Proof of Nuprl Lemma : face-lattice-hom-unique

Step * 1 1 1 1 of Lemma face-lattice-hom-unique

1. T : Type
2. eq : EqDecider(T)
3. L : BoundedDistributiveLattice
4. eqL : EqDecider(Point(L))
5. f0 : T ⟶ Point(L)
6. f1 : T ⟶ Point(L)
7. g : Point(face-lattice(T;eq)) ⟶ Point(L)

8. ∀[a,b:Point(face-lattice(T;eq))].  ((g a ∧ g b = (g a ∧ b) ∈ Point(L)) ∧ (g a ∨ g b = (g a ∨ b) ∈ Point(L)))

9. (g 0) = 0 ∈ Point(L)
10. (g 1) = 1 ∈ Point(L)
11. h : Point(face-lattice(T;eq)) ⟶ Point(L)

12. ∀[a,b:Point(face-lattice(T;eq))].  ((h a ∧ h b = (h a ∧ b) ∈ Point(L)) ∧ (h a ∨ h b = (h a ∨ b) ∈ Point(L)))

13. (h 0) = 0 ∈ Point(L)
14. (h 1) = 1 ∈ Point(L)
15. ∀x:T. (g (x=0) ∧ g (x=1) = 0 ∈ Point(L))
16. ∀x:T. ((g (x=0)) = (h (x=0)) ∈ Point(L))
17. ∀x:T. ((g (x=1)) = (h (x=1)) ∈ Point(L))
18. y : fset(fset(T + T))
19. (↑fset-antichain(union-deq(T;T;eq;eq);y)) ∧ (∀a:fset(T + T). (a ∈ y ⇒ (∀z:T. (¬(inl z ∈ a ∧ inr z ∈ a)))))
20. y ∈ Point(face-lattice(T;eq))
21. y
= \/(λs./\(λx.free-dlwc-inc(union-deq(T;T;eq;eq);a.face-lattice-constraints(a);x)"(s))"(y))
∈ Point(face-lattice(T;eq))
⊢ (g \/(λs./\(λx.free-dlwc-inc(union-deq(T;T;eq;eq);a.face-lattice-constraints(a);x)"(s))"(y)))
= (h \/(λs./\(λx.free-dlwc-inc(union-deq(T;T;eq;eq);a.face-lattice-constraints(a);x)"(s))"(y)))
∈ Point(L)
BY
{ Assert ⌜BoundedDistributiveLattice ⊆r BoundedLattice⌝⋅ }

1
.....assertion.....
1. T : Type
2. eq : EqDecider(T)
3. L : BoundedDistributiveLattice
4. eqL : EqDecider(Point(L))
5. f0 : T ⟶ Point(L)
6. f1 : T ⟶ Point(L)
7. g : Point(face-lattice(T;eq)) ⟶ Point(L)

8. ∀[a,b:Point(face-lattice(T;eq))].  ((g a ∧ g b = (g a ∧ b) ∈ Point(L)) ∧ (g a ∨ g b = (g a ∨ b) ∈ Point(L)))

9. (g 0) = 0 ∈ Point(L)
10. (g 1) = 1 ∈ Point(L)
11. h : Point(face-lattice(T;eq)) ⟶ Point(L)

12. ∀[a,b:Point(face-lattice(T;eq))].  ((h a ∧ h b = (h a ∧ b) ∈ Point(L)) ∧ (h a ∨ h b = (h a ∨ b) ∈ Point(L)))

13. (h 0) = 0 ∈ Point(L)
14. (h 1) = 1 ∈ Point(L)
15. ∀x:T. (g (x=0) ∧ g (x=1) = 0 ∈ Point(L))
16. ∀x:T. ((g (x=0)) = (h (x=0)) ∈ Point(L))
17. ∀x:T. ((g (x=1)) = (h (x=1)) ∈ Point(L))
18. y : fset(fset(T + T))
19. (↑fset-antichain(union-deq(T;T;eq;eq);y)) ∧ (∀a:fset(T + T). (a ∈ y ⇒ (∀z:T. (¬(inl z ∈ a ∧ inr z ∈ a)))))
20. y ∈ Point(face-lattice(T;eq))
21. y
= \/(λs./\(λx.free-dlwc-inc(union-deq(T;T;eq;eq);a.face-lattice-constraints(a);x)"(s))"(y))
∈ Point(face-lattice(T;eq))
⊢ BoundedDistributiveLattice ⊆r BoundedLattice

2
1. T : Type
2. eq : EqDecider(T)
3. L : BoundedDistributiveLattice
4. eqL : EqDecider(Point(L))
5. f0 : T ⟶ Point(L)
6. f1 : T ⟶ Point(L)
7. g : Point(face-lattice(T;eq)) ⟶ Point(L)

8. ∀[a,b:Point(face-lattice(T;eq))].  ((g a ∧ g b = (g a ∧ b) ∈ Point(L)) ∧ (g a ∨ g b = (g a ∨ b) ∈ Point(L)))

9. (g 0) = 0 ∈ Point(L)
10. (g 1) = 1 ∈ Point(L)
11. h : Point(face-lattice(T;eq)) ⟶ Point(L)

12. ∀[a,b:Point(face-lattice(T;eq))].  ((h a ∧ h b = (h a ∧ b) ∈ Point(L)) ∧ (h a ∨ h b = (h a ∨ b) ∈ Point(L)))

13. (h 0) = 0 ∈ Point(L)
14. (h 1) = 1 ∈ Point(L)
15. ∀x:T. (g (x=0) ∧ g (x=1) = 0 ∈ Point(L))
16. ∀x:T. ((g (x=0)) = (h (x=0)) ∈ Point(L))
17. ∀x:T. ((g (x=1)) = (h (x=1)) ∈ Point(L))
18. y : fset(fset(T + T))
19. (↑fset-antichain(union-deq(T;T;eq;eq);y)) ∧ (∀a:fset(T + T). (a ∈ y ⇒ (∀z:T. (¬(inl z ∈ a ∧ inr z ∈ a)))))
20. y ∈ Point(face-lattice(T;eq))
21. y
= \/(λs./\(λx.free-dlwc-inc(union-deq(T;T;eq;eq);a.face-lattice-constraints(a);x)"(s))"(y))
∈ Point(face-lattice(T;eq))
22. BoundedDistributiveLattice ⊆r BoundedLattice
⊢ (g \/(λs./\(λx.free-dlwc-inc(union-deq(T;T;eq;eq);a.face-lattice-constraints(a);x)"(s))"(y)))
= (h \/(λs./\(λx.free-dlwc-inc(union-deq(T;T;eq;eq);a.face-lattice-constraints(a);x)"(s))"(y)))
∈ Point(L)

Latex:

Latex:
1. T : Type 2. eq : EqDecider(T) 3. L : BoundedDistributiveLattice 4. eqL : EqDecider(Point(L)) 5. f0 : T {}\mrightarrow{} Point(L) 6. f1 : T {}\mrightarrow{} Point(L) 7. g : Point(face-lattice(T;eq)) {}\mrightarrow{} Point(L) 8. \mforall{}[a,b:Point(face-lattice(T;eq))]. ((g a \mwedge{} g b = (g a \mwedge{} b)) \mwedge{} (g a \mvee{} g b = (g a \mvee{} b))) 9. (g 0) = 0 10. (g 1) = 1 11. h : Point(face-lattice(T;eq)) {}\mrightarrow{} Point(L) 12. \mforall{}[a,b:Point(face-lattice(T;eq))]. ((h a \mwedge{} h b = (h a \mwedge{} b)) \mwedge{} (h a \mvee{} h b = (h a \mvee{} b))) 13. (h 0) = 0 14. (h 1) = 1 15. \mforall{}x:T. (g (x=0) \mwedge{} g (x=1) = 0) 16. \mforall{}x:T. ((g (x=0)) = (h (x=0))) 17. \mforall{}x:T. ((g (x=1)) = (h (x=1))) 18. y : fset(fset(T + T)) 19. (\muparrow{}fset-antichain(union-deq(T;T;eq;eq);y)) \mwedge{} (\mforall{}a:fset(T + T). (a \mmember{} y {}\mRightarrow{} (\mforall{}z:T. (\mneg{}(inl z \mmember{} a \mwedge{} inr z \mmember{} a))))) 20. y \mmember{} Point(face-lattice(T;eq)) 21. y = \mbackslash{}/(\mlambda{}s./\mbackslash{}(\mlambda{}x.free-dlwc-inc(union-deq(T;T;eq;eq);a.face-lattice-constraints(a);x)"(s))"(y)) \mvdash{} (g \mbackslash{}/(\mlambda{}s./\mbackslash{}(\mlambda{}x.free-dlwc-inc(union-deq(T;T;eq;eq);a.face-lattice-constraints(a);x)"(s))"(y))) = (h \mbackslash{}/(\mlambda{}s./\mbackslash{}(\mlambda{}x.free-dlwc-inc(union-deq(T;T;eq;eq);a.face-lattice-constraints(a);x)"(s))"(y))) By Latex: Assert \mkleeneopen{}BoundedDistributiveLattice \msubseteq{}r BoundedLattice\mkleeneclose{}\mcdot{} Home Index