Proof of Nuprl Lemma : satisfiable-exact-reduce-constraints

Step * 1 1 1 2 of Lemma satisfiable-exact-reduce-constraints

1. eqs : ℤ List List
2. i : ℕ||eqs||
3. j : ℕ⁺||eqs[i]||
4. exact-eq-constraint(eqs;i;j)
5. ineqs : ℤ List List
6. xs : ℤ List
7. satisfies-integer-problem(eqs;ineqs;xs)
8. (∀e∈eqs.||e|| = ||xs|| ∈ ℤ)
9. (∀e∈ineqs.||e|| = ||xs|| ∈ ℤ)
10. ||eqs[i]|| ~ ||xs||
11. eqs ∈ {l:ℤ List| ||l|| = ||eqs[i]|| ∈ ℤ} List
12. ineqs ∈ {l:ℤ List| ||l|| = ||eqs[i]|| ∈ ℤ} List
13. 1 ≤ j
14. j < ||xs||
15. 0 < ||xs\j||
16. hd(xs\j) = hd(xs) ∈ ℤ
17. (∀bs∈ineqs.xs ⋅ bs ≥0)
18. ∀i:ℕ||eqs||. xs ⋅ eqs[i] =0
19. i@0 : ℕ||eqs||
20. 0 < ||xs||
21. hd(xs) = 1 ∈ ℤ
22. eqs[i@0] ⋅ xs = 0 ∈ ℤ
23. ||xs|| = ||eqs[i@0]|| ∈ ℤ
⊢ ||xs\j|| = ||eqs[i@0]\j|| ∈ ℤ
BY
{ TACTIC:(RWO "length-list-delete" 0 THEN Try (RevHypSubst' (-1) 0) THEN Auto) }

Latex:

Latex:
1. eqs : \mBbbZ{} List List 2. i : \mBbbN{}||eqs|| 3. j : \mBbbN{}\msupplus{}||eqs[i]|| 4. exact-eq-constraint(eqs;i;j) 5. ineqs : \mBbbZ{} List List 6. xs : \mBbbZ{} List 7. satisfies-integer-problem(eqs;ineqs;xs) 8. (\mforall{}e\mmember{}eqs.||e|| = ||xs||) 9. (\mforall{}e\mmember{}ineqs.||e|| = ||xs||) 10. ||eqs[i]|| \msim{} ||xs|| 11. eqs \mmember{} \{l:\mBbbZ{} List| ||l|| = ||eqs[i]||\} List 12. ineqs \mmember{} \{l:\mBbbZ{} List| ||l|| = ||eqs[i]||\} List 13. 1 \mleq{} j 14. j < ||xs|| 15. 0 < ||xs\mbackslash{}j|| 16. hd(xs\mbackslash{}j) = hd(xs) 17. (\mforall{}bs\mmember{}ineqs.xs \mcdot{} bs \mgeq{}0) 18. \mforall{}i:\mBbbN{}||eqs||. xs \mcdot{} eqs[i] =0 19. i@0 : \mBbbN{}||eqs|| 20. 0 < ||xs|| 21. hd(xs) = 1 22. eqs[i@0] \mcdot{} xs = 0 23. ||xs|| = ||eqs[i@0]|| \mvdash{} ||xs\mbackslash{}j|| = ||eqs[i@0]\mbackslash{}j|| By Latex: TACTIC:(RWO "length-list-delete" 0 THEN Try (RevHypSubst' (-1) 0) THEN Auto) Home Index