Proof of Nuprl Lemma : longest-prefix

Step * 3 1 2 2 of Lemma longest-prefix_property'

1. T : Type
2. u : T
3. P : T List⁺ ⟶ 𝔹
4. [] ≤ []
5. [] < [] supposing 0 < 0
6. (([] = [] ∈ (T List)) ∧ (∀L':T List. ([] < L' ⇒ L' < [] ⇒ (¬↑(P [u / L'])))))
∨ (0 < 0 ∧ (↑(P [u])) ∧ (∀L':T List. ([] < L' ⇒ L' < [] ⇒ (¬↑(P [u / L'])))))
7. [] ≤ [u]
8. [] < [u] supposing 0 < 1
9. [] = [] ∈ (T List)
10. L' : T List
11. [] < L'
12. L' < [u]
⊢ L' ∈ T List⁺
BY
{ (((InstLemma `proper-iseg-length` [⌜T⌝;⌜L'⌝;⌜[u]⌝]⋅ THEN Auto') THEN ThinTrivial THEN Auto')⋅

   THEN ((InstLemma `proper-iseg-length` [⌜T⌝;⌜[]⌝;⌜L'⌝]⋅ THEN Auto') THEN ThinTrivial THEN Auto')⋅

)⋅ }

Latex:

Latex:
1. T : Type 2. u : T 3. P : T List\msupplus{} {}\mrightarrow{} \mBbbB{} 4. [] \mleq{} [] 5. [] < [] supposing 0 < 0 6. (([] = []) \mwedge{} (\mforall{}L':T List. ([] < L' {}\mRightarrow{} L' < [] {}\mRightarrow{} (\mneg{}\muparrow{}(P [u / L']))))) \mvee{} (0 < 0 \mwedge{} (\muparrow{}(P [u])) \mwedge{} (\mforall{}L':T List. ([] < L' {}\mRightarrow{} L' < [] {}\mRightarrow{} (\mneg{}\muparrow{}(P [u / L']))))) 7. [] \mleq{} [u] 8. [] < [u] supposing 0 < 1 9. [] = [] 10. L' : T List 11. [] < L' 12. L' < [u] \mvdash{} L' \mmember{} T List\msupplus{} By Latex: (((InstLemma `proper-iseg-length` [\mkleeneopen{}T\mkleeneclose{};\mkleeneopen{}L'\mkleeneclose{};\mkleeneopen{}[u]\mkleeneclose{}]\mcdot{} THEN Auto') THEN ThinTrivial THEN Auto')\mcdot{} THEN ((InstLemma `proper-iseg-length` [\mkleeneopen{}T\mkleeneclose{};\mkleeneopen{}[]\mkleeneclose{};\mkleeneopen{}L'\mkleeneclose{}]\mcdot{} THEN Auto') THEN ThinTrivial THEN Auto')\mcdot{} )\mcdot{} Home Index