Proof of Nuprl Lemma : mul-polynom-val

Step * 3 1 2 2 1 1 of Lemma mul-polynom-val

1. k : ℕ
2. ∀k:ℕk
     ∀[n:ℕ]. ∀[p,q:polyform(n)].
       (((tree_size(p) + tree_size(q)) ≤ k) ⇒ (∀[l:{l:ℤ List| n ≤ ||l||} ]. (mul-polynom(p;q)@l = (p@l * q@l) ∈ ℤ)))
3. n : ℕ
4. left : tree(ℤ)
5. p2 : tree(ℤ)
6. ((↑(ispolyform(left) (n - 1))) ∧ (↑(ispolyform(p2) n))) ∧ 0 < n
7. q1 : ℤ
8. True
9. (((1 + tree_size(left)) + tree_size(p2)) + 0) ≤ k
10. u : ℤ
11. v : ℤ List
12. n ≤ (||v|| + 1)
13. mul-polynom(left;tree_leaf(q1)) ∈ polyform(n - 1)
14. mul-polynom(p2;tree_leaf(q1)) ∈ polyform(n)
⊢ eval t = v in
  eval av = mul-polynom(left;tree_leaf(q1))@t in
  eval bv = mul-polynom(p2;tree_leaf(q1))@[u / v] in
    if bv=0 then av else eval h = u in av + (h * bv)

= (eval t = v in eval av = left@t in eval bv = p2@[u / v] in   if bv=0 then av else eval h = u in av + (h * bv) * q1)

∈ ℤ
BY
{ (CallByValueReduce 0 THENA Auto) }

1
1. k : ℕ
2. ∀k:ℕk
     ∀[n:ℕ]. ∀[p,q:polyform(n)].
       (((tree_size(p) + tree_size(q)) ≤ k) ⇒ (∀[l:{l:ℤ List| n ≤ ||l||} ]. (mul-polynom(p;q)@l = (p@l * q@l) ∈ ℤ)))
3. n : ℕ
4. left : tree(ℤ)
5. p2 : tree(ℤ)
6. ((↑(ispolyform(left) (n - 1))) ∧ (↑(ispolyform(p2) n))) ∧ 0 < n
7. q1 : ℤ
8. True
9. (((1 + tree_size(left)) + tree_size(p2)) + 0) ≤ k
10. u : ℤ
11. v : ℤ List
12. n ≤ (||v|| + 1)
13. mul-polynom(left;tree_leaf(q1)) ∈ polyform(n - 1)
14. mul-polynom(p2;tree_leaf(q1)) ∈ polyform(n)
⊢ eval av = mul-polynom(left;tree_leaf(q1))@v in
  eval bv = mul-polynom(p2;tree_leaf(q1))@[u / v] in
    if bv=0 then av else eval h = u in av + (h * bv)

= (eval av = left@v in eval bv = p2@[u / v] in   if bv=0 then av else eval h = u in av + (h * bv) * q1)

∈ ℤ

Latex:

Latex:
1. k : \mBbbN{} 2. \mforall{}k:\mBbbN{}k \mforall{}[n:\mBbbN{}]. \mforall{}[p,q:polyform(n)]. (((tree\_size(p) + tree\_size(q)) \mleq{} k) {}\mRightarrow{} (\mforall{}[l:\{l:\mBbbZ{} List| n \mleq{} ||l||\} ]. (mul-polynom(p;q)@l = (p@l * q@l)))) 3. n : \mBbbN{} 4. left : tree(\mBbbZ{}) 5. p2 : tree(\mBbbZ{}) 6. ((\muparrow{}(ispolyform(left) (n - 1))) \mwedge{} (\muparrow{}(ispolyform(p2) n))) \mwedge{} 0 < n 7. q1 : \mBbbZ{} 8. True 9. (((1 + tree\_size(left)) + tree\_size(p2)) + 0) \mleq{} k 10. u : \mBbbZ{} 11. v : \mBbbZ{} List 12. n \mleq{} (||v|| + 1) 13. mul-polynom(left;tree\_leaf(q1)) \mmember{} polyform(n - 1) 14. mul-polynom(p2;tree\_leaf(q1)) \mmember{} polyform(n) \mvdash{} eval t = v in eval av = mul-polynom(left;tree\_leaf(q1))@t in eval bv = mul-polynom(p2;tree\_leaf(q1))@[u / v] in if bv=0 then av else eval h = u in av + (h * bv) = (eval t = v in eval av = left@t in eval bv = p2@[u / v] in if bv=0 then av else eval h = u in av + (h * bv) * q1) By Latex: (CallByValueReduce 0 THENA Auto) Home Index