Proof of Nuprl Lemma : sbhomout-correct

Step * 1 1 2 1 of Lemma sbhomout-correct

1. ∀a,b:ℕ. ∀m,n:ℕ⁺.  (0 < a + b ⇒ 0 < (a * m) + (b * n))
2. u : ℕ2
3. v : ℕ2 List
4. ∀x:ℕ
     ∀[a,b,c,d:ℕ].
       (((a + b + c + d) ≤ x)
       ⇒ 0 < a + b
       ⇒ 0 < c + d
       ⇒

 (sbhomout(a;b;c;d;v) = let m,n = sbdecode(v) in sbcode((a * m) + (b * n);(c * m) + (d * n)) ∈ (ℕ2 List)))

5. x : ℤ
6. 0 < x
7. ∀[a,b,c,d:ℕ].
     (((a + b + c + d) ≤ (x - 1))
     ⇒ 0 < a + b
     ⇒ 0 < c + d
     ⇒ (sbhomout(a;b;c;d;[u / v])
        = let m,n = sbdecode([u / v])
          in sbcode((a * m) + (b * n);(c * m) + (d * n))
        ∈ (ℕ2 List)))
8. a : ℕ
9. b : ℕ
10. c : ℕ
11. d : ℕ
12. ¬↑mtge1(a;b;c;d)
13. (a + b + c + d) ≤ x
14. 0 < a + b
15. 0 < c + d
16. ((a ≤ c) ∧ b < d) ∨ (a < c ∧ (b ≤ d))
⊢ eval c' = c - a in
  eval d' = d - b in
    [0 / sbhomout(a;b;c';d';[u / v])]
= let m,n = sbdecode([u / v])
  in sbcode((a * m) + (b * n);(c * m) + (d * n))
∈ (ℕ2 List)
BY
{ (RepeatFor 2 ((CallByValueReduce 0 THENA Auto)) THEN RWO "7" 0⋅ THEN Auto) }

1
1. ∀a,b:ℕ. ∀m,n:ℕ⁺.  (0 < a + b ⇒ 0 < (a * m) + (b * n))
2. u : ℕ2
3. v : ℕ2 List
4. ∀x:ℕ
     ∀[a,b,c,d:ℕ].
       (((a + b + c + d) ≤ x)
       ⇒ 0 < a + b
       ⇒ 0 < c + d
       ⇒

 (sbhomout(a;b;c;d;v) = let m,n = sbdecode(v) in sbcode((a * m) + (b * n);(c * m) + (d * n)) ∈ (ℕ2 List)))

⊢ [0 / let m,n = sbdecode([u / v]) in sbcode((a * m) + (b * n);((c - a) * m) + ((d - b) * n))]

= let m,n = sbdecode([u / v])
in sbcode((a * m) + (b * n);(c * m) + (d * n))
∈ (ℕ2 List)

Latex:

Latex:
1. \mforall{}a,b:\mBbbN{}. \mforall{}m,n:\mBbbN{}\msupplus{}. (0 < a + b {}\mRightarrow{} 0 < (a * m) + (b * n)) 2. u : \mBbbN{}2 3. v : \mBbbN{}2 List 4. \mforall{}x:\mBbbN{} \mforall{}[a,b,c,d:\mBbbN{}]. (((a + b + c + d) \mleq{} x) {}\mRightarrow{} 0 < a + b {}\mRightarrow{} 0 < c + d {}\mRightarrow{} (sbhomout(a;b;c;d;v) = let m,n = sbdecode(v) in sbcode((a * m) + (b * n);(c * m) + (d * n)))) 5. x : \mBbbZ{} 6. 0 < x 7. \mforall{}[a,b,c,d:\mBbbN{}]. (((a + b + c + d) \mleq{} (x - 1)) {}\mRightarrow{} 0 < a + b {}\mRightarrow{} 0 < c + d {}\mRightarrow{} (sbhomout(a;b;c;d;[u / v]) = let m,n = sbdecode([u / v]) in sbcode((a * m) + (b * n);(c * m) + (d * n)))) 8. a : \mBbbN{} 9. b : \mBbbN{} 10. c : \mBbbN{} 11. d : \mBbbN{} 12. \mneg{}\muparrow{}mtge1(a;b;c;d) 13. (a + b + c + d) \mleq{} x 14. 0 < a + b 15. 0 < c + d 16. ((a \mleq{} c) \mwedge{} b < d) \mvee{} (a < c \mwedge{} (b \mleq{} d)) \mvdash{} eval c' = c - a in eval d' = d - b in [0 / sbhomout(a;b;c';d';[u / v])] = let m,n = sbdecode([u / v]) in sbcode((a * m) + (b * n);(c * m) + (d * n)) By Latex: (RepeatFor 2 ((CallByValueReduce 0 THENA Auto)) THEN RWO "7" 0\mcdot{} THEN Auto) Home Index