Proof of Nuprl Lemma : cWO-induction-extract-sqequal

Step * 1 1 1 1 of Lemma cWO-induction-extract-sqequal

.....assertion.....
1. f : Base
2. t : Base
3. G : Base
4. G ~ λf,bar_recursion,n,s. case if (0) < (n)

                                     then if s (n - 1) then inr (λp.let _,_ = p in Ax)  else inl <Ax, Ax> fi

                                     else (inr (λp.let _,_ = p
                                                   in Ax) )
                             of inl(r) =>
                             λa.let _,_ = r
                                in Ax
                             | inr(r) =>

                             λa.(f a (λs1.(bar_recursion (n + 1) (λm.if m=n  then inl a  else (s m)) s1)))

5. s1 : Base

⊢ ∀n:ℕ⁺. ∀x:Base.  (G f fix((G f)) n (λm.if m=n - 1  then inl t  else (x m)) s1 ~ f s1 fix((λF,t. (f t F))))

BY
{ (UnivCD THENA Auto) }

1
1. f : Base
2. t : Base
3. G : Base
4. G ~ λf,bar_recursion,n,s. case if (0) < (n)

                                     then if s (n - 1) then inr (λp.let _,_ = p in Ax)  else inl <Ax, Ax> fi

                             λa.(f a (λs1.(bar_recursion (n + 1) (λm.if m=n  then inl a  else (s m)) s1)))

5. s1 : Base
6. n : ℕ⁺
7. x : Base
⊢ G f fix((G f)) n (λm.if m=n - 1 then inl t else (x m)) s1 ~ f s1 fix((λF,t. (f t F)))

Latex:

Latex:
.....assertion..... 1. f : Base 2. t : Base 3. G : Base 4. G \msim{} \mlambda{}f,bar$_{recursion}$,n,s. case if (0) < (n) then if s (n - 1) then inr (\mlambda{}p.let $_{}$,$_{\mbackslash{}\000Cff7d$ = p in Ax) else inl <Ax, Ax> fi else (inr (\mlambda{}p.let $_{}$,$_{}\000C$ = p in Ax) ) of inl(r) => \mlambda{}a.let $_{}$,$_{}$ = r in Ax | inr(r) => \mlambda{}a.(f a (\mlambda{}s1.(bar$_{recursion}$ (n + 1) (\mlambda{}m.if m=n then\000C inl a else (s m)) s1))) 5. s1 : Base \mvdash{} \mforall{}n:\mBbbN{}\msupplus{}. \mforall{}x:Base. (G f fix((G f)) n (\mlambda{}m.if m=n - 1 then inl t else (x m)) s1 \msim{} f s1 fix((\mlambda{}F,t. (f t F)))) By Latex: (UnivCD THENA Auto) Home Index