Proof of Nuprl Lemma : mul-polynom

Step * 1 1 2 of Lemma mul-polynom_wf

1. n : ℤ
2. 0 < n
3. ∀[p,q:polyform(n - 1)].  (mul-polynom(n - 1;p;q) ∈ polyform(n - 1))
4. p : polyform(n - 1) List
5. q : polyform(n - 1) List
6. polyconst(n;0) ∈ polyform(n - 1) List
7. ¬(n = 0 ∈ ℤ)
8. ¬(n = 0 ∈ ℤ)
9. ¬(n = 0 ∈ ℤ)
10. z : polyform(n - 1) List
11. a : polyform(n - 1)
12. add-polynom(n;tt;if null(z) then [] else z @ [polyconst(n - 1;0)] fi ;if poly-zero(n - 1;a)
then []
else map(λx.mul-polynom(n - 1;a;x);q)
fi )
= add-polynom(n;tt;if null(z) then [] else z @ [polyconst(n - 1;0)] fi ;if poly-zero(n - 1;a)
  then []
  else map(λx.mul-polynom(n - 1;a;x);q)
  fi )
∈ polyform(n)
⊢ polyform(n) ⊆r (polyform(n - 1) List)
BY
{ (RW  (AddrC [1] RecUnfoldTopAbC) 0 THEN Auto) }

Latex:

Latex:
1. n : \mBbbZ{} 2. 0 < n 3. \mforall{}[p,q:polyform(n - 1)]. (mul-polynom(n - 1;p;q) \mmember{} polyform(n - 1)) 4. p : polyform(n - 1) List 5. q : polyform(n - 1) List 6. polyconst(n;0) \mmember{} polyform(n - 1) List 7. \mneg{}(n = 0) 8. \mneg{}(n = 0) 9. \mneg{}(n = 0) 10. z : polyform(n - 1) List 11. a : polyform(n - 1) 12. add-polynom(n;tt;if null(z) then [] else z @ [polyconst(n - 1;0)] fi ;if poly-zero(n - 1;a) then [] else map(\mlambda{}x.mul-polynom(n - 1;a;x);q) fi ) = add-polynom(n;tt;if null(z) then [] else z @ [polyconst(n - 1;0)] fi ;if poly-zero(n - 1;a) then [] else map(\mlambda{}x.mul-polynom(n - 1;a;x);q) fi ) \mvdash{} polyform(n) \msubseteq{}r (polyform(n - 1) List) By Latex: (RW (AddrC [1] RecUnfoldTopAbC) 0 THEN Auto) Home Index