Proof of Nuprl Lemma : nerve_box_edge

Step * 1 2 1 of Lemma nerve_box_edge_same1

.....assertion.....
1. C : SmallCategory
2. I : Cname List
3. J : nameset(I) List
4. x : nameset(I)
5. i : ℕ2
6. box : open_box(cubical-nerve(C);I;J;x;i)
7. ∀[L:name-morph(I;[])]
     ∀f:I-face(cubical-nerve(C);I)
       ((cube(f) L) = nerve_box_label(box;L) ∈ cat-ob(C)) supposing
          ((f ∈ box) and
          (direction(f) = (L dimension(f)) ∈ ℕ2))
     supposing ((L x) = i ∈ ℕ2) ∨ (¬↑null(J))
8. y : nameset(I)
9. c : {c:name-morph(I;[])| (c y) = 0 ∈ ℕ2}
10. (∃j∈J. ¬(j = y ∈ Cname)) ∨ (((c x) = i ∈ ℕ2) ∧ (¬↑null(J)))
11. f : I-face(cubical-nerve(C);I)
12. (f ∈ box)
13. direction(f) = (c dimension(f)) ∈ ℕ2
14. direction(f) = (flip(c;y) dimension(f)) ∈ ℕ2
15. g : I-face(cubical-nerve(C);I)

16. (g ∈ box) ∧ (direction(g) = (c dimension(g)) ∈ ℕ2) ∧ (direction(g) = (flip(c;y) dimension(g)) ∈ ℕ2)

17. nerve-box-common-face(box;c;y)
= g
∈ {f:I-face(cubical-nerve(C);I)|

   (f ∈ box) ∧ (direction(f) = (c dimension(f)) ∈ ℕ2) ∧ (direction(f) = (flip(c;y) dimension(f)) ∈ ℕ2)}

18. ¬↑null(J)
19. (cube(g) c) = nerve_box_label(box;c) ∈ cat-ob(C)
20. (cube(g) flip(c;y)) = nerve_box_label(box;flip(c;y)) ∈ cat-ob(C)
21. ¬(dimension(g) = dimension(f) ∈ Cname)
⊢ face-compatible(cubical-nerve(C);I;f;g)
BY

{ (SplitAndHyps THEN (Assert adjacent-compatible(cubical-nerve(C);I;box) BY (DVar `box' THEN SplitAndHyps THEN Auto))) }

1
.....aux.....
1. C : SmallCategory
2. I : Cname List
3. J : nameset(I) List
4. x : nameset(I)
5. i : ℕ2
6. box : I-face(cubical-nerve(C);I) List
7. [%24] : adjacent-compatible(cubical-nerve(C);I;box)
∧ (¬(x ∈ J))
∧ l_subset(Cname;J;I)
∧ ((∀y:nameset(J). ∀c:ℕ2.  (∃f∈box. face-name(f) = <y, c> ∈ (nameset(I) × ℕ2)))
  ∧ (∃f∈box. face-name(f) = <x, i> ∈ (nameset(I) × ℕ2))
  ∧ (∀f∈box.¬(face-name(f) = <x, 1 - i> ∈ (nameset(I) × ℕ2))))
∧ (∀f∈box.(fst(f) ∈ [x / J]))
∧ (∀f1,f2∈box.  ¬(face-name(f1) = face-name(f2) ∈ (nameset(I) × ℕ2)))
8. ∀[L:name-morph(I;[])]
     ∀f:I-face(cubical-nerve(C);I)
       ((cube(f) L) = nerve_box_label(box;L) ∈ cat-ob(C)) supposing
          ((f ∈ box) and
          (direction(f) = (L dimension(f)) ∈ ℕ2))
     supposing ((L x) = i ∈ ℕ2) ∨ (¬↑null(J))
9. y : nameset(I)
10. c : {c:name-morph(I;[])| (c y) = 0 ∈ ℕ2}
11. (∃j∈J. ¬(j = y ∈ Cname)) ∨ (((c x) = i ∈ ℕ2) ∧ (¬↑null(J)))
12. f : I-face(cubical-nerve(C);I)
13. (f ∈ box)
14. direction(f) = (c dimension(f)) ∈ ℕ2
15. direction(f) = (flip(c;y) dimension(f)) ∈ ℕ2
16. g : I-face(cubical-nerve(C);I)
17. (g ∈ box)
18. direction(g) = (c dimension(g)) ∈ ℕ2
19. direction(g) = (flip(c;y) dimension(g)) ∈ ℕ2
20. nerve-box-common-face(box;c;y)
= g
∈ {f:I-face(cubical-nerve(C);I)|

   (f ∈ box) ∧ (direction(f) = (c dimension(f)) ∈ ℕ2) ∧ (direction(f) = (flip(c;y) dimension(f)) ∈ ℕ2)}

21. ¬↑null(J)
22. (cube(g) c) = nerve_box_label(box;c) ∈ cat-ob(C)
23. (cube(g) flip(c;y)) = nerve_box_label(box;flip(c;y)) ∈ cat-ob(C)
24. ¬(dimension(g) = dimension(f) ∈ Cname)
⊢ adjacent-compatible(cubical-nerve(C);I;box)

2
1. C : SmallCategory
2. I : Cname List
3. J : nameset(I) List
4. x : nameset(I)
5. i : ℕ2
6. box : open_box(cubical-nerve(C);I;J;x;i)
7. ∀[L:name-morph(I;[])]
     ∀f:I-face(cubical-nerve(C);I)
       ((cube(f) L) = nerve_box_label(box;L) ∈ cat-ob(C)) supposing
          ((f ∈ box) and
          (direction(f) = (L dimension(f)) ∈ ℕ2))
     supposing ((L x) = i ∈ ℕ2) ∨ (¬↑null(J))
8. y : nameset(I)
9. c : {c:name-morph(I;[])| (c y) = 0 ∈ ℕ2}
10. (∃j∈J. ¬(j = y ∈ Cname)) ∨ (((c x) = i ∈ ℕ2) ∧ (¬↑null(J)))
11. f : I-face(cubical-nerve(C);I)
12. (f ∈ box)
13. direction(f) = (c dimension(f)) ∈ ℕ2
14. direction(f) = (flip(c;y) dimension(f)) ∈ ℕ2
15. g : I-face(cubical-nerve(C);I)
16. (g ∈ box)
17. direction(g) = (c dimension(g)) ∈ ℕ2
18. direction(g) = (flip(c;y) dimension(g)) ∈ ℕ2
19. nerve-box-common-face(box;c;y)
= g
∈ {f:I-face(cubical-nerve(C);I)|

   (f ∈ box) ∧ (direction(f) = (c dimension(f)) ∈ ℕ2) ∧ (direction(f) = (flip(c;y) dimension(f)) ∈ ℕ2)}

20. ¬↑null(J)
21. (cube(g) c) = nerve_box_label(box;c) ∈ cat-ob(C)
22. (cube(g) flip(c;y)) = nerve_box_label(box;flip(c;y)) ∈ cat-ob(C)
23. ¬(dimension(g) = dimension(f) ∈ Cname)
24. adjacent-compatible(cubical-nerve(C);I;box)
⊢ face-compatible(cubical-nerve(C);I;f;g)

Latex:

Latex:
.....assertion..... 1. C : SmallCategory 2. I : Cname List 3. J : nameset(I) List 4. x : nameset(I) 5. i : \mBbbN{}2 6. box : open\_box(cubical-nerve(C);I;J;x;i) 7. \mforall{}[L:name-morph(I;[])] \mforall{}f:I-face(cubical-nerve(C);I) ((cube(f) L) = nerve\_box\_label(box;L)) supposing ((f \mmember{} box) and (direction(f) = (L dimension(f)))) supposing ((L x) = i) \mvee{} (\mneg{}\muparrow{}null(J)) 8. y : nameset(I) 9. c : \{c:name-morph(I;[])| (c y) = 0\} 10. (\mexists{}j\mmember{}J. \mneg{}(j = y)) \mvee{} (((c x) = i) \mwedge{} (\mneg{}\muparrow{}null(J))) 11. f : I-face(cubical-nerve(C);I) 12. (f \mmember{} box) 13. direction(f) = (c dimension(f)) 14. direction(f) = (flip(c;y) dimension(f)) 15. g : I-face(cubical-nerve(C);I) 16. (g \mmember{} box) \mwedge{} (direction(g) = (c dimension(g))) \mwedge{} (direction(g) = (flip(c;y) dimension(g))) 17. nerve-box-common-face(box;c;y) = g 18. \mneg{}\muparrow{}null(J) 19. (cube(g) c) = nerve\_box\_label(box;c) 20. (cube(g) flip(c;y)) = nerve\_box\_label(box;flip(c;y)) 21. \mneg{}(dimension(g) = dimension(f)) \mvdash{} face-compatible(cubical-nerve(C);I;f;g) By Latex: (SplitAndHyps THEN (Assert adjacent-compatible(cubical-nerve(C);I;box) BY (DVar `box' THEN SplitAndHyps THEN Auto)) ) Home Index