Proof of Nuprl Lemma : howard-bar-rec

Step * 1 1 of Lemma howard-bar-rec_wf

1. B : n:ℕ ⟶ (ℕn ⟶ ℕ) ⟶ ℙ@i'
2. Q : n:ℕ ⟶ (ℕn ⟶ ℕ) ⟶ ℙ@i'
3. bar : ∀s:ℕ ⟶ ℕ. ⇃(∃n:ℕ. B[n;s])@i
4. mon : ∀n:ℕ. ∀m:ℕn. ∀s:ℕn ⟶ ℕ.  (B[m;s] ⇒ B[n;s])@i
5. base : ∀n:ℕ. ∀s:ℕn ⟶ ℕ.  (B[n;s] ⇒ Q[n;s])@i
6. ind : ∀n:ℕ. ∀s:ℕn ⟶ ℕ.  ((∀m:ℕ. Q[n + 1;s.m@n]) ⇒ Q[n;s])@i
7. M : n:ℕ ⟶ s:(ℕn ⟶ ℕ) ⟶ (k:ℕn × B[k;ext2Baire(n;s;0)]?)
8. ∀f:ℕ ⟶ ℕ
     ∃n:ℕ
      ∃k:ℕn
       ∃p:B[k;ext2Baire(n;f;0)]

        (((M n f) = (inl <k, p>) ∈ (k:ℕn × B[k;ext2Baire(n;f;0)]?)) ∧ (∀m:ℕ. ((↑isl(M m f))

⇒ (m = n ∈ ℕ))))
⊢ Q[0;seq-normalize(0;⊥)]
BY
{ (UseWitness ⌜howard-bar-rec(M;mon;base;ind;0;seq-normalize(0;⊥))⌝⋅

   THEN (Assert ⌜↓howard-bar-rec(M;mon;base;ind;0;seq-normalize(0;⊥)) ∈ Q[0;seq-normalize(0;⊥)]⌝⋅ THENM Unsquash)

THEN (Assert ⌜howard-bar-rec(M;mon;base;ind;0;seq-normalize(0;⊥)) ∈ Q[0;seq-normalize(0;⊥)]

                 ~ (λn,s. (howard-bar-rec(M;mon;base;ind;n;s) ∈ Q[n;s])) 0 seq-normalize(0;⊥)⌝⋅

         THENA (Reduce 0 THEN Auto)
         )
   THEN RWO "-1" 0
   THEN Thin (-1)) }

1
1. B : n:ℕ ⟶ (ℕn ⟶ ℕ) ⟶ ℙ@i'
2. Q : n:ℕ ⟶ (ℕn ⟶ ℕ) ⟶ ℙ@i'
3. bar : ∀s:ℕ ⟶ ℕ. ⇃(∃n:ℕ. B[n;s])@i
4. mon : ∀n:ℕ. ∀m:ℕn. ∀s:ℕn ⟶ ℕ.  (B[m;s] ⇒ B[n;s])@i
5. base : ∀n:ℕ. ∀s:ℕn ⟶ ℕ.  (B[n;s] ⇒ Q[n;s])@i
6. ind : ∀n:ℕ. ∀s:ℕn ⟶ ℕ.  ((∀m:ℕ. Q[n + 1;s.m@n]) ⇒ Q[n;s])@i
7. M : n:ℕ ⟶ s:(ℕn ⟶ ℕ) ⟶ (k:ℕn × B[k;ext2Baire(n;s;0)]?)
8. ∀f:ℕ ⟶ ℕ
     ∃n:ℕ
      ∃k:ℕn
       ∃p:B[k;ext2Baire(n;f;0)]

        (((M n f) = (inl <k, p>) ∈ (k:ℕn × B[k;ext2Baire(n;f;0)]?)) ∧ (∀m:ℕ. ((↑isl(M m f))

⇒ (m = n ∈ ℕ))))
⊢ ↓(λn,s. (howard-bar-rec(M;mon;base;ind;n;s) ∈ Q[n;s])) 0 seq-normalize(0;⊥)

Latex:

Latex:
1. B : n:\mBbbN{} {}\mrightarrow{} (\mBbbN{}n {}\mrightarrow{} \mBbbN{}) {}\mrightarrow{} \mBbbP{}@i' 2. Q : n:\mBbbN{} {}\mrightarrow{} (\mBbbN{}n {}\mrightarrow{} \mBbbN{}) {}\mrightarrow{} \mBbbP{}@i' 3. bar : \mforall{}s:\mBbbN{} {}\mrightarrow{} \mBbbN{}. \00D9(\mexists{}n:\mBbbN{}. B[n;s])@i 4. mon : \mforall{}n:\mBbbN{}. \mforall{}m:\mBbbN{}n. \mforall{}s:\mBbbN{}n {}\mrightarrow{} \mBbbN{}. (B[m;s] {}\mRightarrow{} B[n;s])@i 5. base : \mforall{}n:\mBbbN{}. \mforall{}s:\mBbbN{}n {}\mrightarrow{} \mBbbN{}. (B[n;s] {}\mRightarrow{} Q[n;s])@i 6. ind : \mforall{}n:\mBbbN{}. \mforall{}s:\mBbbN{}n {}\mrightarrow{} \mBbbN{}. ((\mforall{}m:\mBbbN{}. Q[n + 1;s.m@n]) {}\mRightarrow{} Q[n;s])@i 7. M : n:\mBbbN{} {}\mrightarrow{} s:(\mBbbN{}n {}\mrightarrow{} \mBbbN{}) {}\mrightarrow{} (k:\mBbbN{}n \mtimes{} B[k;ext2Baire(n;s;0)]?) 8. \mforall{}f:\mBbbN{} {}\mrightarrow{} \mBbbN{} \mexists{}n:\mBbbN{} \mexists{}k:\mBbbN{}n. \mexists{}p:B[k;ext2Baire(n;f;0)]. (((M n f) = (inl <k, p>)) \mwedge{} (\mforall{}m:\mBbbN{}. ((\muparrow{}isl(M m f)) {}\mRightarrow{} (m = n))\000C)) \mvdash{} Q[0;seq-normalize(0;\mbot{})] By Latex: (UseWitness \mkleeneopen{}howard-bar-rec(M;mon;base;ind;0;seq-normalize(0;\mbot{}))\mkleeneclose{}\mcdot{} THEN (Assert \mkleeneopen{}\mdownarrow{}howard-bar-rec(M;mon;base;ind;0;seq-normalize(0;\mbot{})) \mmember{} Q[0;seq-normalize(0;\mbot{})]\mkleeneclose{}\mcdot{} THENM Unsquash ) THEN (Assert \mkleeneopen{}howard-bar-rec(M;mon;base;ind;0;seq-normalize(0;\mbot{})) \mmember{} Q[0;seq-normalize(0;\mbot{})] \msim{} (\mlambda{}n,s. (howard-bar-rec(M;mon;base;ind;n;s) \mmember{} Q[n;s])) 0 seq-normalize(0;\mbot{})\mkleeneclose{}\mcdot{} THENA (Reduce 0 THEN Auto) ) THEN RWO "-1" 0 THEN Thin (-1)) Home Index