Proof of Nuprl Lemma : last-concat

Step * 1 1 of Lemma last-concat

1. [T] : Type
2. u : T List
3. v : T List List
4. ∃ll1:T List List

    ∃l1:T List. ((concat(v) = (concat(ll1) @ l1 @ [last(concat(v))]) ∈ (T List)) ∧ ll1 @ [l1 @ [last(concat(v))]] ≤ v)

supposing ¬(concat(v) = [] ∈ (T List))
5. concat(v) = [] ∈ (T List)
6. ¬(u = [] ∈ (T List))

⊢ ∃ll1:T List List. ∃l1:T List. ((u = (concat(ll1) @ l1 @ [last(u)]) ∈ (T List)) ∧ ll1 @ [l1 @ [last(u)]] ≤ [u / v])

{ (((((InstConcl [⌜[]⌝])⋅ THENA Auto) THEN Try ((RW assert_pushdownC 0 THEN Auto)) THEN RWW "concat-nil" 0) THENA Auto)

THEN Reduce 0
) }

1
1. [T] : Type
2. u : T List
3. v : T List List
4. ∃ll1:T List List

    ∃l1:T List. ((concat(v) = (concat(ll1) @ l1 @ [last(concat(v))]) ∈ (T List)) ∧ ll1 @ [l1 @ [last(concat(v))]] ≤ v)

supposing ¬(concat(v) = [] ∈ (T List))
5. concat(v) = [] ∈ (T List)
6. ¬(u = [] ∈ (T List))
⊢ ∃l1:T List. ((u = (l1 @ [last(u)]) ∈ (T List)) ∧ [l1 @ [last(u)]] ≤ [u / v])

Latex:

Latex:
1. [T] : Type 2. u : T List 3. v : T List List 4. \mexists{}ll1:T List List \mexists{}l1:T List ((concat(v) = (concat(ll1) @ l1 @ [last(concat(v))])) \mwedge{} ll1 @ [l1 @ [last(concat(v))]] \mleq{} v) supposing \mneg{}(concat(v) = []) 5. concat(v) = [] 6. \mneg{}(u = []) \mvdash{} \mexists{}ll1:T List List \mexists{}l1:T List. ((u = (concat(ll1) @ l1 @ [last(u)])) \mwedge{} ll1 @ [l1 @ [last(u)]] \mleq{} [u / v]) By Latex: (((((InstConcl [\mkleeneopen{}[]\mkleeneclose{}])\mcdot{} THENA Auto) THEN Try ((RW assert\_pushdownC 0 THEN Auto)) THEN RWW "concat-nil" 0) THENA Auto ) THEN Reduce 0 ) Home Index