Proof of Nuprl Lemma : div_3_to

Step * 1 4 of Lemma div_3_to_1

1. a : ℤ
2. a ≤ 0
3. b : ℤ
4. b ≤ (-1)
5. 0 ≤ ((-1) * a)
6. 1 ≤ ((-1) * b)
7. (0 rem -b) = 0 ∈ ℤ
8. (-a) = ((((-a) ÷ -b) * (-b)) + (-a rem -b)) ∈ ℤ
9. 0 ≤ (-a rem -b)
10. -a rem -b < -b
11. |-(-a rem -b)| < |b|
12. a = ((((-a) ÷ -b) * b) + (-(-a rem -b))) ∈ ℤ
13. (0 ≤ a) ⇒ (0 ≤ (-(-a rem -b)))
14. 0 < -(-a rem -b)
⊢ 0 < a
BY
{ (Assert ⌜False⌝⋅ THEN Auto) }

1
.....assertion.....
1. a : ℤ
2. a ≤ 0
3. b : ℤ
4. b ≤ (-1)
5. 0 ≤ ((-1) * a)
6. 1 ≤ ((-1) * b)
7. (0 rem -b) = 0 ∈ ℤ
8. (-a) = ((((-a) ÷ -b) * (-b)) + (-a rem -b)) ∈ ℤ
9. 0 ≤ (-a rem -b)
10. -a rem -b < -b
11. |-(-a rem -b)| < |b|
12. a = ((((-a) ÷ -b) * b) + (-(-a rem -b))) ∈ ℤ
13. (0 ≤ a) ⇒ (0 ≤ (-(-a rem -b)))
14. 0 < -(-a rem -b)
⊢ False

Latex:

Latex:
1. a : \mBbbZ{} 2. a \mleq{} 0 3. b : \mBbbZ{} 4. b \mleq{} (-1) 5. 0 \mleq{} ((-1) * a) 6. 1 \mleq{} ((-1) * b) 7. (0 rem -b) = 0 8. (-a) = ((((-a) \mdiv{} -b) * (-b)) + (-a rem -b)) 9. 0 \mleq{} (-a rem -b) 10. -a rem -b < -b 11. |-(-a rem -b)| < |b| 12. a = ((((-a) \mdiv{} -b) * b) + (-(-a rem -b))) 13. (0 \mleq{} a) {}\mRightarrow{} (0 \mleq{} (-(-a rem -b))) 14. 0 < -(-a rem -b) \mvdash{} 0 < a By Latex: (Assert \mkleeneopen{}False\mkleeneclose{}\mcdot{} THEN Auto) Home Index