Proof of Nuprl Lemma : satisfies-gcd-reduce-ineq-constraints

Step * 2 1 1 2 2 2 3 1 of Lemma satisfies-gcd-reduce-ineq-constraints

1. n : ℕ⁺
2. xs : {L:ℤ List| ||L|| = n ∈ ℤ}
3. 0 < ||xs||
4. hd(xs) = 1 ∈ ℤ
5. u : ℤ
6. v1 : ℤ List
7. ||[u / v1]|| = n ∈ ℤ
8. v : {L:ℤ List| ||L|| = n ∈ ℤ}  List
9. ∀sat:{L:ℤ List| ||L|| = n ∈ ℤ}  List
     ((↑isl(gcd-reduce-ineq-constraints(sat;v)))
     ⇒ (∀as∈outl(gcd-reduce-ineq-constraints(sat;v)).xs ⋅ as ≥0)
     ⇒ (∀as∈v.xs ⋅ as ≥0))
10. sat : {L:ℤ List| ||L|| = n ∈ ℤ}  List
11. ¬↑null(v1)
12. gg : ℤ
13. |gcd-list(v1)| = gg ∈ ℤ
14. ¬1 < gg
15. ↑isl(gcd-reduce-ineq-constraints([[u / v1] / sat];v))
16. (∀as∈outl(gcd-reduce-ineq-constraints([[u / v1] / sat];v)).xs ⋅ as ≥0)
⊢ xs ⋅ [u / v1] ≥0
BY
{ ((RWO "l_all_iff" (-1) THENA Auto) THEN BHyp -1 THEN Auto) }

1
1. n : ℕ⁺
2. xs : {L:ℤ List| ||L|| = n ∈ ℤ}
3. 0 < ||xs||
4. hd(xs) = 1 ∈ ℤ
5. u : ℤ
6. v1 : ℤ List
7. ||[u / v1]|| = n ∈ ℤ
8. v : {L:ℤ List| ||L|| = n ∈ ℤ}  List
9. ∀sat:{L:ℤ List| ||L|| = n ∈ ℤ}  List
     ((↑isl(gcd-reduce-ineq-constraints(sat;v)))
     ⇒ (∀as∈outl(gcd-reduce-ineq-constraints(sat;v)).xs ⋅ as ≥0)
     ⇒ (∀as∈v.xs ⋅ as ≥0))
10. sat : {L:ℤ List| ||L|| = n ∈ ℤ}  List
11. ¬↑null(v1)
12. gg : ℤ
13. |gcd-list(v1)| = gg ∈ ℤ
14. ¬1 < gg
15. ↑isl(gcd-reduce-ineq-constraints([[u / v1] / sat];v))
16. ∀as:ℤ List⁺. ((as ∈ outl(gcd-reduce-ineq-constraints([[u / v1] / sat];v))) ⇒ xs ⋅ as ≥0)
⊢ ([u / v1] ∈ outl(gcd-reduce-ineq-constraints([[u / v1] / sat];v)))

Latex:

Latex:
1. n : \mBbbN{}\msupplus{} 2. xs : \{L:\mBbbZ{} List| ||L|| = n\} 3. 0 < ||xs|| 4. hd(xs) = 1 5. u : \mBbbZ{} 6. v1 : \mBbbZ{} List 7. ||[u / v1]|| = n 8. v : \{L:\mBbbZ{} List| ||L|| = n\} List 9. \mforall{}sat:\{L:\mBbbZ{} List| ||L|| = n\} List ((\muparrow{}isl(gcd-reduce-ineq-constraints(sat;v))) {}\mRightarrow{} (\mforall{}as\mmember{}outl(gcd-reduce-ineq-constraints(sat;v)).xs \mcdot{} as \mgeq{}0) {}\mRightarrow{} (\mforall{}as\mmember{}v.xs \mcdot{} as \mgeq{}0)) 10. sat : \{L:\mBbbZ{} List| ||L|| = n\} List 11. \mneg{}\muparrow{}null(v1) 12. gg : \mBbbZ{} 13. |gcd-list(v1)| = gg 14. \mneg{}1 < gg 15. \muparrow{}isl(gcd-reduce-ineq-constraints([[u / v1] / sat];v)) 16. (\mforall{}as\mmember{}outl(gcd-reduce-ineq-constraints([[u / v1] / sat];v)).xs \mcdot{} as \mgeq{}0) \mvdash{} xs \mcdot{} [u / v1] \mgeq{}0 By Latex: ((RWO "l\_all\_iff" (-1) THENA Auto) THEN BHyp -1 THEN Auto) Home Index