Proof of Nuprl Lemma : list-if-has-value-rev-append

Step * 1 of Lemma list-if-has-value-rev-append

1. j : ℤ
2. 0 < j
3. ∀as,bs:Base.
((fix((λlist_accum,y,L. eval v = L in
if v is a pair then let h,t = v

                                                 in list_accum [h / y] t otherwise if v = Ax then y otherwise ⊥))

       bs
       as)↓
     ⇒ (λlist_accum,y,L. eval v = L in
                          if v is a pair then let h,t = v

                                              in list_accum [h / y] t otherwise if v = Ax then y otherwise ⊥^j - 1

         ⊥
         bs
         as)↓
     ⇒ (as ∈ Base List))
4. as : Base@i
5. bs : Base@i
6. (fix((λlist_accum,y,L. eval v = L in
                          if v is a pair then let h,t = v

                                              in list_accum [h / y] t otherwise if v = Ax then y otherwise ⊥))

    bs
    <fst(as), snd(as)>)↓@i
7. (λlist_accum,y,L. eval v = L in
                     if v is a pair then let h,t = v

                                         in list_accum [h / y] t otherwise if v = Ax then y otherwise ⊥^j - 1

    ⊥
    [fst(as) / bs]
    (snd(as)))↓@i
8. 0 ≤ 0
9. as ~ <fst(as), snd(as)>
⊢ <fst(as), snd(as)> ∈ Base List
BY
{ ((Fold `cons` 0 THEN Auto)
   THEN InstHyp [⌜snd(as)⌝;⌜[fst(as) / bs]⌝] 3⋅
   THEN Auto
   THEN RW UnrollLoopsC (-4)
   THEN Reduce (-4)
   THEN Auto) }

Latex:

Latex:
1. j : \mBbbZ{} 2. 0 < j 3. \mforall{}as,bs:Base. ((fix((\mlambda{}list$_{accum}$,y,L. eval v = L in if v is a pair then let h,t = v in list$_{accum}$ [h / y] t otherwise if v = Ax then y otherwise \mbot{})) bs as)\mdownarrow{} {}\mRightarrow{} (\mlambda{}list$_{accum}$,y,L. eval v = L in if v is a pair then let h,t = v in list$_{accum}$ [h / y] t otherwise if v = Ax then y otherwise \mbot{}\^{}j - 1 \mbot{} bs as)\mdownarrow{} {}\mRightarrow{} (as \mmember{} Base List)) 4. as : Base@i 5. bs : Base@i 6. (fix((\mlambda{}list$_{accum}$,y,L. eval v = L in if v is a pair then let h,t = v in list$_{accum}$ [h / y] t otherwise if v = Ax then y otherwise \mbot{})) bs <fst(as), snd(as)>)\mdownarrow{}@i 7. (\mlambda{}list$_{accum}$,y,L. eval v = L in if v is a pair then let h,t = v in list$_{accum}$ [h / y] t otherwise if v = Ax then y otherwise \mbot{}\^{}j - 1 \mbot{} [fst(as) / bs] (snd(as)))\mdownarrow{}@i 8. 0 \mleq{} 0 9. as \msim{} <fst(as), snd(as)> \mvdash{} <fst(as), snd(as)> \mmember{} Base List By Latex: ((Fold `cons` 0 THEN Auto) THEN InstHyp [\mkleeneopen{}snd(as)\mkleeneclose{};\mkleeneopen{}[fst(as) / bs]\mkleeneclose{}] 3\mcdot{} THEN Auto THEN RW UnrollLoopsC (-4) THEN Reduce (-4) THEN Auto) Home Index