Proof of Nuprl Lemma : lattice-fset-meet

Step * 2 1 2 1 of Lemma lattice-fset-meet_wf

1. l : BoundedLattice
2. eq : EqDecider(Point(l))
3. n : ℤ
4. 0 < n
5. ∀L1:Point(l) List
     (||L1|| < n - 1 ⇒ (∀L2:Point(l) List. (set-equal(Point(l);L1;L2) ⇒ (/\(L1) = /\(L2) ∈ Point(l)))))
6. u : Point(l)
7. v : Point(l) List
8. ||[u / v]|| < n
9. L2 : Point(l) List
10. set-equal(Point(l);[u / v];L2)
11. (u ∈ L2)
12. set-equal(Point(l);filter(λx.(¬_b(eq x u));v);filter(λx.(¬_b(eq x u));L2))
13. /\(filter(λx.(¬_b(eq x u));v)) = /\(filter(λx.(¬_b(eq x u));L2)) ∈ Point(l)
⊢ /\([u / v]) = /\(L2) ∈ Point(l)
BY
{ Assert ⌜∀L:Point(l) List. ((u ∈ L) ⇒ (/\(L) = u ∧ /\(filter(λx.(¬_b(eq x u));L)) ∈ Point(l)))⌝⋅ }

1
.....assertion.....
1. l : BoundedLattice
2. eq : EqDecider(Point(l))
3. n : ℤ
4. 0 < n
5. ∀L1:Point(l) List
     (||L1|| < n - 1 ⇒ (∀L2:Point(l) List. (set-equal(Point(l);L1;L2) ⇒ (/\(L1) = /\(L2) ∈ Point(l)))))
6. u : Point(l)
7. v : Point(l) List
8. ||[u / v]|| < n
9. L2 : Point(l) List
10. set-equal(Point(l);[u / v];L2)
11. (u ∈ L2)
12. set-equal(Point(l);filter(λx.(¬_b(eq x u));v);filter(λx.(¬_b(eq x u));L2))
13. /\(filter(λx.(¬_b(eq x u));v)) = /\(filter(λx.(¬_b(eq x u));L2)) ∈ Point(l)
⊢ ∀L:Point(l) List. ((u ∈ L) ⇒ (/\(L) = u ∧ /\(filter(λx.(¬_b(eq x u));L)) ∈ Point(l)))

2
1. l : BoundedLattice
2. eq : EqDecider(Point(l))
3. n : ℤ
4. 0 < n
5. ∀L1:Point(l) List
     (||L1|| < n - 1 ⇒ (∀L2:Point(l) List. (set-equal(Point(l);L1;L2) ⇒ (/\(L1) = /\(L2) ∈ Point(l)))))
6. u : Point(l)
7. v : Point(l) List
8. ||[u / v]|| < n
9. L2 : Point(l) List
10. set-equal(Point(l);[u / v];L2)
11. (u ∈ L2)
12. set-equal(Point(l);filter(λx.(¬_b(eq x u));v);filter(λx.(¬_b(eq x u));L2))
13. /\(filter(λx.(¬_b(eq x u));v)) = /\(filter(λx.(¬_b(eq x u));L2)) ∈ Point(l)
14. ∀L:Point(l) List. ((u ∈ L) ⇒ (/\(L) = u ∧ /\(filter(λx.(¬_b(eq x u));L)) ∈ Point(l)))
⊢ /\([u / v]) = /\(L2) ∈ Point(l)

Latex:

Latex:
1. l : BoundedLattice 2. eq : EqDecider(Point(l)) 3. n : \mBbbZ{} 4. 0 < n 5. \mforall{}L1:Point(l) List (||L1|| < n - 1 {}\mRightarrow{} (\mforall{}L2:Point(l) List. (set-equal(Point(l);L1;L2) {}\mRightarrow{} (/\mbackslash{}(L1) = /\mbackslash{}(L2))))) 6. u : Point(l) 7. v : Point(l) List 8. ||[u / v]|| < n 9. L2 : Point(l) List 10. set-equal(Point(l);[u / v];L2) 11. (u \mmember{} L2) 12. set-equal(Point(l);filter(\mlambda{}x.(\mneg{}\msubb{}(eq x u));v);filter(\mlambda{}x.(\mneg{}\msubb{}(eq x u));L2)) 13. /\mbackslash{}(filter(\mlambda{}x.(\mneg{}\msubb{}(eq x u));v)) = /\mbackslash{}(filter(\mlambda{}x.(\mneg{}\msubb{}(eq x u));L2)) \mvdash{} /\mbackslash{}([u / v]) = /\mbackslash{}(L2) By Latex: Assert \mkleeneopen{}\mforall{}L:Point(l) List. ((u \mmember{} L) {}\mRightarrow{} (/\mbackslash{}(L) = u \mwedge{} /\mbackslash{}(filter(\mlambda{}x.(\mneg{}\msubb{}(eq x u));L))))\mkleeneclose{}\mcdot{} Home Index