Proof of Nuprl Lemma : hdf-compose0-transformation1

Step * of Lemma hdf-compose0-transformation1

∀[f,L,S,G,s:Top]. ∀[m:ℕ].
(hdf-compose0(f;fix((λmk-hdf,s. (inl (λa.cbva_seq(L[s;a]; λg.<mk-hdf S[s;a;g], G[s;a;g]>; m))))) s)

  ~ fix((λmk-hdf,s. (inl (λa.cbva_seq(λn.if (n =_z m) then mk_lambdas_fun(λg.⋃b∈G[s;a;g].f b;m) else L[s;a] n fi ;

                                      λg.<mk-hdf S[s;a;partial_ap(g;m + 1;m)], select_fun_last(g;m)>; m + 1)))))

    s)
BY
{ (Auto
   THEN ProcTransRepUR ``hdf-compose0 so_apply`` 0
   THEN (RW LiftAllC 0 THEN Reduce 0)
   THEN SqequalSqle
   THEN OneFixpointLeast
   THEN RepeatFor 3 (MoveToConcl (-3))
   THEN NatInd (-1)
   THEN (UnivCD THENA Auto)
   THEN (Reduce 0 THEN Strictness THEN Try (Complete (Auto)))⋅
   THEN ((RWO "fun_exp_unroll" 0 THENA Auto) THEN AutoSplit)⋅) }

1
1. f : Top
2. L : Top
3. m : ℕ
4. j : ℤ
5. j ≠ 0
6. 0 < j
7. ∀S,G,s:Top.

     (λmk-hdf,s0. case s0 of inl(y) => inl (λa.let X',bs = y a in let out ⟵ ⋃b∈bs.f b in <mk-hdf X', out>) | inr(y) => \000Cinr ⋅ ^j - 1 ⊥

(fix((λmk-hdf,s. (inl (λa.cbva_seq(L s a; λg.<mk-hdf (S s a g), G s a g>; m))))) s)

      ≤ fix((λmk-hdf,s. (inl (λa.cbva_seq(λn.if n=m  then mk_lambdas_fun(λg.⋃b∈G s a g.f b;m)  else (L s a n);

                                          λg.<mk-hdf (S s a partial_ap(g;m + 1;m)), select_fun_last(g;m)>; m + 1)))))

s)
8. S : Top@i
9. G : Top@i
10. s : Top@i

⊢ inl (λa.let X',bs = cbva_seq(L s a; λg.<fix((λmk-hdf,s. (inl (λa.cbva_seq(L s a; λg.<mk-hdf (S s a g), G s a g>; m))))\000C)

                                          (S s a g)
                                         , G s a g
                                         >; m)
          in let out ⟵ ⋃b∈bs.f b

             in <λmk-hdf,s0. case s0 of inl(y) => inl (λa.let X',bs = y a in let out ⟵ ⋃b∈bs.f b in <mk-hdf X', out>) |\000C inr(y) => inr ⋅ ^j - 1 ⊥ X', out>)

  ≤ fix((λmk-hdf,s. (inl (λa.cbva_seq(λn.if n=m  then mk_lambdas_fun(λg.⋃b∈G s a g.f b;m)  else (L s a n);

                                      λg.<mk-hdf (S s a partial_ap(g;m + 1;m)), select_fun_last(g;m)>; m + 1)))))

s

2
1. f : Top
2. L : Top
3. m : ℕ
4. j : ℤ
5. j ≠ 0
6. 0 < j
7. ∀S,G,s:Top.

     (λmk-hdf,s. (inl (λa.cbva_seq(λn.if n=m  then mk_lambdas_fun(λg.⋃b∈G s a g.f b;m)  else (L s a n);

                                   λg.<mk-hdf (S s a partial_ap(g;m + 1;m)), select_fun_last(g;m)>; m + 1)))^j - 1

⊥

      s ≤ fix((λmk-hdf,s0. case s0 of inl(y) => inl (λa.let X',bs = y a in let out ⟵ ⋃b∈bs.f b in <mk-hdf X', out>) | i\000Cnr(y) => inr ⋅ ))

          (fix((λmk-hdf,s. (inl (λa.cbva_seq(L s a; λg.<mk-hdf (S s a g), G s a g>; m))))) s))

8. S : Top@i
9. G : Top@i
10. s : Top@i
⊢ inl (λa.cbva_seq(λn.if n=m then mk_lambdas_fun(λg.⋃b∈G s a g.f b;m) else (L s a n);

                   λg.<λmk-hdf,s. (inl (λa.cbva_seq(λn.if n=m  then mk_lambdas_fun(λg.⋃b∈G s a g.f b;m)  else (L s a n);

                                                    λg.<mk-hdf (S s a partial_ap(g;m + 1;m)), select_fun_last(g;m)>; m

                                                    + 1)))^j - 1

                       ⊥
                       (S s a partial_ap(g;m + 1;m))
                      , select_fun_last(g;m)
                      >; m + 1)) ≤ fix((λmk-hdf,s0. case s0
                                                    of inl(y) =>

                                                    inl (λa.let X',bs = y a

                                                            in let out ⟵ ⋃b∈bs.f b

                                                               in <mk-hdf X', out>)

| inr(y) =>
inr ⋅ ))

                                   (fix((λmk-hdf,s. (inl (λa.cbva_seq(L s a; λg.<mk-hdf (S s a g), G s a g>; m))))) s)

Latex:

Latex:
\mforall{}[f,L,S,G,s:Top]. \mforall{}[m:\mBbbN{}]. (hdf-compose0(f;fix((\mlambda{}mk-hdf,s. (inl (\mlambda{}a.cbva\_seq(L[s;a]; \mlambda{}g.<mk-hdf S[s;a;g], G[s;a;g]> m))))) s\000C) \msim{} fix((\mlambda{}mk-hdf,s. (inl (\mlambda{}a.cbva\_seq(\mlambda{}n.if (n =\msubz{} m) then mk\_lambdas\_fun(\mlambda{}g.\mcup{}b\mmember{}G[s;a;g].f b;m) else L[s;a] n fi ; \mlambda{}g.<mk-hdf S[s;a;partial\_ap(g;m + 1;m)] , select\_fun\_last(g;m) > m + 1))))) s) By Latex: (Auto THEN ProcTransRepUR ``hdf-compose0 so\_apply`` 0 THEN (RW LiftAllC 0 THEN Reduce 0) THEN SqequalSqle THEN OneFixpointLeast THEN RepeatFor 3 (MoveToConcl (-3)) THEN NatInd (-1) THEN (UnivCD THENA Auto) THEN (Reduce 0 THEN Strictness THEN Try (Complete (Auto)))\mcdot{} THEN ((RWO "fun\_exp\_unroll" 0 THENA Auto) THEN AutoSplit)\mcdot{}) Home Index