Proof of Nuprl Lemma : length-open

Step * 1 1 2 2 1 of Lemma length-open_box

1. X : CubicalSet
2. I : Cname List
3. J : nameset(I) List
4. x : nameset(I)
5. i : ℕ2
6. box : I-face(X;I) List
7. adjacent-compatible(X;I;box)
8. ¬(x ∈ J)
9. l_subset(Cname;J;I)
10. ∀y:nameset(J). ∀c:ℕ2.  (∃f∈box. face-name(f) = <y, c> ∈ (nameset(I) × ℕ2))
11. (∃f∈box. face-name(f) = <x, i> ∈ (nameset(I) × ℕ2))
12. (∀f∈box.¬(face-name(f) = <x, 1 - i> ∈ (nameset(I) × ℕ2)))
13. (∀f∈box.(fst(f) ∈ [x / J]))
14. (∀f1,f2∈box.  ¬(face-name(f1) = face-name(f2) ∈ (nameset(I) × ℕ2)))
15. CnameDeq ∈ EqDecider(nameset(I))
16. λi.if eq-cname(dimension(box[i]);x) then inl 0 else inr face-name(box[i])  fi  ∈ ℕ||box||
    ⟶ (ℕ1 + (nameset(J) × ℕ2))
17. y1 : nameset(J)
18. y2 : ℕ2
19. i1 : ℕ||box||
20. face-name(box[i1]) = <y1, y2> ∈ (nameset(I) × ℕ2)
21. dimension(box[i1]) = x ∈ Cname
⊢ (inl 0) = (inr <y1, y2> ) ∈ (ℕ1 + (nameset(J) × ℕ2))
BY
{ (DVar `y1' THEN Assert ⌜x = y1 ∈ Cname⌝⋅) }

1
.....assertion.....
1. X : CubicalSet
2. I : Cname List
3. J : nameset(I) List
4. x : nameset(I)
5. i : ℕ2
6. box : I-face(X;I) List
7. adjacent-compatible(X;I;box)
8. ¬(x ∈ J)
9. l_subset(Cname;J;I)
10. ∀y:nameset(J). ∀c:ℕ2.  (∃f∈box. face-name(f) = <y, c> ∈ (nameset(I) × ℕ2))
11. (∃f∈box. face-name(f) = <x, i> ∈ (nameset(I) × ℕ2))
12. (∀f∈box.¬(face-name(f) = <x, 1 - i> ∈ (nameset(I) × ℕ2)))
13. (∀f∈box.(fst(f) ∈ [x / J]))
14. (∀f1,f2∈box.  ¬(face-name(f1) = face-name(f2) ∈ (nameset(I) × ℕ2)))
15. CnameDeq ∈ EqDecider(nameset(I))
16. λi.if eq-cname(dimension(box[i]);x) then inl 0 else inr face-name(box[i])  fi  ∈ ℕ||box||
    ⟶ (ℕ1 + (nameset(J) × ℕ2))
17. y1 : Cname
18. (y1 ∈ J)
19. y2 : ℕ2
20. i1 : ℕ||box||
21. face-name(box[i1]) = <y1, y2> ∈ (nameset(I) × ℕ2)
22. dimension(box[i1]) = x ∈ Cname
⊢ x = y1 ∈ Cname

2
1. X : CubicalSet
2. I : Cname List
3. J : nameset(I) List
4. x : nameset(I)
5. i : ℕ2
6. box : I-face(X;I) List
7. adjacent-compatible(X;I;box)
8. ¬(x ∈ J)
9. l_subset(Cname;J;I)
10. ∀y:nameset(J). ∀c:ℕ2.  (∃f∈box. face-name(f) = <y, c> ∈ (nameset(I) × ℕ2))
11. (∃f∈box. face-name(f) = <x, i> ∈ (nameset(I) × ℕ2))
12. (∀f∈box.¬(face-name(f) = <x, 1 - i> ∈ (nameset(I) × ℕ2)))
13. (∀f∈box.(fst(f) ∈ [x / J]))
14. (∀f1,f2∈box.  ¬(face-name(f1) = face-name(f2) ∈ (nameset(I) × ℕ2)))
15. CnameDeq ∈ EqDecider(nameset(I))
16. λi.if eq-cname(dimension(box[i]);x) then inl 0 else inr face-name(box[i])  fi  ∈ ℕ||box||
    ⟶ (ℕ1 + (nameset(J) × ℕ2))
17. y1 : Cname
18. (y1 ∈ J)
19. y2 : ℕ2
20. i1 : ℕ||box||
21. face-name(box[i1]) = <y1, y2> ∈ (nameset(I) × ℕ2)
22. dimension(box[i1]) = x ∈ Cname
23. x = y1 ∈ Cname
⊢ (inl 0) = (inr <y1, y2> ) ∈ (ℕ1 + (nameset(J) × ℕ2))

Latex:

Latex:
1. X : CubicalSet 2. I : Cname List 3. J : nameset(I) List 4. x : nameset(I) 5. i : \mBbbN{}2 6. box : I-face(X;I) List 7. adjacent-compatible(X;I;box) 8. \mneg{}(x \mmember{} J) 9. l\_subset(Cname;J;I) 10. \mforall{}y:nameset(J). \mforall{}c:\mBbbN{}2. (\mexists{}f\mmember{}box. face-name(f) = <y, c>) 11. (\mexists{}f\mmember{}box. face-name(f) = <x, i>) 12. (\mforall{}f\mmember{}box.\mneg{}(face-name(f) = <x, 1 - i>)) 13. (\mforall{}f\mmember{}box.(fst(f) \mmember{} [x / J])) 14. (\mforall{}f1,f2\mmember{}box. \mneg{}(face-name(f1) = face-name(f2))) 15. CnameDeq \mmember{} EqDecider(nameset(I)) 16. \mlambda{}i.if eq-cname(dimension(box[i]);x) then inl 0 else inr face-name(box[i]) fi \mmember{} \mBbbN{}||box|| {}\mrightarrow{} (\mBbbN{}1 + (nameset(J) \mtimes{} \mBbbN{}2)) 17. y1 : nameset(J) 18. y2 : \mBbbN{}2 19. i1 : \mBbbN{}||box|| 20. face-name(box[i1]) = <y1, y2> 21. dimension(box[i1]) = x \mvdash{} (inl 0) = (inr <y1, y2> ) By Latex: (DVar `y1' THEN Assert \mkleeneopen{}x = y1\mkleeneclose{}\mcdot{}) Home Index