Proof of Nuprl Lemma : tree-big-least

Step * 2 2 of Lemma tree-big-least

1. [T] : Type
2. [A] : (T List) ⟶ ℙ
3. ∃k:ℕ. T ~ ℕk@i
4. Decidable(A)@i
5. ¬(A [])@i
6. n : ℤ@i
7. [%4] : 0 < n@i
8. tree-big(T;upwd-closure(T;A);n - 1)
⇒ (∃k:ℕn - 1. ((¬tree-big(T;upwd-closure(T;A);k)) ∧ tree-big(T;upwd-closure(T;A);k + 1)))@i
9. tree-big(T;upwd-closure(T;A);n)@i
10. Dec(tree-big(T;upwd-closure(T;A);n - 1))
⊢ ∃k:ℕn. ((¬tree-big(T;upwd-closure(T;A);k)) ∧ tree-big(T;upwd-closure(T;A);k + 1))
BY
{ (D (-1) THEN ThinTrivial THEN Try (ParallelLast) THEN With ⌜n - 1⌝ (D 0)⋅ THEN Auto) }

Latex:

Latex:
1. [T] : Type 2. [A] : (T List) {}\mrightarrow{} \mBbbP{} 3. \mexists{}k:\mBbbN{}. T \msim{} \mBbbN{}k@i 4. Decidable(A)@i 5. \mneg{}(A [])@i 6. n : \mBbbZ{}@i 7. [\%4] : 0 < n@i 8. tree-big(T;upwd-closure(T;A);n - 1) {}\mRightarrow{} (\mexists{}k:\mBbbN{}n - 1. ((\mneg{}tree-big(T;upwd-closure(T;A);k)) \mwedge{} tree-big(T;upwd-closure(T;A);k + 1)))@i 9. tree-big(T;upwd-closure(T;A);n)@i 10. Dec(tree-big(T;upwd-closure(T;A);n - 1)) \mvdash{} \mexists{}k:\mBbbN{}n. ((\mneg{}tree-big(T;upwd-closure(T;A);k)) \mwedge{} tree-big(T;upwd-closure(T;A);k + 1)) By Latex: (D (-1) THEN ThinTrivial THEN Try (ParallelLast) THEN With \mkleeneopen{}n - 1\mkleeneclose{} (D 0)\mcdot{} THEN Auto) Home Index