Proof of Nuprl Lemma : strat2play-invariant

Step * 1 1 1 1 1 of Lemma strat2play-invariant

1. g : SimpleGame
2. n : ℕ
3. s : win2strat(g;n)
4. moves : strat2play(g;n;s)
5. moves[0] = InitialPos(g) ∈ Pos(g)
6. ∀i:ℕn + 1
     ((↓Legal1(moves[2 * i];moves[(2 * i) + 1]))
     ∧ (i < n
       ⇒ ((↓Legal2(moves[(2 * i) + 1];moves[2 * (i + 1)]))
          ∧ (moves[2 * (i + 1)] = (s play-truncate(moves;2 * (i + 1))) ∈ Pos(g)))))
7. i : ℕ(2 * n) + 1
8. i = (((i ÷ 2) * 2) + (i rem 2)) ∈ ℤ
9. (0 ≤ (i rem 2)) ∧ i rem 2 < 2
10. 0 ≤ (i ÷ 2)
11. (↓Legal1(moves[2 * (i ÷ 2)];moves[(2 * (i ÷ 2)) + 1]))
∧ (i ÷ 2 < n
  ⇒ ((↓Legal2(moves[(2 * (i ÷ 2)) + 1];moves[2 * ((i ÷ 2) + 1)]))
     ∧ (moves[2 * ((i ÷ 2) + 1)] = (s play-truncate(moves;2 * ((i ÷ 2) + 1))) ∈ Pos(g))))
12. (i rem 2) = 0 ∈ ℤ
⊢ ↓Legal1(moves[i];moves[i + 1])
BY
{ (Subst' i ~ 2 * (i ÷ 2) 0 THEN Auto) }

1
1. g : SimpleGame
2. n : ℕ
3. s : win2strat(g;n)
4. moves : strat2play(g;n;s)
5. moves[0] = InitialPos(g) ∈ Pos(g)
6. ∀i:ℕn + 1
     ((↓Legal1(moves[2 * i];moves[(2 * i) + 1]))
     ∧ (i < n
       ⇒ ((↓Legal2(moves[(2 * i) + 1];moves[2 * (i + 1)]))
          ∧ (moves[2 * (i + 1)] = (s play-truncate(moves;2 * (i + 1))) ∈ Pos(g)))))
7. i : ℕ(2 * n) + 1
8. i = (((i ÷ 2) * 2) + (i rem 2)) ∈ ℤ
9. 0 ≤ (i rem 2)
10. i rem 2 < 2
11. 0 ≤ (i ÷ 2)
12. Legal1(moves[2 * (i ÷ 2)];moves[(2 * (i ÷ 2)) + 1])
13. i ÷ 2 < n
⇒ ((↓Legal2(moves[(2 * (i ÷ 2)) + 1];moves[2 * ((i ÷ 2) + 1)]))
   ∧ (moves[2 * ((i ÷ 2) + 1)] = (s play-truncate(moves;2 * ((i ÷ 2) + 1))) ∈ Pos(g)))
14. (i rem 2) = 0 ∈ ℤ
⊢ i = (2 * (i ÷ 2)) ∈ ℕ(2 * n) + 1

Latex:

Latex:
1. g : SimpleGame 2. n : \mBbbN{} 3. s : win2strat(g;n) 4. moves : strat2play(g;n;s) 5. moves[0] = InitialPos(g) 6. \mforall{}i:\mBbbN{}n + 1 ((\mdownarrow{}Legal1(moves[2 * i];moves[(2 * i) + 1])) \mwedge{} (i < n {}\mRightarrow{} ((\mdownarrow{}Legal2(moves[(2 * i) + 1];moves[2 * (i + 1)])) \mwedge{} (moves[2 * (i + 1)] = (s play-truncate(moves;2 * (i + 1))))))) 7. i : \mBbbN{}(2 * n) + 1 8. i = (((i \mdiv{} 2) * 2) + (i rem 2)) 9. (0 \mleq{} (i rem 2)) \mwedge{} i rem 2 < 2 10. 0 \mleq{} (i \mdiv{} 2) 11. (\mdownarrow{}Legal1(moves[2 * (i \mdiv{} 2)];moves[(2 * (i \mdiv{} 2)) + 1])) \mwedge{} (i \mdiv{} 2 < n {}\mRightarrow{} ((\mdownarrow{}Legal2(moves[(2 * (i \mdiv{} 2)) + 1];moves[2 * ((i \mdiv{} 2) + 1)])) \mwedge{} (moves[2 * ((i \mdiv{} 2) + 1)] = (s play-truncate(moves;2 * ((i \mdiv{} 2) + 1)))))) 12. (i rem 2) = 0 \mvdash{} \mdownarrow{}Legal1(moves[i];moves[i + 1]) By Latex: (Subst' i \msim{} 2 * (i \mdiv{} 2) 0 THEN Auto) Home Index