Proof of Nuprl Lemma : cs-ref-map-step

Step * 2 1 1 1 of Lemma cs-ref-map-step

1. V : Type
2. {∃v1,v2:V. (¬(v1 = v2 ∈ V))}@i
3. A : Id List@i
4. W : {a:Id| (a ∈ A)}  List List@i
5. ||W|| ≥ 1
6. f : ConsensusState ─→ (consensus-state3(V) List)@i
7. cs-ref-map-constraints(V;A;W;f)@i
8. x : ConsensusState@i
9. (λa.<-1, ⊗>) ((λx,y. CR[x,y])^*) x@i
10. y : ConsensusState@i
11. (λa.<-1, ⊗>) ((λx,y. CR[x,y])^*) y@i
12. a : {a:Id| (a ∈ A)} @i
13. ∀b:{a:Id| (a ∈ A)}
      ((¬(b = a ∈ Id)) ⇒ ((Inning(y;b) = Inning(x;b) ∈ ℤ) ∧ (Estimate(y;b) = Estimate(x;b) ∈ i:ℤ fp-> V)))@i
14. ((Inning(y;a) = (Inning(x;a) + 1) ∈ ℤ) ∧ (Estimate(y;a) = Estimate(x;a) ∈ i:ℤ fp-> V))
∨ ((Inning(y;a) = Inning(x;a) ∈ ℤ)
  ∧ (¬(Inning(x;a) ∈ fpf-domain(Estimate(x;a))))
  ∧ (∃v:V
      (state x may consider v in inning Inning(x;a)
      ∧ (Estimate(y;a) = Estimate(x;a) ⊕ Inning(x;a) : v ∈ i:ℤ fp-> V))))@i
15. ||f x|| ≤ ||f y||
16. j : ℕ||f x||@i
17. ¬(j = Inning(x;a) ∈ ℤ)
18. b : {a:Id| (a ∈ A)} @i
19. b = a ∈ Id
⊢ (j ∈ fpf-domain(Estimate(y;b))) ⇐⇒ (j ∈ fpf-domain(Estimate(x;b)))
BY
{ (SplitOrHyps THEN ExRepD) }

1
1. V : Type
2. {∃v1,v2:V. (¬(v1 = v2 ∈ V))}@i
3. A : Id List@i
4. W : {a:Id| (a ∈ A)}  List List@i
5. ||W|| ≥ 1
6. f : ConsensusState ─→ (consensus-state3(V) List)@i
7. cs-ref-map-constraints(V;A;W;f)@i
8. x : ConsensusState@i
9. (λa.<-1, ⊗>) ((λx,y. CR[x,y])^*) x@i
10. y : ConsensusState@i
11. (λa.<-1, ⊗>) ((λx,y. CR[x,y])^*) y@i
12. a : {a:Id| (a ∈ A)} @i
13. ∀b:{a:Id| (a ∈ A)}
      ((¬(b = a ∈ Id)) ⇒ ((Inning(y;b) = Inning(x;b) ∈ ℤ) ∧ (Estimate(y;b) = Estimate(x;b) ∈ i:ℤ fp-> V)))@i
14. Inning(y;a) = (Inning(x;a) + 1) ∈ ℤ@i
15. Estimate(y;a) = Estimate(x;a) ∈ i:ℤ fp-> V@i
16. ||f x|| ≤ ||f y||
17. j : ℕ||f x||@i
18. ¬(j = Inning(x;a) ∈ ℤ)
19. b : {a:Id| (a ∈ A)} @i
20. b = a ∈ Id
⊢ (j ∈ fpf-domain(Estimate(y;b))) ⇐⇒ (j ∈ fpf-domain(Estimate(x;b)))

2
1. V : Type
2. {∃v1,v2:V. (¬(v1 = v2 ∈ V))}@i
3. A : Id List@i
4. W : {a:Id| (a ∈ A)}  List List@i
5. ||W|| ≥ 1
6. f : ConsensusState ─→ (consensus-state3(V) List)@i
7. cs-ref-map-constraints(V;A;W;f)@i
8. x : ConsensusState@i
9. (λa.<-1, ⊗>) ((λx,y. CR[x,y])^*) x@i
10. y : ConsensusState@i
11. (λa.<-1, ⊗>) ((λx,y. CR[x,y])^*) y@i
12. a : {a:Id| (a ∈ A)} @i
13. ∀b:{a:Id| (a ∈ A)}
      ((¬(b = a ∈ Id)) ⇒ ((Inning(y;b) = Inning(x;b) ∈ ℤ) ∧ (Estimate(y;b) = Estimate(x;b) ∈ i:ℤ fp-> V)))@i
14. Inning(y;a) = Inning(x;a) ∈ ℤ@i
15. ¬(Inning(x;a) ∈ fpf-domain(Estimate(x;a)))@i
16. v : V@i
17. state x may consider v in inning Inning(x;a)@i
18. Estimate(y;a) = Estimate(x;a) ⊕ Inning(x;a) : v ∈ i:ℤ fp-> V@i
19. ||f x|| ≤ ||f y||
20. j : ℕ||f x||@i
21. ¬(j = Inning(x;a) ∈ ℤ)
22. b : {a:Id| (a ∈ A)} @i
23. b = a ∈ Id
⊢ (j ∈ fpf-domain(Estimate(y;b))) ⇐⇒ (j ∈ fpf-domain(Estimate(x;b)))

Latex:

1. V : Type 2. \{\mexists{}v1,v2:V. (\mneg{}(v1 = v2))\}@i 3. A : Id List@i 4. W : \{a:Id| (a \mmember{} A)\} List List@i 5. ||W|| \mgeq{} 1 6. f : ConsensusState {}\mrightarrow{} (consensus-state3(V) List)@i 7. cs-ref-map-constraints(V;A;W;f)@i 8. x : ConsensusState@i 9. (\mlambda{}a.<-1, \motimes{}>) rel\_star(ConsensusState; \mlambda{}x,y. CR[x,y]) x@i 10. y : ConsensusState@i 11. (\mlambda{}a.<-1, \motimes{}>) rel\_star(ConsensusState; \mlambda{}x,y. CR[x,y]) y@i 12. a : \{a:Id| (a \mmember{} A)\} @i 13. \mforall{}b:\{a:Id| (a \mmember{} A)\} ((\mneg{}(b = a)) {}\mRightarrow{} ((Inning(y;b) = Inning(x;b)) \mwedge{} (Estimate(y;b) = Estimate(x;b))))@i 14. ((Inning(y;a) = (Inning(x;a) + 1)) \mwedge{} (Estimate(y;a) = Estimate(x;a))) \mvee{} ((Inning(y;a) = Inning(x;a)) \mwedge{} (\mneg{}(Inning(x;a) \mmember{} fpf-domain(Estimate(x;a)))) \mwedge{} (\mexists{}v:V (state x may consider v in inning Inning(x;a) \mwedge{} (Estimate(y;a) = Estimate(x;a) \moplus{} Inning(x;a) : v))))@i 15. ||f x|| \mleq{} ||f y|| 16. j : \mBbbN{}||f x||@i 17. \mneg{}(j = Inning(x;a)) 18. b : \{a:Id| (a \mmember{} A)\} @i 19. b = a \mvdash{} (j \mmember{} fpf-domain(Estimate(y;b))) \mLeftarrow{}{}\mRightarrow{} (j \mmember{} fpf-domain(Estimate(x;b))) By (SplitOrHyps THEN ExRepD) Home Index