Proof of Nuprl Lemma : equipollent-nat-subset-ext

Step * of Lemma equipollent-nat-subset-ext

∀[T:Type]. ∀P:T ⟶ ℙ. ((∀x:T. Dec(P[x])) ⇒ (∀L:T List. ∃x:T. (P[x] ∧ (¬(x ∈ L)))) ⇒ ℕ ~ T ⇒ ℕ ~ {x:T| P[x]} )
BY
{ Extract of Obid: equipollent-nat-subset
  not unfolding  mu primrec
  finishing with Auto
  normalizes to:

  λP,d,_,e. let f,bij = e
            in <λx.(f

                    primrec(x;mu(λn.if d (f n) then inl Ax else inr Ax  fi );λi,r. eval r' = r + 1 in

r'

                                                                                   + mu(λk.if d (f (r' + k))

                                                                                           then inl Ax

                                                                                           else inr Ax

                                                                                           fi )))

               , λa1,a2,_. Ax
               , λb.let inj,sur = bij
                    in let a,_ = sur b

                       in if d (f a) then <primrec(a;0;λn,m. if d (f n) then 1 + m else 0 + m fi ), Ax> else ⊥ fi > }

Latex:

Latex:
\mforall{}[T:Type] \mforall{}P:T {}\mrightarrow{} \mBbbP{} ((\mforall{}x:T. Dec(P[x])) {}\mRightarrow{} (\mforall{}L:T List. \mexists{}x:T. (P[x] \mwedge{} (\mneg{}(x \mmember{} L)))) {}\mRightarrow{} \mBbbN{} \msim{} T {}\mRightarrow{} \mBbbN{} \msim{} \{x:T| P[x]\} ) By Latex: Extract of Obid: equipollent-nat-subset not unfolding mu primrec finishing with Auto normalizes to: \mlambda{}P,d,$_{}$,e. let f,bij = e in <\mlambda{}x.(f primrec(x;mu(\mlambda{}n.if d (f n) then inl Ax else inr Ax fi );\mlambda{}i,r. eval r' = r + 1 in r' + mu(\mlambda{}k.if d (f (r' + k)) then inl Ax else inr Ax fi ))) , \mlambda{}a1,a2,$_{}$. Ax , \mlambda{}b.let inj,sur = bij in let a,$_{}$ = sur b in if d (f a) then <primrec(a;0;\mlambda{}n,m. if d (f n) then 1 + m else 0 + m fi ), Ax> else \mbot{} fi > Home Index