Proof of Nuprl Lemma : proper-iseg-append

Step * 1 of Lemma proper-iseg-append

1. [T] : Type
2. u : T
3. v : T List
4. ∀L2,L3,L4:T List. v @ L3 < L2 @ L4 ⇐⇒ L3 < L4 ∧ (v = L2 ∈ (T List)) supposing ||v|| = ||L2|| ∈ ℤ
5. u1 : T
6. v1 : T List
7. ∀L3,L4:T List. [u / v] @ L3 < v1 @ L4 ⇐⇒ L3 < L4 ∧ ([u / v] = v1 ∈ (T List)) supposing ||[u / v]|| = ||v1|| ∈ ℤ
8. L3 : T List
9. L4 : T List
10. (||v|| + 1) = (||v1|| + 1) ∈ ℤ
11. [u / (v @ L3)] < [u1 / (v1 @ L4)]
⊢ L3 < L4
BY
{ ((RWO "cons-proper-iseg" (-1) THENA Auto) THEN InstHyp [⌜v1⌝;⌜L3⌝;⌜L4⌝] 4⋅ THEN Auto) }

Latex:

Latex:
1. [T] : Type 2. u : T 3. v : T List 4. \mforall{}L2,L3,L4:T List. v @ L3 < L2 @ L4 \mLeftarrow{}{}\mRightarrow{} L3 < L4 \mwedge{} (v = L2) supposing ||v|| = ||L2|| 5. u1 : T 6. v1 : T List 7. \mforall{}L3,L4:T List. [u / v] @ L3 < v1 @ L4 \mLeftarrow{}{}\mRightarrow{} L3 < L4 \mwedge{} ([u / v] = v1) supposing ||[u / v]|| = ||v1|| 8. L3 : T List 9. L4 : T List 10. (||v|| + 1) = (||v1|| + 1) 11. [u / (v @ L3)] < [u1 / (v1 @ L4)] \mvdash{} L3 < L4 By Latex: ((RWO "cons-proper-iseg" (-1) THENA Auto) THEN InstHyp [\mkleeneopen{}v1\mkleeneclose{};\mkleeneopen{}L3\mkleeneclose{};\mkleeneopen{}L4\mkleeneclose{}] 4\mcdot{} THEN Auto) Home Index