Step
*
2
of Lemma
adjacent-to-last
1. [T] : Type
2. u : T
3. v : T List
4. (∀a:T. (adjacent(T;v;last(v);a) ⇐⇒ False)) supposing (no_repeats(T;v) and 0 < ||v||)
⊢ (∀a:T. (adjacent(T;[u / v];last([u / v]);a) ⇐⇒ False)) supposing (no_repeats(T;[u / v]) and 0 < ||v|| + 1)
BY
{ DVar `v' }
1
1. [T] : Type
2. u : T
3. (∀a:T. (adjacent(T;[];last([]);a) ⇐⇒ False)) supposing (no_repeats(T;[]) and 0 < ||[]||)
⊢ (∀a:T. (adjacent(T;[u];last([u]);a) ⇐⇒ False)) supposing (no_repeats(T;[u]) and 0 < ||[]|| + 1)
2
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)
Latex:
Latex:
1. [T] : Type
2. u : T
3. v : T List
4. (\mforall{}a:T. (adjacent(T;v;last(v);a) \mLeftarrow{}{}\mRightarrow{} False)) supposing (no\_repeats(T;v) and 0 < ||v||)
\mvdash{} (\mforall{}a:T. (adjacent(T;[u / v];last([u / v]);a) \mLeftarrow{}{}\mRightarrow{} False)) supposing
(no\_repeats(T;[u / v]) and
0 < ||v|| + 1)
By
Latex:
DVar `v'
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