Proof of Nuprl Lemma : RankEx2-defop

Step * 1 2 of Lemma RankEx2-defop

.....antecedent.....
1. [T] : Type
2. [S] : Type
3. [P] : Type
4. [R] : P ─→ RankEx2(S;T) ─→ ℙ
5. ∀t:T. (∃x:{P| (R x RankEx2_LeafT(t))})@i
6. ∀s:S. (∃x:{P| (R x RankEx2_LeafS(s))})@i
7. ∀d:RankEx2(S;T). ∀s:S. ∀t:T.  ((∃x:{P| (R x d)}) ⇒ (∃x:{P| (R x RankEx2_Prod(<<d, s>, t>))}))@i
8. ∀z:S × RankEx2(S;T) + RankEx2(S;T)
     (case z of inl(p) => ∃x:{P| (R x (snd(p)))} | inr(d) => ∃x:{P| (R x d)} ⇒ (∃x:{P| (R x RankEx2_Union(z))}))@i
9. ∀L:(S × RankEx2(S;T)) List. ((∀p∈L.∃x:{P| (R x (snd(p)))}) ⇒ (∃x:{P| (R x RankEx2_ListProd(L))}))@i
10. ∀z:T + (RankEx2(S;T) List)
      (case z of inl(p) => True | inr(L) => (∀p∈L.∃x:{P| (R x p)}) ⇒ (∃x:{P| (R x RankEx2_UnionList(z))}))@i
⊢ ∀union:S × RankEx2(S;T) + RankEx2(S;T)
    (case union of inl(u) => let u1,u2 = u in {x:P| R[x;u2]}  | inr(u1) => {x:P| R[x;u1]}
    ⇒ {x:P| R[x;RankEx2_Union(union)]} )
BY
{ ((D 0 THENA Auto)
   THEN D -1
   THEN Reduce 0
   THEN (Fold `sq_exists` 0 THEN Unfold `so_apply` 0)
   THEN Try (Complete (Auto))
   THEN (D -1 THEN Reduce 0)
   THEN Auto) }

Latex:

.....antecedent..... 1. [T] : Type 2. [S] : Type 3. [P] : Type 4. [R] : P {}\mrightarrow{} RankEx2(S;T) {}\mrightarrow{} \mBbbP{} 5. \mforall{}t:T. (\mexists{}x:\{P| (R x RankEx2\_LeafT(t))\})@i 6. \mforall{}s:S. (\mexists{}x:\{P| (R x RankEx2\_LeafS(s))\})@i 7. \mforall{}d:RankEx2(S;T). \mforall{}s:S. \mforall{}t:T. ((\mexists{}x:\{P| (R x d)\}) {}\mRightarrow{} (\mexists{}x:\{P| (R x RankEx2\_Prod(<<d, s>, t>))\}))@i 8. \mforall{}z:S \mtimes{} RankEx2(S;T) + RankEx2(S;T) (case z of inl(p) => \mexists{}x:\{P| (R x (snd(p)))\} | inr(d) => \mexists{}x:\{P| (R x d)\} {}\mRightarrow{} (\mexists{}x:\{P| (R x RankEx2\_Union(z))\}))@i 9. \mforall{}L:(S \mtimes{} RankEx2(S;T)) List ((\mforall{}p\mmember{}L.\mexists{}x:\{P| (R x (snd(p)))\}) {}\mRightarrow{} (\mexists{}x:\{P| (R x RankEx2\_ListProd(L))\}))@i 10. \mforall{}z:T + (RankEx2(S;T) List) (case z of inl(p) => True | inr(L) => (\mforall{}p\mmember{}L.\mexists{}x:\{P| (R x p)\}) {}\mRightarrow{} (\mexists{}x:\{P| (R x RankEx2\_UnionList(z))\}))@i \mvdash{} \mforall{}union:S \mtimes{} RankEx2(S;T) + RankEx2(S;T) (case union of inl(u) => let u1,u2 = u in \{x:P| R[x;u2]\} | inr(u1) => \{x:P| R[x;u1]\} {}\mRightarrow{} \{x:P| R[x;RankEx2\_Union(union)]\} ) By ((D 0 THENA Auto) THEN D -1 THEN Reduce 0 THEN (Fold `sq\_exists` 0 THEN Unfold `so\_apply` 0) THEN Try (Complete (Auto)) THEN (D -1 THEN Reduce 0) THEN Auto) Home Index