Proof of Nuprl Lemma : firstn

Step * 1 2 1 of Lemma firstn_decomp2

1. T : Type
2. j : ℤ
3. 0 < j

4. ∀[l:T List]. (firstn(j - 1 - 1;l) @ [l[j - 1 - 1]] ~ firstn(j - 1;l)) supposing (((j - 1) ≤ ||l||) and 0 < j - 1)

5. l : T List
6. 0 < j
7. j ≤ ||l||
8. ¬(j = 1 ∈ ℤ)
9. firstn(j - 1 - 1;tl(l)) @ [tl(l)[j - 1 - 1]] ~ firstn(j - 1;tl(l))
⊢ firstn(j - 1;l) @ [l[j - 1]] ~ firstn(j;l)
BY
{ Subst l ~ [hd(l) / tl(l)] 0⋅ }

1
.....equality.....
1. T : Type
2. j : ℤ
3. 0 < j

4. ∀[l:T List]. (firstn(j - 1 - 1;l) @ [l[j - 1 - 1]] ~ firstn(j - 1;l)) supposing (((j - 1) ≤ ||l||) and 0 < j - 1)

5. l : T List
6. 0 < j
7. j ≤ ||l||
8. ¬(j = 1 ∈ ℤ)
9. firstn(j - 1 - 1;tl(l)) @ [tl(l)[j - 1 - 1]] ~ firstn(j - 1;tl(l))
⊢ l ~ [hd(l) / tl(l)]

2
1. T : Type
2. j : ℤ
3. 0 < j

4. ∀[l:T List]. (firstn(j - 1 - 1;l) @ [l[j - 1 - 1]] ~ firstn(j - 1;l)) supposing (((j - 1) ≤ ||l||) and 0 < j - 1)

5. l : T List
6. 0 < j
7. j ≤ ||l||
8. ¬(j = 1 ∈ ℤ)
9. firstn(j - 1 - 1;tl(l)) @ [tl(l)[j - 1 - 1]] ~ firstn(j - 1;tl(l))
⊢ firstn(j - 1;[hd(l) / tl(l)]) @ [[hd(l) / tl(l)][j - 1]] ~ firstn(j;[hd(l) / tl(l)])

Latex:

Latex:
1. T : Type 2. j : \mBbbZ{} 3. 0 < j 4. \mforall{}[l:T List] (firstn(j - 1 - 1;l) @ [l[j - 1 - 1]] \msim{} firstn(j - 1;l)) supposing (((j - 1) \mleq{} ||l||) and 0 < j - 1) 5. l : T List 6. 0 < j 7. j \mleq{} ||l|| 8. \mneg{}(j = 1) 9. firstn(j - 1 - 1;tl(l)) @ [tl(l)[j - 1 - 1]] \msim{} firstn(j - 1;tl(l)) \mvdash{} firstn(j - 1;l) @ [l[j - 1]] \msim{} firstn(j;l) By Latex: Subst l \msim{} [hd(l) / tl(l)] 0\mcdot{} Home Index