Proof of Nuprl Lemma : adjacent-to-last

Step * 2 2 of Lemma adjacent-to-last

1. [T] : Type
2. u : T
3. u1 : T
4. v : T List
5. (∀a:T. (adjacent(T;[u1 / v];last([u1 / v]);a) ⇐⇒ False)) supposing (no_repeats(T;[u1 / v]) and 0 < ||[u1 / v]||)
⊢ (∀a:T. (adjacent(T;[u; [u1 / v]];last([u; [u1 / v]]);a) ⇐⇒ False)) supposing
(no_repeats(T;[u; [u1 / v]]) and
0 < ||[u1 / v]|| + 1)
BY
{ xxx(Auto THEN Reduce 0 THEN Auto)xxx }

1
1. T : Type
2. u : T
3. u1 : T
4. v : T List
5. (∀a:T. (adjacent(T;[u1 / v];last([u1 / v]);a) ⇐⇒ False)) supposing (no_repeats(T;[u1 / v]) and 0 < ||[u1 / v]||)
6. 0 < ||[u1 / v]|| + 1
7. no_repeats(T;[u; [u1 / v]])
8. a : T
9. adjacent(T;[u; [u1 / v]];last([u; [u1 / v]]);a)
⊢ False

Latex:

Latex:
1. [T] : Type 2. u : T 3. u1 : T 4. v : T List 5. (\mforall{}a:T. (adjacent(T;[u1 / v];last([u1 / v]);a) \mLeftarrow{}{}\mRightarrow{} False)) supposing (no\_repeats(T;[u1 / v]) and 0 < ||[u1 / v]||) \mvdash{} (\mforall{}a:T. (adjacent(T;[u; [u1 / v]];last([u; [u1 / v]]);a) \mLeftarrow{}{}\mRightarrow{} False)) supposing (no\_repeats(T;[u; [u1 / v]]) and 0 < ||[u1 / v]|| + 1) By Latex: xxx(Auto THEN Reduce 0 THEN Auto)xxx Home Index