nqed.
nlemma symmetric_eqpair :
-∀T1,T2:Type.∀p1,p2:ProdT T1 T2.
+∀T1,T2:Type.
∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.
(symmetricT T1 bool f1) →
(symmetricT T2 bool f2) →
- (eq_pair T1 T2 p1 p2 f1 f2 = eq_pair T1 T2 p2 p1 f1 f2).
- #T1; #T2; #p1; #p2; #f1; #f2; #H; #H1;
- nelim p1;
- #x1; #y1;
- nelim p2;
- #x2; #y2;
+ (∀p1,p2:ProdT T1 T2.
+ (eq_pair T1 T2 f1 f2 p1 p2 = eq_pair T1 T2 f1 f2 p1 p2)).
+ #T1; #T2; #f1; #f2; #H; #H1;
+ #p1; nelim p1; #x1; #y1;
+ #p2; nelim p2; #x2; #y2;
nnormalize;
nrewrite > (H x1 x2);
ncases (f1 x2 x1);
nqed.
nlemma eq_to_eqpair :
-∀T1,T2.∀p1,p2:ProdT T1 T2.
+∀T1,T2.
∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.
(∀x,y:T1.x = y → f1 x y = true) →
(∀x,y:T2.x = y → f2 x y = true) →
- (p1 = p2 → eq_pair T1 T2 p1 p2 f1 f2 = true).
- #T1; #T2; #p1; #p2; #f1; #f2; #H1; #H2;
- nelim p1;
- #x1; #y1;
- nelim p2;
- #x2; #y2; #H;
+ (∀p1,p2:ProdT T1 T2.
+ (p1 = p2 → eq_pair T1 T2 f1 f2 p1 p2 = true)).
+ #T1; #T2; #f1; #f2; #H1; #H2;
+ #p1; nelim p1; #x1; #y1;
+ #p2; nelim p2; #x2; #y2; #H;
nnormalize;
nrewrite > (H1 … (pair_destruct_1 … H));
nnormalize;
nqed.
nlemma eqpair_to_eq :
-∀T1,T2.∀p1,p2:ProdT T1 T2.
+∀T1,T2.
∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.
(∀x,y:T1.f1 x y = true → x = y) →
(∀x,y:T2.f2 x y = true → x = y) →
- (eq_pair T1 T2 p1 p2 f1 f2 = true → p1 = p2).
- #T1; #T2; #p1; #p2; #f1; #f2; #H1; #H2;
- nelim p1;
- #x1; #y1;
- nelim p2;
- #x2; #y2; #H;
+ (∀p1,p2:ProdT T1 T2.
+ (eq_pair T1 T2 f1 f2 p1 p2 = true → p1 = p2)).
+ #T1; #T2; #f1; #f2; #H1; #H2;
+ #p1; nelim p1; #x1; #y1;
+ #p2; nelim p2; #x2; #y2; #H;
nnormalize in H:(%);
nletin K ≝ (H1 x1 x2);
ncases (f1 x1 x2) in H:(%) K:(%);
napply refl_eq.
nqed.
-nlemma decidable_pair
- : ∀T1,T2.
- (∀x,y:T1.decidable (x = y)) →
- (∀x,y:T2.decidable (x = y)) →
- ∀x,y:ProdT T1 T2.decidable (x = y).
+nlemma decidable_pair :
+∀T1,T2.
+ (∀x,y:T1.decidable (x = y)) →
+ (∀x,y:T2.decidable (x = y)) →
+ (∀x,y:ProdT T1 T2.decidable (x = y)).
#T1; #T2; #H; #H1;
#x; nelim x; #xx1; #xx2;
#y; nelim y; #yy1; #yy2;
nqed.
nlemma neqpair_to_neq :
- ∀T1,T2.∀p1,p2:ProdT T1 T2.
- ∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.
+∀T1,T2.
+∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.
(∀x,y:T1.f1 x y = false → x ≠ y) →
(∀x,y:T2.f2 x y = false → x ≠ y) →
- (eq_pair T1 T2 p1 p2 f1 f2 = false → p1 ≠ p2).
- #T1; #T2; #p1; #p2; #f1; #f2; #H1; #H2;
- nelim p1;
- #x1; #y1;
- nelim p2;
- #x2; #y2;
+ (∀p1,p2:ProdT T1 T2.
+ (eq_pair T1 T2 f1 f2 p1 p2 = false → p1 ≠ p2)).
+ #T1; #T2; #f1; #f2; #H1; #H2;
+ #p1; nelim p1; #x1; #y1;
+ #p2; nelim p2; #x2; #y2;
nchange with ((((f1 x1 x2) ⊗ (f2 y1 y2)) = false) → ?); #H;
nnormalize; #H3;
napply (or2_elim ((f1 x1 x2) = false) ((f2 y1 y2) = false) ? (andb_false2 … H) ?);
##]
nqed.
-nlemma pair_destruct
- : ∀T1,T2.
- (∀x,y:T1.decidable (x = y)) →
- (∀x,y:T2.decidable (x = y)) →
- ∀x1,x2:T1.∀y1,y2:T2.(pair T1 T2 x1 y1) ≠ (pair T1 T2 x2 y2) → x1 ≠ x2 ∨ y1 ≠ y2.
+nlemma pair_destruct :
+∀T1,T2.
+ (∀x,y:T1.decidable (x = y)) →
+ (∀x,y:T2.decidable (x = y)) →
+ (∀x1,x2:T1.∀y1,y2:T2.
+ (pair T1 T2 x1 y1) ≠ (pair T1 T2 x2 y2) → x1 ≠ x2 ∨ y1 ≠ y2).
#T1; #T2; #H1; #H2; #x1; #x2; #y1; #y2;
nnormalize; #H;
napply (or2_elim (x1 = x2) (x1 ≠ x2) ? (H1 x1 x2) ?);
nqed.
nlemma neq_to_neqpair :
- ∀T1,T2.∀p1,p2:ProdT T1 T2.
- ∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.
+∀T1,T2.
+∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.
(∀x,y:T1.decidable (x = y)) →
(∀x,y:T2.decidable (x = y)) →
(∀x,y:T1.x ≠ y → f1 x y = false) →
(∀x,y:T2.x ≠ y → f2 x y = false) →
- (p1 ≠ p2 → eq_pair T1 T2 p1 p2 f1 f2 = false).
- #T1; #T2; #p1; #p2; #f1; #f2; #H1; #H2; #H3; #H4;
- nelim p1;
- #x1; #y1;
- nelim p2;
- #x2; #y2; #H;
+ (∀p1,p2:ProdT T1 T2.
+ (p1 ≠ p2 → eq_pair T1 T2 f1 f2 p1 p2 = false)).
+ #T1; #T2; #f1; #f2; #H1; #H2; #H3; #H4;
+ #p1; nelim p1; #x1; #y1;
+ #p2; nelim p2; #x2; #y2; #H;
nchange with (((f1 x1 x2) ⊗ (f2 y1 y2)) = false);
napply (or2_elim (x1 ≠ x2) (y1 ≠ y2) ? (pair_destruct T1 T2 H1 H2 … H) ?);
##[ ##2: #H5; nrewrite > (H4 … H5); nrewrite > (andb_false2_2 (f1 x1 x2)); napply refl_eq
nqed.
nlemma symmetric_eqtriple :
-∀T1,T2,T3:Type.∀p1,p2:Prod3T T1 T2 T3.
+∀T1,T2,T3:Type.
∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.∀f3:T3 → T3 → bool.
(symmetricT T1 bool f1) →
(symmetricT T2 bool f2) →
(symmetricT T3 bool f3) →
- (eq_triple T1 T2 T3 p1 p2 f1 f2 f3 = eq_triple T1 T2 T3 p2 p1 f1 f2 f3).
- #T1; #T2; #T3; #p1; #p2; #f1; #f2; #f3; #H; #H1; #H2;
- nelim p1;
- #x1; #y1; #z1;
- nelim p2;
- #x2; #y2; #z2;
+ (∀p1,p2:Prod3T T1 T2 T3.
+ (eq_triple T1 T2 T3 f1 f2 f3 p1 p2 = eq_triple T1 T2 T3 f1 f2 f3 p2 p1)).
+ #T1; #T2; #T3; #f1; #f2; #f3; #H; #H1; #H2;
+ #p1; nelim p1; #x1; #y1; #z1;
+ #p2; nelim p2; #x2; #y2; #z2;
nnormalize;
nrewrite > (H x1 x2);
ncases (f1 x2 x1);
nqed.
nlemma eq_to_eqtriple :
-∀T1,T2,T3.∀p1,p2:Prod3T T1 T2 T3.
+∀T1,T2,T3.
∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.∀f3:T3 → T3 → bool.
(∀x1,x2:T1.x1 = x2 → f1 x1 x2 = true) →
(∀y1,y2:T2.y1 = y2 → f2 y1 y2 = true) →
(∀z1,z2:T3.z1 = z2 → f3 z1 z2 = true) →
- (p1 = p2 → eq_triple T1 T2 T3 p1 p2 f1 f2 f3 = true).
- #T1; #T2; #T3; #p1; #p2; #f1; #f2; #f3; #H1; #H2; #H3;
- nelim p1;
- #x1; #y1; #z1;
- nelim p2;
- #x2; #y2; #z2; #H;
+ (∀p1,p2:Prod3T T1 T2 T3.
+ (p1 = p2 → eq_triple T1 T2 T3 f1 f2 f3 p1 p2 = true)).
+ #T1; #T2; #T3; #f1; #f2; #f3; #H1; #H2; #H3;
+ #p1; nelim p1; #x1; #y1; #z1;
+ #p2; nelim p2; #x2; #y2; #z2; #H;
nnormalize;
nrewrite > (H1 … (triple_destruct_1 … H));
nnormalize;
nqed.
nlemma eqtriple_to_eq :
-∀T1,T2,T3.∀p1,p2:Prod3T T1 T2 T3.
+∀T1,T2,T3.
∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.∀f3:T3 → T3 → bool.
(∀x1,x2:T1.f1 x1 x2 = true → x1 = x2) →
(∀y1,y2:T2.f2 y1 y2 = true → y1 = y2) →
(∀z1,z2:T3.f3 z1 z2 = true → z1 = z2) →
- (eq_triple T1 T2 T3 p1 p2 f1 f2 f3 = true → p1 = p2).
- #T1; #T2; #T3; #p1; #p2; #f1; #f2; #f3; #H1; #H2; #H3;
- nelim p1;
- #x1; #y1; #z1;
- nelim p2;
- #x2; #y2; #z2; #H;
+ (∀p1,p2:Prod3T T1 T2 T3.
+ (eq_triple T1 T2 T3 f1 f2 f3 p1 p2 = true → p1 = p2)).
+ #T1; #T2; #T3; #f1; #f2; #f3; #H1; #H2; #H3;
+ #p1; nelim p1; #x1; #y1; #z1;
+ #p2; nelim p2; #x2; #y2; #z2; #H;
nnormalize in H:(%);
nletin K ≝ (H1 x1 x2);
ncases (f1 x1 x2) in H:(%) K:(%);
napply refl_eq.
nqed.
-nlemma decidable_triple
- : ∀T1,T2,T3.
- (∀x,y:T1.decidable (x = y)) →
- (∀x,y:T2.decidable (x = y)) →
- (∀x,y:T3.decidable (x = y)) →
- ∀x,y:Prod3T T1 T2 T3.decidable (x = y).
+nlemma decidable_triple :
+∀T1,T2,T3.
+ (∀x,y:T1.decidable (x = y)) →
+ (∀x,y:T2.decidable (x = y)) →
+ (∀x,y:T3.decidable (x = y)) →
+ (∀x,y:Prod3T T1 T2 T3.decidable (x = y)).
#T1; #T2; #T3; #H; #H1; #H2;
#x; nelim x; #xx1; #xx2; #xx3;
#y; nelim y; #yy1; #yy2; #yy3;
nqed.
nlemma neqtriple_to_neq :
- ∀T1,T2,T3.∀p1,p2:Prod3T T1 T2 T3.
- ∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.∀f3:T3 → T3 → bool.
+∀T1,T2,T3.
+∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.∀f3:T3 → T3 → bool.
(∀x,y:T1.f1 x y = false → x ≠ y) →
(∀x,y:T2.f2 x y = false → x ≠ y) →
(∀x,y:T3.f3 x y = false → x ≠ y) →
- (eq_triple T1 T2 T3 p1 p2 f1 f2 f3 = false → p1 ≠ p2).
- #T1; #T2; #T3; #p1; #p2; #f1; #f2; #f3; #H1; #H2; #H3;
- nelim p1;
- #x1; #y1; #z1;
- nelim p2;
- #x2; #y2; #z2;
+ (∀p1,p2:Prod3T T1 T2 T3.
+ (eq_triple T1 T2 T3 f1 f2 f3 p1 p2 = false → p1 ≠ p2)).
+ #T1; #T2; #T3; #f1; #f2; #f3; #H1; #H2; #H3;
+ #p1; nelim p1; #x1; #y1; #z1;
+ #p2; nelim p2; #x2; #y2; #z2;
nchange with ((((f1 x1 x2) ⊗ (f2 y1 y2) ⊗ (f3 z1 z2)) = false) → ?); #H;
nnormalize; #H4;
napply (or3_elim ((f1 x1 x2) = false) ((f2 y1 y2) = false) ((f3 z1 z2) = false) ? (andb_false3 … H) ?);
##]
nqed.
-nlemma triple_destruct
- : ∀T1,T2,T3.
- (∀x,y:T1.decidable (x = y)) →
- (∀x,y:T2.decidable (x = y)) →
- (∀x,y:T3.decidable (x = y)) →
- ∀x1,x2:T1.∀y1,y2:T2.∀z1,z2:T3.(triple T1 T2 T3 x1 y1 z1) ≠ (triple T1 T2 T3 x2 y2 z2) →
- Or3 (x1 ≠ x2) (y1 ≠ y2) (z1 ≠ z2).
+nlemma triple_destruct :
+∀T1,T2,T3.
+ (∀x,y:T1.decidable (x = y)) →
+ (∀x,y:T2.decidable (x = y)) →
+ (∀x,y:T3.decidable (x = y)) →
+ (∀x1,x2:T1.∀y1,y2:T2.∀z1,z2:T3.
+ (triple T1 T2 T3 x1 y1 z1) ≠ (triple T1 T2 T3 x2 y2 z2) →
+ Or3 (x1 ≠ x2) (y1 ≠ y2) (z1 ≠ z2)).
#T1; #T2; #T3; #H1; #H2; #H3; #x1; #x2; #y1; #y2; #z1; #z2;
nnormalize; #H;
napply (or2_elim (x1 = x2) (x1 ≠ x2) ? (H1 x1 x2) ?);
nqed.
nlemma neq_to_neqtriple :
- ∀T1,T2,T3.∀p1,p2:Prod3T T1 T2 T3.
- ∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.∀f3:T3 → T3 → bool.
+∀T1,T2,T3.
+∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.∀f3:T3 → T3 → bool.
(∀x,y:T1.decidable (x = y)) →
(∀x,y:T2.decidable (x = y)) →
(∀x,y:T3.decidable (x = y)) →
(∀x,y:T1.x ≠ y → f1 x y = false) →
(∀x,y:T2.x ≠ y → f2 x y = false) →
(∀x,y:T3.x ≠ y → f3 x y = false) →
- (p1 ≠ p2 → eq_triple T1 T2 T3 p1 p2 f1 f2 f3 = false).
- #T1; #T2; #T3; #p1; #p2; #f1; #f2; #f3; #H1; #H2; #H3; #H4; #H5; #H6;
- nelim p1;
- #x1; #y1; #z1;
- nelim p2;
- #x2; #y2; #z2; #H;
+ (∀p1,p2:Prod3T T1 T2 T3.
+ (p1 ≠ p2 → eq_triple T1 T2 T3 f1 f2 f3 p1 p2 = false)).
+ #T1; #T2; #T3; #f1; #f2; #f3; #H1; #H2; #H3; #H4; #H5; #H6;
+ #p1; nelim p1; #x1; #y1; #z1;
+ #p2; nelim p2; #x2; #y2; #z2; #H;
nchange with (((f1 x1 x2) ⊗ (f2 y1 y2) ⊗ (f3 z1 z2)) = false);
napply (or3_elim (x1 ≠ x2) (y1 ≠ y2) (z1 ≠ z2) ? (triple_destruct T1 T2 T3 H1 H2 H3 … H) ?);
##[ ##1: #H7; nrewrite > (H4 … H7); nrewrite > (andb_false3_1 (f2 y1 y2) (f3 z1 z2)); napply refl_eq
nqed.
nlemma symmetric_eqquadruple :
-∀T1,T2,T3,T4:Type.∀p1,p2:Prod4T T1 T2 T3 T4.
+∀T1,T2,T3,T4:Type.
∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.∀f3:T3 → T3 → bool.∀f4:T4 → T4 → bool.
(symmetricT T1 bool f1) →
(symmetricT T2 bool f2) →
(symmetricT T3 bool f3) →
(symmetricT T4 bool f4) →
- (eq_quadruple T1 T2 T3 T4 p1 p2 f1 f2 f3 f4 = eq_quadruple T1 T2 T3 T4 p2 p1 f1 f2 f3 f4).
- #T1; #T2; #T3; #T4; #p1; #p2; #f1; #f2; #f3; #f4; #H; #H1; #H2; #H3;
- nelim p1;
- #x1; #y1; #z1; #v1;
- nelim p2;
- #x2; #y2; #z2; #v2;
+ (∀p1,p2:Prod4T T1 T2 T3 T4.
+ (eq_quadruple T1 T2 T3 T4 f1 f2 f3 f4 p1 p2 = eq_quadruple T1 T2 T3 T4 f1 f2 f3 f4 p2 p1)).
+ #T1; #T2; #T3; #T4; #f1; #f2; #f3; #f4; #H; #H1; #H2; #H3;
+ #p1; nelim p1; #x1; #y1; #z1; #v1;
+ #p2; nelim p2; #x2; #y2; #z2; #v2;
nnormalize;
nrewrite > (H x1 x2);
ncases (f1 x2 x1);
nqed.
nlemma eq_to_eqquadruple :
-∀T1,T2,T3,T4.∀p1,p2:Prod4T T1 T2 T3 T4.
+∀T1,T2,T3,T4.
∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.∀f3:T3 → T3 → bool.∀f4:T4 → T4 → bool.
(∀x,y:T1.x = y → f1 x y = true) →
(∀x,y:T2.x = y → f2 x y = true) →
(∀x,y:T3.x = y → f3 x y = true) →
(∀x,y:T4.x = y → f4 x y = true) →
- (p1 = p2 → eq_quadruple T1 T2 T3 T4 p1 p2 f1 f2 f3 f4 = true).
- #T1; #T2; #T3; #T4; #p1; #p2; #f1; #f2; #f3; #f4; #H1; #H2; #H3; #H4;
- nelim p1;
- #x1; #y1; #z1; #v1;
- nelim p2;
- #x2; #y2; #z2; #v2; #H;
+ (∀p1,p2:Prod4T T1 T2 T3 T4.
+ (p1 = p2 → eq_quadruple T1 T2 T3 T4 f1 f2 f3 f4 p1 p2 = true)).
+ #T1; #T2; #T3; #T4; #f1; #f2; #f3; #f4; #H1; #H2; #H3; #H4;
+ #p1; nelim p1; #x1; #y1; #z1; #v1;
+ #p2; nelim p2; #x2; #y2; #z2; #v2; #H;
nnormalize;
nrewrite > (H1 … (quadruple_destruct_1 … H));
nnormalize;
nqed.
nlemma eqquadruple_to_eq :
-∀T1,T2,T3,T4.∀p1,p2:Prod4T T1 T2 T3 T4.
+∀T1,T2,T3,T4.
∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.∀f3:T3 → T3 → bool.∀f4:T4 → T4 → bool.
(∀x,y:T1.f1 x y = true → x = y) →
(∀x,y:T2.f2 x y = true → x = y) →
(∀x,y:T3.f3 x y = true → x = y) →
(∀x,y:T4.f4 x y = true → x = y) →
- (eq_quadruple T1 T2 T3 T4 p1 p2 f1 f2 f3 f4 = true → p1 = p2).
- #T1; #T2; #T3; #T4; #p1; #p2; #f1; #f2; #f3; #f4; #H1; #H2; #H3; #H4;
- nelim p1;
- #x1; #y1; #z1; #v1;
- nelim p2;
- #x2; #y2; #z2; #v2; #H;
+ (∀p1,p2:Prod4T T1 T2 T3 T4.
+ (eq_quadruple T1 T2 T3 T4 f1 f2 f3 f4 p1 p2 = true → p1 = p2)).
+ #T1; #T2; #T3; #T4; #f1; #f2; #f3; #f4; #H1; #H2; #H3; #H4;
+ #p1; nelim p1; #x1; #y1; #z1; #v1;
+ #p2; nelim p2; #x2; #y2; #z2; #v2; #H;
nnormalize in H:(%);
nletin K ≝ (H1 x1 x2);
ncases (f1 x1 x2) in H:(%) K:(%);
napply refl_eq.
nqed.
-nlemma decidable_quadruple
- : ∀T1,T2,T3,T4.
- (∀x,y:T1.decidable (x = y)) →
- (∀x,y:T2.decidable (x = y)) →
- (∀x,y:T3.decidable (x = y)) →
- (∀x,y:T4.decidable (x = y)) →
- ∀x,y:Prod4T T1 T2 T3 T4.decidable (x = y).
+nlemma decidable_quadruple :
+∀T1,T2,T3,T4.
+ (∀x,y:T1.decidable (x = y)) →
+ (∀x,y:T2.decidable (x = y)) →
+ (∀x,y:T3.decidable (x = y)) →
+ (∀x,y:T4.decidable (x = y)) →
+ (∀x,y:Prod4T T1 T2 T3 T4.decidable (x = y)).
#T1; #T2; #T3; #T4; #H; #H1; #H2; #H3;
#x; nelim x; #xx1; #xx2; #xx3; #xx4;
#y; nelim y; #yy1; #yy2; #yy3; #yy4;
nqed.
nlemma neqquadruple_to_neq :
- ∀T1,T2,T3,T4.∀p1,p2:Prod4T T1 T2 T3 T4.
- ∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.∀f3:T3 → T3 → bool.∀f4:T4 → T4 → bool.
+∀T1,T2,T3,T4.
+∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.∀f3:T3 → T3 → bool.∀f4:T4 → T4 → bool.
(∀x,y:T1.f1 x y = false → x ≠ y) →
(∀x,y:T2.f2 x y = false → x ≠ y) →
(∀x,y:T3.f3 x y = false → x ≠ y) →
(∀x,y:T4.f4 x y = false → x ≠ y) →
- (eq_quadruple T1 T2 T3 T4 p1 p2 f1 f2 f3 f4 = false → p1 ≠ p2).
- #T1; #T2; #T3; #T4; #p1; #p2; #f1; #f2; #f3; #f4; #H1; #H2; #H3; #H4;
- nelim p1;
- #x1; #y1; #z1; #v1;
- nelim p2;
- #x2; #y2; #z2; #v2;
+ (∀p1,p2:Prod4T T1 T2 T3 T4.
+ (eq_quadruple T1 T2 T3 T4 f1 f2 f3 f4 p1 p2 = false → p1 ≠ p2)).
+ #T1; #T2; #T3; #T4; #f1; #f2; #f3; #f4; #H1; #H2; #H3; #H4;
+ #p1; nelim p1; #x1; #y1; #z1; #v1;
+ #p2; nelim p2; #x2; #y2; #z2; #v2;
nchange with ((((f1 x1 x2) ⊗ (f2 y1 y2) ⊗ (f3 z1 z2) ⊗ (f4 v1 v2)) = false) → ?); #H;
nnormalize; #H5;
napply (or4_elim ((f1 x1 x2) = false) ((f2 y1 y2) = false) ((f3 z1 z2) = false) ((f4 v1 v2) = false) ? (andb_false4 … H) ?);
##]
nqed.
-nlemma quadruple_destruct
- : ∀T1,T2,T3,T4.
- (∀x,y:T1.decidable (x = y)) →
- (∀x,y:T2.decidable (x = y)) →
- (∀x,y:T3.decidable (x = y)) →
- (∀x,y:T4.decidable (x = y)) →
- ∀x1,x2:T1.∀y1,y2:T2.∀z1,z2:T3.∀v1,v2:T4.
- (quadruple T1 T2 T3 T4 x1 y1 z1 v1) ≠ (quadruple T1 T2 T3 T4 x2 y2 z2 v2) →
- Or4 (x1 ≠ x2) (y1 ≠ y2) (z1 ≠ z2) (v1 ≠ v2).
+nlemma quadruple_destruct :
+∀T1,T2,T3,T4.
+ (∀x,y:T1.decidable (x = y)) →
+ (∀x,y:T2.decidable (x = y)) →
+ (∀x,y:T3.decidable (x = y)) →
+ (∀x,y:T4.decidable (x = y)) →
+ (∀x1,x2:T1.∀y1,y2:T2.∀z1,z2:T3.∀v1,v2:T4.
+ (quadruple T1 T2 T3 T4 x1 y1 z1 v1) ≠ (quadruple T1 T2 T3 T4 x2 y2 z2 v2) →
+ Or4 (x1 ≠ x2) (y1 ≠ y2) (z1 ≠ z2) (v1 ≠ v2)).
#T1; #T2; #T3; #T4; #H1; #H2; #H3; #H4;
#x1; #x2; #y1; #y2; #z1; #z2; #v1; #v2;
nnormalize; #H;
nqed.
nlemma neq_to_neqquadruple :
- ∀T1,T2,T3,T4.∀p1,p2:Prod4T T1 T2 T3 T4.
- ∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.∀f3:T3 → T3 → bool.∀f4:T4 → T4 → bool.
+∀T1,T2,T3,T4.
+∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.∀f3:T3 → T3 → bool.∀f4:T4 → T4 → bool.
(∀x,y:T1.decidable (x = y)) →
(∀x,y:T2.decidable (x = y)) →
(∀x,y:T3.decidable (x = y)) →
(∀x,y:T2.x ≠ y → f2 x y = false) →
(∀x,y:T3.x ≠ y → f3 x y = false) →
(∀x,y:T4.x ≠ y → f4 x y = false) →
- (p1 ≠ p2 → eq_quadruple T1 T2 T3 T4 p1 p2 f1 f2 f3 f4 = false).
- #T1; #T2; #T3; #T4; #p1; #p2; #f1; #f2; #f3; #f4; #H1; #H2; #H3; #H4; #H5; #H6; #H7; #H8;
- nelim p1;
- #x1; #y1; #z1; #v1;
- nelim p2;
- #x2; #y2; #z2; #v2; #H;
+ (∀p1,p2:Prod4T T1 T2 T3 T4.
+ (p1 ≠ p2 → eq_quadruple T1 T2 T3 T4 f1 f2 f3 f4 p1 p2 = false)).
+ #T1; #T2; #T3; #T4; #f1; #f2; #f3; #f4; #H1; #H2; #H3; #H4; #H5; #H6; #H7; #H8;
+ #p1; nelim p1; #x1; #y1; #z1; #v1;
+ #p2; nelim p2; #x2; #y2; #z2; #v2; #H;
nchange with (((f1 x1 x2) ⊗ (f2 y1 y2) ⊗ (f3 z1 z2) ⊗ (f4 v1 v2)) = false);
napply (or4_elim (x1 ≠ x2) (y1 ≠ y2) (z1 ≠ z2) (v1 ≠ v2) ? (quadruple_destruct T1 T2 T3 T4 H1 H2 H3 H4 … H) ?);
##[ ##1: #H9; nrewrite > (H5 … H9); nrewrite > (andb_false4_1 (f2 y1 y2) (f3 z1 z2) (f4 v1 v2)); napply refl_eq
nqed.
nlemma symmetric_eqquintuple :
-∀T1,T2,T3,T4,T5:Type.∀p1,p2:Prod5T T1 T2 T3 T4 T5.
+∀T1,T2,T3,T4,T5:Type.
∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.∀f3:T3 → T3 → bool.∀f4:T4 → T4 → bool.∀f5:T5 → T5 → bool.
(symmetricT T1 bool f1) →
(symmetricT T2 bool f2) →
(symmetricT T3 bool f3) →
(symmetricT T4 bool f4) →
(symmetricT T5 bool f5) →
- (eq_quintuple T1 T2 T3 T4 T5 p1 p2 f1 f2 f3 f4 f5 = eq_quintuple T1 T2 T3 T4 T5 p2 p1 f1 f2 f3 f4 f5).
- #T1; #T2; #T3; #T4; #T5; #p1; #p2; #f1; #f2; #f3; #f4; #f5; #H; #H1; #H2; #H3; #H4;
- nelim p1;
- #x1; #y1; #z1; #v1; #w1;
- nelim p2;
- #x2; #y2; #z2; #v2; #w2;
+ (∀p1,p2:Prod5T T1 T2 T3 T4 T5.
+ (eq_quintuple T1 T2 T3 T4 T5 f1 f2 f3 f4 f5 p1 p2 = eq_quintuple T1 T2 T3 T4 T5 f1 f2 f3 f4 f5 p2 p1)).
+ #T1; #T2; #T3; #T4; #T5; #f1; #f2; #f3; #f4; #f5; #H; #H1; #H2; #H3; #H4;
+ #p1; nelim p1; #x1; #y1; #z1; #v1; #w1;
+ #p2; nelim p2; #x2; #y2; #z2; #v2; #w2;
nnormalize;
nrewrite > (H x1 x2);
ncases (f1 x2 x1);
nqed.
nlemma eq_to_eqquintuple :
-∀T1,T2,T3,T4,T5.∀p1,p2:Prod5T T1 T2 T3 T4 T5.
+∀T1,T2,T3,T4,T5.
∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.∀f3:T3 → T3 → bool.∀f4:T4 → T4 → bool.∀f5:T5 → T5 → bool.
(∀x,y:T1.x = y → f1 x y = true) →
(∀x,y:T2.x = y → f2 x y = true) →
(∀x,y:T3.x = y → f3 x y = true) →
(∀x,y:T4.x = y → f4 x y = true) →
(∀x,y:T5.x = y → f5 x y = true) →
- (p1 = p2 → eq_quintuple T1 T2 T3 T4 T5 p1 p2 f1 f2 f3 f4 f5 = true).
- #T1; #T2; #T3; #T4; #T5; #p1; #p2; #f1; #f2; #f3; #f4; #f5; #H1; #H2; #H3; #H4; #H5;
- nelim p1;
- #x1; #y1; #z1; #v1; #w1;
- nelim p2;
- #x2; #y2; #z2; #v2; #w2; #H;
+ (∀p1,p2:Prod5T T1 T2 T3 T4 T5.
+ (p1 = p2 → eq_quintuple T1 T2 T3 T4 T5 f1 f2 f3 f4 f5 p1 p2 = true)).
+ #T1; #T2; #T3; #T4; #T5; #f1; #f2; #f3; #f4; #f5; #H1; #H2; #H3; #H4; #H5;
+ #p1; nelim p1; #x1; #y1; #z1; #v1; #w1;
+ #p2; nelim p2; #x2; #y2; #z2; #v2; #w2; #H;
nnormalize;
nrewrite > (H1 … (quintuple_destruct_1 … H));
nnormalize;
nqed.
nlemma eqquintuple_to_eq :
-∀T1,T2,T3,T4,T5.∀p1,p2:Prod5T T1 T2 T3 T4 T5.
+∀T1,T2,T3,T4,T5.
∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.∀f3:T3 → T3 → bool.∀f4:T4 → T4 → bool.∀f5:T5 → T5 → bool.
(∀x,y:T1.f1 x y = true → x = y) →
(∀x,y:T2.f2 x y = true → x = y) →
(∀x,y:T3.f3 x y = true → x = y) →
(∀x,y:T4.f4 x y = true → x = y) →
(∀x,y:T5.f5 x y = true → x = y) →
- (eq_quintuple T1 T2 T3 T4 T5 p1 p2 f1 f2 f3 f4 f5 = true → p1 = p2).
- #T1; #T2; #T3; #T4; #T5; #p1; #p2; #f1; #f2; #f3; #f4; #f5; #H1; #H2; #H3; #H4; #H5;
- nelim p1;
- #x1; #y1; #z1; #v1; #w1;
- nelim p2;
- #x2; #y2; #z2; #v2; #w2; #H;
+ (∀p1,p2:Prod5T T1 T2 T3 T4 T5.
+ (eq_quintuple T1 T2 T3 T4 T5 f1 f2 f3 f4 f5 p1 p2 = true → p1 = p2)).
+ #T1; #T2; #T3; #T4; #T5; #f1; #f2; #f3; #f4; #f5; #H1; #H2; #H3; #H4; #H5;
+ #p1; nelim p1; #x1; #y1; #z1; #v1; #w1;
+ #p2; nelim p2; #x2; #y2; #z2; #v2; #w2; #H;
nnormalize in H:(%);
nletin K ≝ (H1 x1 x2);
ncases (f1 x1 x2) in H:(%) K:(%);
napply refl_eq.
nqed.
-nlemma decidable_quintuple
- : ∀T1,T2,T3,T4,T5.
- (∀x,y:T1.decidable (x = y)) →
- (∀x,y:T2.decidable (x = y)) →
- (∀x,y:T3.decidable (x = y)) →
- (∀x,y:T4.decidable (x = y)) →
- (∀x,y:T5.decidable (x = y)) →
- ∀x,y:Prod5T T1 T2 T3 T4 T5.decidable (x = y).
+nlemma decidable_quintuple :
+∀T1,T2,T3,T4,T5.
+ (∀x,y:T1.decidable (x = y)) →
+ (∀x,y:T2.decidable (x = y)) →
+ (∀x,y:T3.decidable (x = y)) →
+ (∀x,y:T4.decidable (x = y)) →
+ (∀x,y:T5.decidable (x = y)) →
+ (∀x,y:Prod5T T1 T2 T3 T4 T5.decidable (x = y)).
#T1; #T2; #T3; #T4; #T5; #H; #H1; #H2; #H3; #H4;
#x; nelim x; #xx1; #xx2; #xx3; #xx4; #xx5;
#y; nelim y; #yy1; #yy2; #yy3; #yy4; #yy5;
nqed.
nlemma neqquintuple_to_neq :
- ∀T1,T2,T3,T4,T5.∀p1,p2:Prod5T T1 T2 T3 T4 T5.
- ∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.∀f3:T3 → T3 → bool.∀f4:T4 → T4 → bool.∀f5:T5 → T5 → bool.
+∀T1,T2,T3,T4,T5.
+∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.∀f3:T3 → T3 → bool.∀f4:T4 → T4 → bool.∀f5:T5 → T5 → bool.
(∀x,y:T1.f1 x y = false → x ≠ y) →
(∀x,y:T2.f2 x y = false → x ≠ y) →
(∀x,y:T3.f3 x y = false → x ≠ y) →
(∀x,y:T4.f4 x y = false → x ≠ y) →
(∀x,y:T5.f5 x y = false → x ≠ y) →
- (eq_quintuple T1 T2 T3 T4 T5 p1 p2 f1 f2 f3 f4 f5 = false → p1 ≠ p2).
- #T1; #T2; #T3; #T4; #T5; #p1; #p2; #f1; #f2; #f3; #f4; #f5; #H1; #H2; #H3; #H4; #H5;
- nelim p1;
- #x1; #y1; #z1; #v1; #w1;
- nelim p2;
- #x2; #y2; #z2; #v2; #w2;
+ (∀p1,p2:Prod5T T1 T2 T3 T4 T5.
+ (eq_quintuple T1 T2 T3 T4 T5 f1 f2 f3 f4 f5 p1 p2 = false → p1 ≠ p2)).
+ #T1; #T2; #T3; #T4; #T5; #f1; #f2; #f3; #f4; #f5; #H1; #H2; #H3; #H4; #H5;
+ #p1; nelim p1; #x1; #y1; #z1; #v1; #w1;
+ #p2; nelim p2; #x2; #y2; #z2; #v2; #w2;
nchange with ((((f1 x1 x2) ⊗ (f2 y1 y2) ⊗ (f3 z1 z2) ⊗ (f4 v1 v2) ⊗ (f5 w1 w2)) = false) → ?); #H;
nnormalize; #H6;
napply (or5_elim ((f1 x1 x2) = false) ((f2 y1 y2) = false) ((f3 z1 z2) = false) ((f4 v1 v2) = false) ((f5 w1 w2) = false) ? (andb_false5 … H) ?);
##]
nqed.
-nlemma quintuple_destruct
- : ∀T1,T2,T3,T4,T5.
- (∀x,y:T1.decidable (x = y)) →
- (∀x,y:T2.decidable (x = y)) →
- (∀x,y:T3.decidable (x = y)) →
- (∀x,y:T4.decidable (x = y)) →
- (∀x,y:T5.decidable (x = y)) →
- ∀x1,x2:T1.∀y1,y2:T2.∀z1,z2:T3.∀v1,v2:T4.∀w1,w2:T5.
- (quintuple T1 T2 T3 T4 T5 x1 y1 z1 v1 w1) ≠ (quintuple T1 T2 T3 T4 T5 x2 y2 z2 v2 w2) →
- Or5 (x1 ≠ x2) (y1 ≠ y2) (z1 ≠ z2) (v1 ≠ v2) (w1 ≠ w2).
+nlemma quintuple_destruct :
+∀T1,T2,T3,T4,T5.
+ (∀x,y:T1.decidable (x = y)) →
+ (∀x,y:T2.decidable (x = y)) →
+ (∀x,y:T3.decidable (x = y)) →
+ (∀x,y:T4.decidable (x = y)) →
+ (∀x,y:T5.decidable (x = y)) →
+ (∀x1,x2:T1.∀y1,y2:T2.∀z1,z2:T3.∀v1,v2:T4.∀w1,w2:T5.
+ (quintuple T1 T2 T3 T4 T5 x1 y1 z1 v1 w1) ≠ (quintuple T1 T2 T3 T4 T5 x2 y2 z2 v2 w2) →
+ Or5 (x1 ≠ x2) (y1 ≠ y2) (z1 ≠ z2) (v1 ≠ v2) (w1 ≠ w2)).
#T1; #T2; #T3; #T4; #T5; #H1; #H2; #H3; #H4; #H5;
#x1; #x2; #y1; #y2; #z1; #z2; #v1; #v2; #w1; #w2;
nnormalize; #H;
nqed.
nlemma neq_to_neqquintuple :
- ∀T1,T2,T3,T4,T5.∀p1,p2:Prod5T T1 T2 T3 T4 T5.
- ∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.∀f3:T3 → T3 → bool.∀f4:T4 → T4 → bool.∀f5:T5 → T5 → bool.
+∀T1,T2,T3,T4,T5.
+∀f1:T1 → T1 → bool.∀f2:T2 → T2 → bool.∀f3:T3 → T3 → bool.∀f4:T4 → T4 → bool.∀f5:T5 → T5 → bool.
(∀x,y:T1.decidable (x = y)) →
(∀x,y:T2.decidable (x = y)) →
(∀x,y:T3.decidable (x = y)) →
(∀x,y:T3.x ≠ y → f3 x y = false) →
(∀x,y:T4.x ≠ y → f4 x y = false) →
(∀x,y:T5.x ≠ y → f5 x y = false) →
- (p1 ≠ p2 → eq_quintuple T1 T2 T3 T4 T5 p1 p2 f1 f2 f3 f4 f5 = false).
- #T1; #T2; #T3; #T4; #T5; #p1; #p2;
- #f1; #f2; #f3; #f4; #f5;
+ (∀p1,p2:Prod5T T1 T2 T3 T4 T5.
+ (p1 ≠ p2 → eq_quintuple T1 T2 T3 T4 T5 f1 f2 f3 f4 f5 p1 p2 = false)).
+ #T1; #T2; #T3; #T4; #T5; #f1; #f2; #f3; #f4; #f5;
#H1; #H2; #H3; #H4; #H5; #H6; #H7; #H8; #H9; #H10;
- nelim p1;
- #x1; #y1; #z1; #v1; #w1;
- nelim p2;
- #x2; #y2; #z2; #v2; #w2; #H;
+ #p1; nelim p1; #x1; #y1; #z1; #v1; #w1;
+ #p2; nelim p2; #x2; #y2; #z2; #v2; #w2; #H;
nchange with (((f1 x1 x2) ⊗ (f2 y1 y2) ⊗ (f3 z1 z2) ⊗ (f4 v1 v2) ⊗ (f5 w1 w2)) = false);
napply (or5_elim (x1 ≠ x2) (y1 ≠ y2) (z1 ≠ z2) (v1 ≠ v2) (w1 ≠ w2) ? (quintuple_destruct T1 T2 T3 T4 T5 H1 H2 H3 H4 H5 … H) ?);
##[ ##1: #H11; nrewrite > (H6 … H11); nrewrite > (andb_false5_1 (f2 y1 y2) (f3 z1 z2) (f4 v1 v2) (f5 w1 w2)); napply refl_eq
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