Proof of Nuprl Lemma : list-max-aux-property

Step * 2 of Lemma list-max-aux-property

1. [T] : Type
2. f : T ⟶ ℤ
3. n : ℕ
4. L : T List
5. ∀L1:T List
     (||L1|| < ||L||
     ⇒ (↑isl(list-max-aux(x.f[x];L1)))
        ∧ let n,x = outl(list-max-aux(x.f[x];L1))
          in (x ∈ L1) ∧ (f[x] = n ∈ ℤ) ∧ (∀y∈L1.f[y] ≤ n)
        supposing 0 < ||L1||)
6. 0 < ||L||
7. L ~ firstn(||L|| - 1;L) @ [last(L)]
8. ¬↑null(L)
⊢ let n,x = outl(case list-max-aux(x.f[x];firstn(||L|| - 1;L))
   of inl(p) =>

   if fst(p) <z f[last(L)] then inl <f[last(L)], last(L)> else list-max-aux(x.f[x];firstn(||L|| - 1;L)) fi

| inr(q) =>
inl <f[last(L)], last(L)>)

  in (x ∈ firstn(||L|| - 1;L) @ [last(L)]) ∧ (f[x] = n ∈ ℤ) ∧ (∀y∈firstn(||L|| - 1;L) @ [last(L)].f[y] ≤ n)

BY
{ (Decide 1 < ||L|| THENA Auto)⋅ }

1
1. [T] : Type
2. f : T ⟶ ℤ
3. n : ℕ
4. L : T List
5. ∀L1:T List
     (||L1|| < ||L||
     ⇒ (↑isl(list-max-aux(x.f[x];L1)))
        ∧ let n,x = outl(list-max-aux(x.f[x];L1))
          in (x ∈ L1) ∧ (f[x] = n ∈ ℤ) ∧ (∀y∈L1.f[y] ≤ n)
        supposing 0 < ||L1||)
6. 0 < ||L||
7. L ~ firstn(||L|| - 1;L) @ [last(L)]
8. ¬↑null(L)
9. 1 < ||L||
⊢ let n,x = outl(case list-max-aux(x.f[x];firstn(||L|| - 1;L))
   of inl(p) =>

   if fst(p) <z f[last(L)] then inl <f[last(L)], last(L)> else list-max-aux(x.f[x];firstn(||L|| - 1;L)) fi

| inr(q) =>
inl <f[last(L)], last(L)>)

  in (x ∈ firstn(||L|| - 1;L) @ [last(L)]) ∧ (f[x] = n ∈ ℤ) ∧ (∀y∈firstn(||L|| - 1;L) @ [last(L)].f[y] ≤ n)

2
1. [T] : Type
2. f : T ⟶ ℤ
3. n : ℕ
4. L : T List
5. ∀L1:T List
     (||L1|| < ||L||
     ⇒ (↑isl(list-max-aux(x.f[x];L1)))
        ∧ let n,x = outl(list-max-aux(x.f[x];L1))
          in (x ∈ L1) ∧ (f[x] = n ∈ ℤ) ∧ (∀y∈L1.f[y] ≤ n)
        supposing 0 < ||L1||)
6. 0 < ||L||
7. L ~ firstn(||L|| - 1;L) @ [last(L)]
8. ¬↑null(L)
9. ¬1 < ||L||
⊢ let n,x = outl(case list-max-aux(x.f[x];firstn(||L|| - 1;L))
   of inl(p) =>

   if fst(p) <z f[last(L)] then inl <f[last(L)], last(L)> else list-max-aux(x.f[x];firstn(||L|| - 1;L)) fi

| inr(q) =>
inl <f[last(L)], last(L)>)

  in (x ∈ firstn(||L|| - 1;L) @ [last(L)]) ∧ (f[x] = n ∈ ℤ) ∧ (∀y∈firstn(||L|| - 1;L) @ [last(L)].f[y] ≤ n)

Latex:

Latex:
1. [T] : Type 2. f : T {}\mrightarrow{} \mBbbZ{} 3. n : \mBbbN{} 4. L : T List 5. \mforall{}L1:T List (||L1|| < ||L|| {}\mRightarrow{} (\muparrow{}isl(list-max-aux(x.f[x];L1))) \mwedge{} let n,x = outl(list-max-aux(x.f[x];L1)) in (x \mmember{} L1) \mwedge{} (f[x] = n) \mwedge{} (\mforall{}y\mmember{}L1.f[y] \mleq{} n) supposing 0 < ||L1||) 6. 0 < ||L|| 7. L \msim{} firstn(||L|| - 1;L) @ [last(L)] 8. \mneg{}\muparrow{}null(L) \mvdash{} let n,x = outl(case list-max-aux(x.f[x];firstn(||L|| - 1;L)) of inl(p) => if fst(p) <z f[last(L)] then inl <f[last(L)], last(L)> else list-max-aux(x.f[x];firstn(||L|| - 1;L)) fi | inr(q) => inl <f[last(L)], last(L)>) in (x \mmember{} firstn(||L|| - 1;L) @ [last(L)]) \mwedge{} (f[x] = n) \mwedge{} (\mforall{}y\mmember{}firstn(||L|| - 1;L) @ [last(L)].f[y] \mleq{} n) By Latex: (Decide 1 < ||L|| THENA Auto)\mcdot{} Home Index