Proof of Nuprl Lemma : lg-edge-append

Step * 3 3 1 1 2 of Lemma lg-edge-append

1. [T] : Type
2. g1 : LabeledGraph(T)@i
3. g2 : LabeledGraph(T)@i
4. a : ℕlg-size(g1) + lg-size(g2)@i
5. b : ℕlg-size(g1) + lg-size(g2)@i
6. ¬b < lg-size(g1)
7. g2 ∈ Top List
8. X1 : T@i
9. X3 : ℕlg-size(g2) List@i
10. X4 : ℕlg-size(g2) List@i
11. g2[b - lg-size(g1)] = <X1, X3, X4> ∈ (T × ℕlg-size(g2) List × (ℕlg-size(g2) List))@i
12. ∃y:ℤ. ((y ∈ X3) ∧ (a = (y + lg-size(g1)) ∈ ℤ))@i
13. lg-size(g1) ≤ a
14. lg-size(g1) ≤ b
⊢ (a - lg-size(g1) ∈ X3)
BY
{ ((ExRepD THEN Auto')⋅ THEN Subst' (a - lg-size(g1)) = y ∈ ℤ 0 THEN Auto') }

Latex:

Latex:
1. [T] : Type 2. g1 : LabeledGraph(T)@i 3. g2 : LabeledGraph(T)@i 4. a : \mBbbN{}lg-size(g1) + lg-size(g2)@i 5. b : \mBbbN{}lg-size(g1) + lg-size(g2)@i 6. \mneg{}b < lg-size(g1) 7. g2 \mmember{} Top List 8. X1 : T@i 9. X3 : \mBbbN{}lg-size(g2) List@i 10. X4 : \mBbbN{}lg-size(g2) List@i 11. g2[b - lg-size(g1)] = <X1, X3, X4>@i 12. \mexists{}y:\mBbbZ{}. ((y \mmember{} X3) \mwedge{} (a = (y + lg-size(g1))))@i 13. lg-size(g1) \mleq{} a 14. lg-size(g1) \mleq{} b \mvdash{} (a - lg-size(g1) \mmember{} X3) By Latex: ((ExRepD THEN Auto')\mcdot{} THEN Subst' (a - lg-size(g1)) = y 0 THEN Auto') Home Index