Proof of Nuprl Lemma : es-interval-induction2

Step * of Lemma es-interval-induction2

∀es:EO. ∀i:Id.
  ∀[P:e1:{e:E| loc(e) = i ∈ Id}  ⟶ {e2:E| loc(e2) = i ∈ Id}  ⟶ ℙ]
    (∀e1@i.∀e2≥e1.(∀e:E. ((e1 <loc e) ⇒ e ≤loc e2  ⇒ P[e;e2])) ⇒ P[e1;e2]
    ⇒ ∀e1@i.∀e2<e1.P[e1;e2]
    ⇒ (∀e,e':E.  (P[e;e']) supposing ((loc(e') = i ∈ Id) and (loc(e) = i ∈ Id))))
BY
{ (Unfolds ``alle-lt alle-ge alle-at`` 0
   THEN Auto
   THEN ((InstLemma `es-interval-induction` [⌜es⌝; ⌜i⌝; ⌜P⌝])⋅
         THENA (Auto THEN Unfolds ``alle-lt alle-ge alle-at`` 0 THEN Auto)
         )
   THEN Decide ⌜e ≤loc e' ⌝⋅
   THEN Auto) }

Latex:

Latex:
\mforall{}es:EO. \mforall{}i:Id. \mforall{}[P:e1:\{e:E| loc(e) = i\} {}\mrightarrow{} \{e2:E| loc(e2) = i\} {}\mrightarrow{} \mBbbP{}] (\mforall{}e1@i.\mforall{}e2\mgeq{}e1.(\mforall{}e:E. ((e1 <loc e) {}\mRightarrow{} e \mleq{}loc e2 {}\mRightarrow{} P[e;e2])) {}\mRightarrow{} P[e1;e2] {}\mRightarrow{} \mforall{}e1@i.\mforall{}e2<e1.P[e1;e2] {}\mRightarrow{} (\mforall{}e,e':E. (P[e;e']) supposing ((loc(e') = i) and (loc(e) = i)))) By Latex: (Unfolds ``alle-lt alle-ge alle-at`` 0 THEN Auto THEN ((InstLemma `es-interval-induction` [\mkleeneopen{}es\mkleeneclose{}; \mkleeneopen{}i\mkleeneclose{}; \mkleeneopen{}P\mkleeneclose{}])\mcdot{} THENA (Auto THEN Unfolds ``alle-lt alle-ge alle-at`` 0 THEN Auto) ) THEN Decide \mkleeneopen{}e \mleq{}loc e' \mkleeneclose{}\mcdot{} THEN Auto) Home Index