Proof of Nuprl Lemma : add-ipoly-equiv

Step * 1 2 2 2 1 2 1 of Lemma add-ipoly-equiv

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. ¬↑imonomial-le(u1;u)
8. v1 : iMonomial() List
9. ||[u / v]|| + ||[u1 / v1]|| < n
10. ↑imonomial-le(u;u1)

⊢ imonomial-term(u) (+) ipolynomial-term(v) (+) imonomial-term(u1) (+) ipolynomial-term(v1) ≡ (imonomial-term(u)

                                                                                              (+) ipolynomial-term(v))

(+) imonomial-term(u1)
(+) ipolynomial-term(v1)
BY
{ ((D 0 THEN Auto) THEN RepUR ``int_term_value`` 0 THEN Fold `int_term_value` 0 THEN Auto) }

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. u1 : iMonomial() 7. \mneg{}\muparrow{}imonomial-le(u1;u) 8. v1 : iMonomial() List 9. ||[u / v]|| + ||[u1 / v1]|| < n 10. \muparrow{}imonomial-le(u;u1) \mvdash{} imonomial-term(u) (+) ipolynomial-term(v) (+) imonomial-term(u1) (+) ipolynomial-term(v1) \mequiv{} (imonomial-term(u) (+) ipolynomial-term(v)) (+) imonomial-term(u1) (+) ipolynomial-term(v1) By Latex: ((D 0 THEN Auto) THEN RepUR ``int\_term\_value`` 0 THEN Fold `int\_term\_value` 0 THEN Auto) Home Index