Proof of Nuprl Lemma : hdf-once-transformation3

Step * of Lemma hdf-once-transformation3

∀[L,G:Top]. ∀[m:ℕ].
(hdf-once(fix((λmk-hdf.(inl (λa.cbva_seq(L[a]; λg.<mk-hdf, G[a;g]>; m))))))

  ~ fix((λmk-hdf.(inl (λa.cbva_seq(L[a]; λg.<case null(G[a;g]) of inl() => mk-hdf | inr() => inr Ax , G[a;g]>; m))))))

BY
{ (Auto
   THEN ProcTransRepUR ``hdf-once bag-null it`` 0
   THEN (RW LiftLemAllC 0 THENA Auto)
   THEN Reduce 0
   THEN UnrollLoopsOnceExcept ``cbva_seq null``
   THEN (RWO "cbva_seq-spread" 0 THENA Auto)
   THEN RepeatFor 3 ((MemCD THEN Try (Complete (Auto))))
   THEN SqequalSqle
   THEN OneFixpointLeast
   THEN Repeat (MoveToConcl (-2))
   THEN NatInd (-1)
   THEN (UnivCD THENA Auto)
   THEN Try ((ThinVar `j' THEN UnrollLoopsOnce THEN Strictness THEN Auto))
   THEN (RWO "fun_exp_unroll_1" 0 THENA Auto)
   THEN Reduce 0) }

1
1. j : ℤ
2. 0 < j
3. ∀L,G:Top. ∀m:ℕ. ∀a,g:Base.
     (λmk-hdf,s0. case s0
                  of inl(y) =>
                  inl (λa.let X',b = y a

                          in <mk-hdf case null(b) of inl() => X' | inr() => inr Ax , b>)

                  | inr(y) =>
                  inr Ax ^j - 1
      ⊥

      case null(G a g) of inl() => fix((λmk-hdf.(inl (λa.cbva_seq(L a; λg.<mk-hdf, G a g>; m))))) | inr() => inr Ax

≤ case null(G a g)
of inl() =>

       fix((λmk-hdf.(inl (λa.cbva_seq(L a; λg.<case null(G a g) of inl() => mk-hdf | inr() => inr Ax , G a g>; m)))))

| inr() =>
inr Ax )
4. L : Top@i
5. G : Top@i
6. m : ℕ@i
7. a : Base@i
8. g : Base@i

⊢ case case null(G a g) of inl() => fix((λmk-hdf.(inl (λa.cbva_seq(L a; λg.<mk-hdf, G a g>; m))))) | inr() => inr Ax

   of inl(y) =>
   inl (λa.let X',b = y a
           in <λmk-hdf,s0. case s0
                           of inl(y) =>
                           inl (λa.let X',b = y a

                                   in <mk-hdf case null(b) of inl() => X' | inr() => inr Ax , b>)

                           | inr(y) =>
                           inr Ax ^j - 1
               ⊥
               case null(b) of inl() => X' | inr() => inr Ax
              , b
              >)
   | inr(y) =>
   inr Ax  ≤ case null(G a g)
   of inl() =>

   fix((λmk-hdf.(inl (λa.cbva_seq(L a; λg.<case null(G a g) of inl() => mk-hdf | inr() => inr Ax , G a g>; m)))))

   | inr() =>
   inr Ax

2
1. j : ℤ
2. 0 < j
3. ∀L,G:Top. ∀m:ℕ. ∀a,g:Base.
     (case null(G a g)
       of inl() =>

       λmk-hdf.(inl (λa.cbva_seq(L a; λg.<case null(G a g) of inl() => mk-hdf | inr() => inr Ax , G a g>; m)))^j - 1 ⊥

       | inr() =>
       inr Ax  ≤ fix((λmk-hdf,s0. case s0
                                  of inl(y) =>
                                  inl (λa.let X',b = y a

                                          in <mk-hdf case null(b) of inl() => X' | inr() => inr Ax , b>)

                                  | inr(y) =>
                                  inr Ax ))
                 case null(G a g)
                  of inl() =>
                  fix((λmk-hdf.(inl (λa.cbva_seq(L a; λg.<mk-hdf, G a g>; m)))))
                  | inr() =>
                  inr Ax )
4. L : Top@i
5. G : Top@i
6. m : ℕ@i
7. a : Base@i
8. g : Base@i
⊢ case null(G a g)
   of inl() =>
   inl (λa.cbva_seq(L a; λg.<case null(G a g)
                              of inl() =>

                              λmk-hdf.(inl (λa.cbva_seq(L a; λg.<case null(G a g) of inl() => mk-hdf | inr() => inr Ax

                                                                , G a g

                                                                >; m)))^j - 1

                              ⊥
                              | inr() =>
                              inr Ax
                            , G a g
                            >; m))
   | inr() =>
   inr Ax  ≤ fix((λmk-hdf,s0. case s0
                              of inl(y) =>
                              inl (λa.let X',b = y a

                                      in <mk-hdf case null(b) of inl() => X' | inr() => inr Ax , b>)

                              | inr(y) =>
                              inr Ax ))
             case null(G a g)
              of inl() =>
              fix((λmk-hdf.(inl (λa.cbva_seq(L a; λg.<mk-hdf, G a g>; m)))))
              | inr() =>
              inr Ax

Latex:

Latex:
\mforall{}[L,G:Top]. \mforall{}[m:\mBbbN{}]. (hdf-once(fix((\mlambda{}mk-hdf.(inl (\mlambda{}a.cbva\_seq(L[a]; \mlambda{}g.<mk-hdf, G[a;g]> m)))))) \msim{} fix((\mlambda{}mk-hdf.(inl (\mlambda{}a.cbva\_seq(L[a]; \mlambda{}g.<case null(G[a;g]) of inl() => mk-hdf | inr() => inr Ax , G[a;g] > m)))))) By Latex: (Auto THEN ProcTransRepUR ``hdf-once bag-null it`` 0 THEN (RW LiftLemAllC 0 THENA Auto) THEN Reduce 0 THEN UnrollLoopsOnceExcept ``cbva\_seq null`` THEN (RWO "cbva\_seq-spread" 0 THENA Auto) THEN RepeatFor 3 ((MemCD THEN Try (Complete (Auto)))) THEN SqequalSqle THEN OneFixpointLeast THEN Repeat (MoveToConcl (-2)) THEN NatInd (-1) THEN (UnivCD THENA Auto) THEN Try ((ThinVar `j' THEN UnrollLoopsOnce THEN Strictness THEN Auto)) THEN (RWO "fun\_exp\_unroll\_1" 0 THENA Auto) THEN Reduce 0) Home Index