Proof of Nuprl Lemma : add-ipoly-req

Step * 2 2 of Lemma add-ipoly-req

1. n : ℤ
2. 0 < n
3. ∀p,q:iMonomial() List.
     (||p|| + ||q|| < n - 1 ⇒ ipolynomial-term(add-ipoly(p;q)) ≡ ipolynomial-term(p) (+) ipolynomial-term(q))
4. u : iMonomial()
5. v : iMonomial() List
6. q : iMonomial() List
7. ||[u / v]|| + ||q|| < n
⊢ ipolynomial-term(if null(q)
then [u / v]
else let q1,qs = q
     in if imonomial-le(u;q1)
        then if imonomial-le(q1;u)
             then let x ⟵ add-ipoly(v;qs)
                  in let cp,vs = u
                     in eval c = cp + (fst(q1)) in
                        if c=0 then x else [<c, vs> / x]
             else let x ⟵ add-ipoly(v;[q1 / qs])
                  in [u / x]
             fi
        else let x ⟵ add-ipoly([u / v];qs)
             in [q1 / x]
        fi
fi ) ≡ ipolynomial-term([u / v]) (+) ipolynomial-term(q)
BY
{ (DVar `q' THEN Reduce 0) }

1
1. n : ℤ
2. 0 < n
3. ∀p,q:iMonomial() List.
     (||p|| + ||q|| < n - 1 ⇒ ipolynomial-term(add-ipoly(p;q)) ≡ ipolynomial-term(p) (+) ipolynomial-term(q))
4. u : iMonomial()
5. v : iMonomial() List
6. ||[u / v]|| + ||[]|| < n
⊢ ipolynomial-term([u / v]) ≡ ipolynomial-term([u / v]) (+) ipolynomial-term([])

2
1. n : ℤ
2. 0 < n
3. ∀p,q:iMonomial() List.
     (||p|| + ||q|| < n - 1 ⇒ ipolynomial-term(add-ipoly(p;q)) ≡ ipolynomial-term(p) (+) ipolynomial-term(q))
4. u : iMonomial()
5. v : iMonomial() List
6. u1 : iMonomial()
7. v1 : iMonomial() List
8. ||[u / v]|| + ||[u1 / v1]|| < n
⊢ ipolynomial-term(if imonomial-le(u;u1)
then if imonomial-le(u1;u)
     then let x ⟵ add-ipoly(v;v1)
          in let cp,vs = u
             in eval c = cp + (fst(u1)) in
                if c=0 then x else [<c, vs> / x]
     else let x ⟵ add-ipoly(v;[u1 / v1])
          in [u / x]
     fi
else let x ⟵ add-ipoly([u / v];v1)
     in [u1 / x]
fi ) ≡ ipolynomial-term([u / v]) (+) ipolynomial-term([u1 / v1])

Latex:

Latex:
1. n : \mBbbZ{} 2. 0 < n 3. \mforall{}p,q:iMonomial() List. (||p|| + ||q|| < n - 1 {}\mRightarrow{} ipolynomial-term(add-ipoly(p;q)) \mequiv{} ipolynomial-term(p) (+) ipolynomial-term(q)) 4. u : iMonomial() 5. v : iMonomial() List 6. q : iMonomial() List 7. ||[u / v]|| + ||q|| < n \mvdash{} ipolynomial-term(if null(q) then [u / v] else let q1,qs = q in if imonomial-le(u;q1) then if imonomial-le(q1;u) then let x \mleftarrow{}{} add-ipoly(v;qs) in let cp,vs = u in eval c = cp + (fst(q1)) in if c=0 then x else [<c, vs> / x] else let x \mleftarrow{}{} add-ipoly(v;[q1 / qs]) in [u / x] fi else let x \mleftarrow{}{} add-ipoly([u / v];qs) in [q1 / x] fi fi ) \mequiv{} ipolynomial-term([u / v]) (+) ipolynomial-term(q) By Latex: (DVar `q' THEN Reduce 0) Home Index