Proof of Nuprl Lemma : list-functionality-induction

Step * 1 1 2 1 2 2 of Lemma list-functionality-induction

1. T : Type
2. A : Type
3. F : Base
4. F[[]] ∈ A
5. ∀a1,a2,L1,L2:Base. ((a1 = a2 ∈ T) ⇒ (F[L1] = F[L2] ∈ A) ⇒ (F[[a1 / L1]] = F[[a2 / L2]] ∈ A))
6. n : ℤ
7. 0 < n
8. ∀L,L2:Base. ((L = L2 ∈ (T List)) ⇒ (colength(L) = (n - 1) ∈ ℤ) ⇒ (F[L] = F[L2] ∈ A))
9. L : Base
10. L2 : Base
11. L = L2 ∈ (T List)
12. colength(L) = n ∈ ℤ
13. colength(L) = colength(L2) ∈ ℕ
14. fst(L) ∈ T
15. snd(L) ∈ T List
16. colength(L) = (1 + colength(snd(L))) ∈ ℤ
17. L ~ [fst(L) / (snd(L))]
18. fst(L2) ∈ T
19. snd(L2) ∈ T List
20. colength(L2) = (1 + colength(snd(L2))) ∈ ℤ
21. L2 ~ [fst(L2) / (snd(L2))]
⊢ colength(snd(L)) = (n - 1) ∈ ℤ
BY
{ Auto' }

Latex:

Latex:
1. T : Type 2. A : Type 3. F : Base 4. F[[]] \mmember{} A 5. \mforall{}a1,a2,L1,L2:Base. ((a1 = a2) {}\mRightarrow{} (F[L1] = F[L2]) {}\mRightarrow{} (F[[a1 / L1]] = F[[a2 / L2]])) 6. n : \mBbbZ{} 7. 0 < n 8. \mforall{}L,L2:Base. ((L = L2) {}\mRightarrow{} (colength(L) = (n - 1)) {}\mRightarrow{} (F[L] = F[L2])) 9. L : Base 10. L2 : Base 11. L = L2 12. colength(L) = n 13. colength(L) = colength(L2) 14. fst(L) \mmember{} T 15. snd(L) \mmember{} T List 16. colength(L) = (1 + colength(snd(L))) 17. L \msim{} [fst(L) / (snd(L))] 18. fst(L2) \mmember{} T 19. snd(L2) \mmember{} T List 20. colength(L2) = (1 + colength(snd(L2))) 21. L2 \msim{} [fst(L2) / (snd(L2))] \mvdash{} colength(snd(L)) = (n - 1) By Latex: Auto' Home Index