Proof of Nuprl Lemma : interleaving_of

Step * 2 1 1 of Lemma interleaving_of_cons

1. [T] : Type
2. x : T
3. L : T List
4. L1 : T List
5. L2 : T List
6. ¬↑null(L1)
7. L2 = [] ∈ (T List)
⊢ interleaving(T;L1;[];[x / L])
⇐⇒

 (0 < ||L1|| c∧ ((L1[0] = x ∈ T) ∧ interleaving(T;tl(L1);[];L))) ∨ (0 < 0 c∧ ((⊥ = x ∈ T) ∧ interleaving(T;L1;[];L)))

BY
{ Auto }

1
1. [T] : Type
2. x : T
3. L : T List
4. L1 : T List
5. L2 : T List
6. ¬↑null(L1)
7. L2 = [] ∈ (T List)
8. interleaving(T;L1;[];[x / L])

⊢ (0 < ||L1|| c∧ ((L1[0] = x ∈ T) ∧ interleaving(T;tl(L1);[];L))) ∨ (0 < 0 c∧ ((⊥ = x ∈ T) ∧ interleaving(T;L1;[];L)))

2
1. [T] : Type
2. x : T
3. L : T List
4. L1 : T List
5. L2 : T List
6. ¬↑null(L1)
7. L2 = [] ∈ (T List)

8. (0 < ||L1|| c∧ ((L1[0] = x ∈ T) ∧ interleaving(T;tl(L1);[];L))) ∨ (0 < 0 c∧ ((⊥ = x ∈ T) ∧ interleaving(T;L1;[];L)))

⊢ interleaving(T;L1;[];[x / L])

Latex:

Latex:
1. [T] : Type 2. x : T 3. L : T List 4. L1 : T List 5. L2 : T List 6. \mneg{}\muparrow{}null(L1) 7. L2 = [] \mvdash{} interleaving(T;L1;[];[x / L]) \mLeftarrow{}{}\mRightarrow{} (0 < ||L1|| c\mwedge{} ((L1[0] = x) \mwedge{} interleaving(T;tl(L1);[];L))) \mvee{} (0 < 0 c\mwedge{} ((\mbot{} = x) \mwedge{} interleaving(T;L1;[];L))) By Latex: Auto Home Index