X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;ds=sidebyside;f=matitaB%2Fmatita%2Fnlibrary%2Fsets%2Fsetoids.ma;fp=matitaB%2Fmatita%2Fnlibrary%2Fsets%2Fsetoids.ma;h=e40dad6f6d20e4e3a1f7624b6f28b5d6056a6ef3;hb=cacbe3c6493ddce76c4c13379ade271d8dd172e8;hp=0000000000000000000000000000000000000000;hpb=f04a064bb34aabaf91dc0c48e3b08b37ecd7b0a2;p=helm.git diff --git a/matitaB/matita/nlibrary/sets/setoids.ma b/matitaB/matita/nlibrary/sets/setoids.ma new file mode 100644 index 000000000..e40dad6f6 --- /dev/null +++ b/matitaB/matita/nlibrary/sets/setoids.ma @@ -0,0 +1,121 @@ +(**************************************************************************) +(* ___ *) +(* ||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/connectives.ma". +include "properties/relations.ma". +include "hints_declaration.ma". + +nrecord setoid : Type[1] ≝ { + carr:> Type[0]; + eq0: equivalence_relation carr +}. + +(* activate non uniform coercions on: Type → setoid *) +unification hint 0 ≔ R : setoid; + MR ≟ carr R, + lock ≟ mk_lock1 Type[0] MR setoid R +(* ---------------------------------------- *) ⊢ + setoid ≡ force1 ? MR lock. + +notation < "[\setoid\ensp\of term 19 x]" non associative with precedence 90 for @{'mk_setoid $x}. +interpretation "mk_setoid" 'mk_setoid x = (mk_setoid x ?). + +interpretation "setoid eq" 'eq t x y = (eq_rel ? (eq0 t) x y). +(* single = is for the abstract equality of setoids, == is for concrete + equalities (that may be lifted to the setoid level when needed *) +notation < "hvbox(a break mpadded width -50% (=)= b)" non associative with precedence 45 for @{ 'eq_low $a $b }. +notation > "a == b" non associative with precedence 45 for @{ 'eq_low $a $b }. + +notation > "hvbox(a break =_0 b)" non associative with precedence 45 +for @{ eq_rel ? (eq0 ?) $a $b }. + +interpretation "setoid symmetry" 'invert r = (sym ???? r). +notation ".= r" with precedence 50 for @{'trans $r}. +interpretation "trans" 'trans r = (trans ????? r). +notation > ".=_0 r" with precedence 50 for @{'trans_x0 $r}. +interpretation "trans_x0" 'trans_x0 r = (trans ????? r). + +nrecord unary_morphism (A,B: setoid) : Type[0] ≝ { + fun1:1> A → B; + prop1: ∀a,a'. a = a' → fun1 a = fun1 a' +}. + +notation > "B ⇒_0 C" right associative with precedence 72 for @{'umorph0 $B $C}. +notation "hvbox(B break ⇒\sub 0 C)" right associative with precedence 72 for @{'umorph0 $B $C}. +interpretation "unary morphism 0" 'umorph0 A B = (unary_morphism A B). + +notation "† c" with precedence 90 for @{'prop1 $c }. +notation "l ‡ r" with precedence 90 for @{'prop2 $l $r }. +notation "#" with precedence 90 for @{'refl}. +interpretation "prop1" 'prop1 c = (prop1 ????? c). +interpretation "refl" 'refl = (refl ???). +notation "┼_0 c" with precedence 89 for @{'prop1_x0 $c }. +notation "l ╪_0 r" with precedence 89 for @{'prop2_x0 $l $r }. +interpretation "prop1_x0" 'prop1_x0 c = (prop1 ????? c). + +ndefinition unary_morph_setoid : setoid → setoid → setoid. +#S1; #S2; @ (S1 ⇒_0 S2); @; +##[ #f; #g; napply (∀x,x'. x=x' → f x = g x'); +##| #f; #x; #x'; #Hx; napply (.= †Hx); napply #; +##| #f; #g; #H; #x; #x'; #Hx; napply ((H … Hx^-1)^-1); +##| #f; #g; #h; #H1; #H2; #x; #x'; #Hx; napply (trans … (H1 …) (H2 …)); //; ##] +nqed. + +alias symbol "hint_decl" (instance 1) = "hint_decl_Type1". +unification hint 0 ≔ o1,o2 ; + X ≟ unary_morph_setoid o1 o2 + (* ----------------------------- *) ⊢ + carr X ≡ o1 ⇒_0 o2. + +interpretation "prop2" 'prop2 l r = (prop1 ? (unary_morph_setoid ??) ? ?? l ?? r). +interpretation "prop2_x0" 'prop2_x0 l r = (prop1 ? (unary_morph_setoid ??) ? ?? l ?? r). + +nlemma unary_morph_eq: ∀A,B.∀f,g:A ⇒_0 B. (∀x. f x = g x) → f = g. +#A B f g H x1 x2 E; napply (.= †E); napply H; nqed. + +nlemma mk_binary_morphism: + ∀A,B,C: setoid. ∀f: A → B → C. (∀a,a',b,b'. a=a' → b=b' → f a b = f a' b') → + A ⇒_0 (unary_morph_setoid B C). + #A; #B; #C; #f; #H; @; ##[ #x; @ (f x) ] #a; #a'; #Ha [##2: napply unary_morph_eq; #y] + /2/. +nqed. + +ndefinition composition ≝ + λo1,o2,o3:Type[0].λf:o2 → o3.λg: o1 → o2.λx.f (g x). + +interpretation "function composition" 'compose f g = (composition ??? f g). + +ndefinition comp_unary_morphisms: + ∀o1,o2,o3:setoid.o2 ⇒_0 o3 → o1 ⇒_0 o2 → o1 ⇒_0 o3. +#o1; #o2; #o3; #f; #g; @ (f ∘ g); + #a; #a'; #e; nnormalize; napply (.= †(†e)); napply #. +nqed. + +unification hint 0 ≔ o1,o2,o3:setoid,f:o2 ⇒_0 o3,g:o1 ⇒_0 o2; + R ≟ mk_unary_morphism o1 o3 + (composition ??? (fun1 o2 o3 f) (fun1 o1 o2 g)) + (prop1 o1 o3 (comp_unary_morphisms o1 o2 o3 f g)) + (* -------------------------------------------------------------------- *) ⊢ + fun1 o1 o3 R ≡ composition ??? (fun1 o2 o3 f) (fun1 o1 o2 g). + +ndefinition comp_binary_morphisms: + ∀o1,o2,o3.(o2 ⇒_0 o3) ⇒_0 ((o1 ⇒_0 o2) ⇒_0 (o1 ⇒_0 o3)). +#o1; #o2; #o3; napply mk_binary_morphism + [ #f; #g; napply (comp_unary_morphisms ??? f g) + (* CSC: why not ∘? + GARES: because the coercion to FunClass is not triggered if there + are no "extra" arguments. We could fix that in the refiner + *) + | #a; #a'; #b; #b'; #ea; #eb; #x; #x'; #Hx; nnormalize; /3/ ] +nqed.