A; (* qui pc viene dichiarato con un target preciso... +nrecord ext_powerclass (A: setoid) : Type[1] ≝ + { ext_carr:> Ω^A; (* qui pc viene dichiarato con un target preciso... forse lo si vorrebbe dichiarato con un target più lasco ma la sintassi :> non lo supporta *) - mem_ok': ∀x,x':A. x=x' → (x ∈ pc) = (x' ∈ pc) + ext_prop: ∀x,x':A. x=x' → (x ∈ ext_carr) = (x' ∈ ext_carr) }. + +notation > "𝛀 ^ term 90 A" non associative with precedence 70 +for @{ 'ext_powerclass $A }. + +notation "Ω term 90 A \atop ≈" non associative with precedence 70 +for @{ 'ext_powerclass $A }. -ndefinition Full_set: ∀A. qpowerclass A. +interpretation "extensional powerclass" 'ext_powerclass a = (ext_powerclass a). + +ndefinition Full_set: ∀A. 𝛀^A. #A; @[ napply A | #x; #x'; #H; napply refl1] nqed. -ncoercion Full_set: ∀A. qpowerclass A ≝ Full_set on A: setoid to qpowerclass ?. +ncoercion Full_set: ∀A. ext_powerclass A ≝ Full_set on A: setoid to ext_powerclass ?. -ndefinition qseteq: ∀A. equivalence_relation1 (qpowerclass A). +ndefinition ext_seteq: ∀A. equivalence_relation1 (𝛀^A). #A; @ [ napply (λS,S'. S = S') | #S; napply (refl1 ? (seteq A)) @@ -95,29 +105,46 @@ ndefinition qseteq: ∀A. equivalence_relation1 (qpowerclass A). | #S; #T; #U; napply (trans1 ? (seteq A))] nqed. -ndefinition qpowerclass_setoid: setoid → setoid1. +ndefinition ext_powerclass_setoid: setoid → setoid1. #A; @ - [ napply (qpowerclass A) - | napply (qseteq A) ] + [ napply (ext_powerclass A) + | napply (ext_seteq A) ] nqed. - -unification hint 0 ≔ A ⊢ - carr1 (qpowerclass_setoid A) ≡ qpowerclass A. - -nlemma mem_ok: ∀A. binary_morphism1 (setoid1_of_setoid A) (qpowerclass_setoid A) CPROP. + +unification hint 0 ≔ A; + R ≟ (mk_setoid1 (𝛀^A) (eq1 (ext_powerclass_setoid A))) + (* ----------------------------------------------------- *) ⊢ + carr1 R ≡ ext_powerclass A. + +interpretation "prop21 mem" 'prop2 l r = (prop21 (setoid1_of_setoid ?) (ext_powerclass_setoid ?) ? ? ???? l r). + +(* +ncoercion ext_carr' : ∀A.∀x:ext_powerclass_setoid A. Ω^A ≝ ext_carr +on _x : (carr1 (ext_powerclass_setoid ?)) to (Ω^?). +*) + +nlemma mem_ext_powerclass_setoid_is_morph: + ∀A. binary_morphism1 (setoid1_of_setoid A) (ext_powerclass_setoid A) CPROP. #A; @ [ napply (λx,S. x ∈ S) | #a; #a'; #b; #b'; #Ha; *; #Hb1; #Hb2; @; #H; - ##[ napply Hb1; napply (. (mem_ok' …)); ##[##3: napply H| napply Ha^-1;##] - ##| napply Hb2; napply (. (mem_ok' …)); ##[##3: napply H| napply Ha;##] + ##[ napply Hb1; napply (. (ext_prop … Ha^-1)); nassumption; + ##| napply Hb2; napply (. (ext_prop … Ha)); nassumption; ##] ##] nqed. -unification hint 0 ≔ - A : setoid, x, S ⊢ (mem_ok A) x S ≡ mem A S x. - -nlemma subseteq_ok: ∀A. binary_morphism1 (qpowerclass_setoid A) (qpowerclass_setoid A) CPROP. +unification hint 0 ≔ A:setoid, x, S; + SS ≟ (ext_carr ? S), + TT ≟ (mk_binary_morphism1 ??? + (λx:setoid1_of_setoid ?.λS:ext_powerclass_setoid ?. x ∈ S) + (prop21 ??? (mem_ext_powerclass_setoid_is_morph A))), + XX ≟ (ext_powerclass_setoid A) + (*-------------------------------------*) ⊢ + fun21 (setoid1_of_setoid A) XX CPROP TT x S + ≡ mem A SS x. + +nlemma subseteq_is_morph: ∀A. binary_morphism1 (ext_powerclass_setoid A) (ext_powerclass_setoid A) CPROP. #A; @ [ napply (λS,S'. S ⊆ S') | #a; #a'; #b; #b'; *; #Ha1; #Ha2; *; #Hb1; #Hb2; @; #H @@ -127,33 +154,126 @@ nlemma subseteq_ok: ∀A. binary_morphism1 (qpowerclass_setoid A) (qpowerclass_s [ nassumption | napply (subseteq_trans … b'); nassumption ] ##] nqed. -nlemma intersect_ok: ∀A. binary_morphism1 (qpowerclass_setoid A) (qpowerclass_setoid A) (qpowerclass_setoid A). +unification hint 0 ≔ A,a,a' + (*-----------------------------------------------------------------*) ⊢ + eq_rel ? (eq A) a a' ≡ eq_rel1 ? (eq1 (setoid1_of_setoid A)) a a'. + +nlemma intersect_is_ext: ∀A. 𝛀^A → 𝛀^A → 𝛀^A. + #A; #S; #S'; @ (S ∩ S'); + #a; #a'; #Ha; @; *; #H1; #H2; @ + [##1,2: napply (. Ha^-1‡#); nassumption; +##|##3,4: napply (. Ha‡#); nassumption] +nqed. + +alias symbol "hint_decl" = "hint_decl_Type1". +unification hint 0 ≔ + A : setoid, B,C : ext_powerclass A; + R ≟ (mk_ext_powerclass ? (B ∩ C) (ext_prop ? (intersect_is_ext ? B C))) + + (* ------------------------------------------*) ⊢ + ext_carr A R ≡ intersect ? (ext_carr ? B) (ext_carr ? C). + +nlemma intersect_is_morph: + ∀A. binary_morphism1 (powerclass_setoid A) (powerclass_setoid A) (powerclass_setoid A). + #A; @ (λS,S'. S ∩ S'); + #a; #a'; #b; #b'; *; #Ha1; #Ha2; *; #Hb1; #Hb2; @; #x; nnormalize; *; #Ka; #Kb; @ + [ napply Ha1; nassumption + | napply Hb1; nassumption + | napply Ha2; nassumption + | napply Hb2; nassumption] +nqed. + +alias symbol "hint_decl" = "hint_decl_Type1". +unification hint 0 ≔ + A : Type[0], B,C : Ω^A; + R ≟ (mk_binary_morphism1 … + (λS,S'.S ∩ S') + (prop21 … (intersect_is_morph A))) + ⊢ + fun21 (powerclass_setoid A) (powerclass_setoid A) (powerclass_setoid A) R B C + ≡ intersect ? B C. + +interpretation "prop21 ext" 'prop2 l r = (prop21 (ext_powerclass_setoid ?) (ext_powerclass_setoid ?) ? ? ???? l r). + +nlemma intersect_is_ext_morph: + ∀A. binary_morphism1 (ext_powerclass_setoid A) (ext_powerclass_setoid A) (ext_powerclass_setoid A). + #A; @ (intersect_is_ext …); nlapply (prop21 … (intersect_is_morph A)); +#H; #a; #a'; #b; #b'; #H1; #H2; napply H; nassumption; +nqed. + +unification hint 1 ≔ + A:setoid, B,C : 𝛀^A; + R ≟ (mk_binary_morphism1 (ext_powerclass_setoid A) (ext_powerclass_setoid A) (ext_powerclass_setoid A) + (λS,S':carr1 (ext_powerclass_setoid A). + mk_ext_powerclass A (S∩S') (ext_prop A (intersect_is_ext ? S S'))) + (prop21 … (intersect_is_ext_morph A))) , + BB ≟ (ext_carr ? B), + CC ≟ (ext_carr ? C) + (* ------------------------------------------------------*) ⊢ + ext_carr A + (fun21 + (ext_powerclass_setoid A) + (ext_powerclass_setoid A) + (ext_powerclass_setoid A) R B C) ≡ + intersect (carr A) BB CC. + +(* +alias symbol "hint_decl" = "hint_decl_Type2". +unification hint 0 ≔ + A : setoid, B,C : 𝛀^A ; + CC ≟ (ext_carr ? C), + BB ≟ (ext_carr ? B), + C1 ≟ (carr1 (powerclass_setoid (carr A))), + C2 ≟ (carr1 (ext_powerclass_setoid A)) + ⊢ + eq_rel1 C1 (eq1 (powerclass_setoid (carr A))) BB CC ≡ + eq_rel1 C2 (eq1 (ext_powerclass_setoid A)) B C. + +unification hint 0 ≔ + A, B : CPROP ⊢ iff A B ≡ eq_rel1 ? (eq1 CPROP) A B. + +nlemma test: ∀U.∀A,B:𝛀^U. A ∩ B = A → + ∀x,y. x=y → x ∈ A → y ∈ A ∩ B. + #U; #A; #B; #H; #x; #y; #K; #K2; + alias symbol "prop2" = "prop21 mem". + alias symbol "invert" = "setoid1 symmetry". + napply (. K^-1‡H); + nassumption; +nqed. + + +nlemma intersect_ok: ∀A. binary_morphism1 (ext_powerclass_setoid A) (ext_powerclass_setoid A) (ext_powerclass_setoid A). #A; @ [ #S; #S'; @ [ napply (S ∩ S') - | #a; #a'; #Ha; nwhd in ⊢ (? ? ? % %); @; *; #H1; #H2; @ - [##1,2: napply (. (mem_ok' …)^-1) [##3,6: nassumption |##2,5: nassumption |##*: ##skip] - ##|##3,4: napply (. (mem_ok' …)) [##1,3,4,6: nassumption |##*: ##skip]##]##] + | #a; #a'; #Ha; + nwhd in ⊢ (? ? ? % %); @; *; #H1; #H2; @ + [##1,2: napply (. Ha^-1‡#); nassumption; + ##|##3,4: napply (. Ha‡#); nassumption]##] ##| #a; #a'; #b; #b'; #Ha; #Hb; nwhd; @; #x; nwhd in ⊢ (% → %); #H - [ napply (. ((#‡Ha^-1)‡(#‡Hb^-1))); nassumption + [ alias symbol "invert" = "setoid1 symmetry". + alias symbol "refl" = "refl". +alias symbol "prop2" = "prop21". +napply (. ((#‡Ha^-1)‡(#‡Hb^-1))); nassumption | napply (. ((#‡Ha)‡(#‡Hb))); nassumption ]##] nqed. (* unfold if intersect, exposing fun21 *) alias symbol "hint_decl" = "hint_decl_Type1". unification hint 0 ≔ - A : setoid, B,C : qpowerclass A ⊢ - pc A (intersect_ok A B C) ≡ intersect ? (pc ? B) (pc ? C). - -(* hints can pass under mem *) (* ??? XXX why is it needed? *) -unification hint 0 ≔ A,B,x ; - C ≟ B - (*---------------------*) ⊢ - mem A B x ≡ mem A C x. + A : setoid, B,C : ext_powerclass A ⊢ + pc A (fun21 … + (mk_binary_morphism1 … + (λS,S':qpowerclass_setoid A.mk_qpowerclass ? (S ∩ S') (mem_ok' ? (intersect_ok ? S S'))) + (prop21 … (intersect_ok A))) + B + C) + ≡ intersect ? (pc ? B) (pc ? C). nlemma test: ∀A:setoid. ∀U,V:qpowerclass A. ∀x,x':setoid1_of_setoid A. x=x' → x ∈ U ∩ V → x' ∈ U ∩ V. #A; #U; #V; #x; #x'; #H; #p; napply (. (H^-1‡#)); nassumption. nqed. +*) ndefinition image: ∀A,B. (carr A → carr B) → Ω^A → Ω^B ≝ λA,B:setoid.λf:carr A → carr B.λSa:Ω^A. @@ -167,10 +287,6 @@ ndefinition counter_image: ∀A,B. (carr A → carr B) → Ω^B → Ω^A ≝ nrecord compatible_equivalence_relation (A: setoid) : Type[1] ≝ { rel:> equivalence_relation A; compatibility: ∀x,x':A. x=x' → rel x x' - (* coercion qui non andava per via di un Failure invece di Uncertain - ritornato dall'unificazione per il problema: - ?[] A =?= ?[Γ]->?[Γ+1] - *) }. ndefinition quotient: ∀A. compatible_equivalence_relation A → setoid. @@ -185,7 +301,8 @@ ndefinition eqrel_of_morphism: [ @ [ napply (λx,y. f x = f y) | #x; napply refl | #x; #y; napply sym | #x; #y; #z; napply trans] -##| #x; #x'; #H; nwhd; napply (.= (†H)); napply refl ] +##| #x; #x'; #H; nwhd; alias symbol "prop1" = "prop1". +napply (.= (†H)); napply refl ] nqed. ndefinition canonical_proj: ∀A,R. unary_morphism A (quotient A R). @@ -207,17 +324,17 @@ nlemma first_omomorphism_theorem_functions1: nqed. ndefinition surjective ≝ - λA,B.λS: qpowerclass A.λT: qpowerclass B.λf:unary_morphism A B. + λA,B.λS: ext_powerclass A.λT: ext_powerclass B.λf:unary_morphism A B. ∀y. y ∈ T → ∃x. x ∈ S ∧ f x = y. ndefinition injective ≝ - λA,B.λS: qpowerclass A.λf:unary_morphism A B. + λA,B.λS: ext_powerclass A.λf:unary_morphism A B. ∀x,x'. x ∈ S → x' ∈ S → f x = f x' → x = x'. nlemma first_omomorphism_theorem_functions2: ∀A,B.∀f: unary_morphism A B. surjective … (Full_set ?) (Full_set ?) (canonical_proj ? (eqrel_of_morphism … f)). - #A; #B; #f; nwhd; #y; #Hy; @ y; @ [ napply I | napply refl] + #A; #B; #f; nwhd; #y; #Hy; @ y; @ I ; napply refl; (* bug, prova @ I refl *) nqed. @@ -227,9 +344,43 @@ nlemma first_omomorphism_theorem_functions3: #A; #B; #f; nwhd; #x; #x'; #Hx; #Hx'; #K; nassumption. nqed. -nrecord isomorphism (A) (B) (S: qpowerclass A) (T: qpowerclass B) : CProp[0] ≝ +nrecord isomorphism (A, B : setoid) (S: ext_powerclass A) (T: ext_powerclass B) : Type[0] ≝ { iso_f:> unary_morphism A B; f_closed: ∀x. x ∈ S → iso_f x ∈ T; f_sur: surjective … S T iso_f; f_inj: injective … S iso_f }. + +nlemma subseteq_intersection_l: ∀A.∀U,V,W:Ω^A.U ⊆ W ∨ V ⊆ W → U ∩ V ⊆ W. +#A; #U; #V; #W; *; #H; #x; *; #xU; #xV; napply H; nassumption; +nqed. + +nlemma subseteq_union_l: ∀A.∀U,V,W:Ω^A.U ⊆ W → V ⊆ W → U ∪ V ⊆ W. +#A; #U; #V; #W; #H; #H1; #x; *; #Hx; ##[ napply H; ##| napply H1; ##] nassumption; +nqed. + +nlemma subseteq_intersection_r: ∀A.∀U,V,W:Ω^A.W ⊆ U → W ⊆ V → W ⊆ U ∩ V. +#A; #U; #V; #W; #H1; #H2; #x; #Hx; @; ##[ napply H1; ##| napply H2; ##] nassumption; +nqed. + +(* +nrecord isomorphism (A, B : setoid) (S: qpowerclass A) (T: qpowerclass B) : CProp[0] ≝ + { iso_f:> unary_morphism A B; + f_closed: ∀x. x ∈ pc A S → fun1 ?? iso_f x ∈ pc B T}. + + +ncheck (λA:?. + λB:?. + λS:?. + λT:?. + λxxx:isomorphism A B S T. + match xxx + return λxxx:isomorphism A B S T. + ∀x: carr A. + ∀x_72: mem (carr A) (pc A S) x. + mem (carr B) (pc B T) (fun1 A B ((λ_.?) A B S T xxx) x) + with [ mk_isomorphism _ yyy ⇒ yyy ] ). + + ; + }. +*)