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 ********************)
unification hint 0 ≔ A ⊢
carr1 (qpowerclass_setoid A) ≡ qpowerclass A.
+(*CSC: non va!
+unification hint 0 ≔ A ⊢
+ carr1 (mk_setoid1 (qpowerclass A) (eq1 (qpowerclass_setoid A))) ≡ qpowerclass A.*)
+
nlemma mem_ok: ∀A. binary_morphism1 (setoid1_of_setoid A) (qpowerclass_setoid A) CPROP.
#A; @
[ napply (λx,S. x ∈ S)
##]
nqed.
-unification hint 0 ≔
- A : setoid, x, S ⊢ (mem_ok A) x S ≡ mem A S x.
-
+(*CSC: bug qui se metto x o S al posto di ?
+nlemma foo: True.
+nletin xxx ≝ (λA:setoid.λx,S. let SS ≝ pc ? S in
+ fun21 ??? (mk_binary_morphism1 ??? (λx.λS. ? ∈ ?) (prop21 ??? (mem_ok A))) x S);
+*)
+unification hint 0 ≔ A:setoid, x, S;
+ SS ≟ (pc ? S)
+ (*-------------------------------------*) ⊢
+ fun21 ??? (mk_binary_morphism1 ??? (λx,S. x ∈ S) (prop21 ??? (mem_ok A))) x S ≡ mem A SS x.
+
nlemma subseteq_ok: ∀A. binary_morphism1 (qpowerclass_setoid A) (qpowerclass_setoid A) CPROP.
#A; @
[ napply (λS,S'. S ⊆ S')
[ nassumption | napply (subseteq_trans … b'); nassumption ] ##]
nqed.
-(* 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.
-
unification hint 0 ≔ A,a,a'
- (*---------------------*) ⊢
+ (*-----------------------------------------------------------------*) ⊢
eq_rel ? (eq A) a a' ≡ eq_rel1 ? (eq1 (setoid1_of_setoid A)) a a'.
nlemma intersect_ok: ∀A. binary_morphism1 (qpowerclass_setoid A) (qpowerclass_setoid A) (qpowerclass_setoid A).
[ #S; #S'; @
[ napply (S ∩ S')
| #a; #a'; #Ha;
- (*napply (.= #‡#);*)
nwhd in ⊢ (? ? ? % %); @; *; #H1; #H2; @
[##1,2: napply (. Ha^-1‡#); nassumption;
##|##3,4: napply (. Ha‡#); nassumption]##]
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.
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.
#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: qpowerclass A) (T: qpowerclass 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
}.
+
+(*
+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 ] ).
+
+ ;
+ }.
+*)