Proof of Nuprl Lemma : lattice-extend-dlwc-inc

Step * 2 1 1 1 1 1 of Lemma lattice-extend-dlwc-inc

1. T : Type
2. eq : EqDecider(T)
3. Cs : T ⟶ fset(fset(T))
4. L : BoundedDistributiveLattice
5. eqL : EqDecider(Point(L))
6. f : T ⟶ Point(L)
7. ∀x:T. ∀c:fset(T). (c ∈ Cs[x] ⇒ (/\(f"(c)) = 0 ∈ Point(L)))
8. x : T

9. ∀[P:fset(T) ⟶ 𝔹]. ∀[s:fset(fset(T))].  uiff({x ∈ s | P[x]} = {} ∈ fset(fset(T));¬(∃x:fset(T). (x ∈ s ∧ (↑P[x]))))

10. ∀x,y:Point(L).  Dec(x = y ∈ Point(L))
11. ¬(0 = (f x) ∈ Point(L))
12. c : fset(T)@i
13. c ∈ Cs[x]
14. c ⊆ {x}
15. ∀c:fset(T). (c ∈ Cs[x] ⇒ (/\(f"(c)) = 0 ∈ Point(L)))
16. /\(f"(c)) = 0 ∈ Point(L)
⊢ False
BY
{ ((FLemma `f-subset-singleton` [-3] THENA Auto)
   THEN D -1
   THEN (HypSubst' (-1) (-2) THENA Auto)
   THEN (RWO "fset-image-singleton fset-image-empty" (-2) THENA Auto)) }

1
1. T : Type
2. eq : EqDecider(T)
3. Cs : T ⟶ fset(fset(T))
4. L : BoundedDistributiveLattice
5. eqL : EqDecider(Point(L))
6. f : T ⟶ Point(L)
7. ∀x:T. ∀c:fset(T).  (c ∈ Cs[x] ⇒ (/\(f"(c)) = 0 ∈ Point(L)))
8. x : T

9. ∀[P:fset(T) ⟶ 𝔹]. ∀[s:fset(fset(T))].  uiff({x ∈ s | P[x]} = {} ∈ fset(fset(T));¬(∃x:fset(T). (x ∈ s ∧ (↑P[x]))))

10. ∀x,y:Point(L). Dec(x = y ∈ Point(L))
11. ¬(0 = (f x) ∈ Point(L))
12. c : fset(T)@i
13. c ∈ Cs[x]
14. c ⊆ {x}
15. ∀c:fset(T). (c ∈ Cs[x] ⇒ (/\(f"(c)) = 0 ∈ Point(L)))
16. /\({f x}) = 0 ∈ Point(L)
17. c = {x} ∈ fset(T)
⊢ False

2
1. T : Type
2. eq : EqDecider(T)
3. Cs : T ⟶ fset(fset(T))
4. L : BoundedDistributiveLattice
5. eqL : EqDecider(Point(L))
6. f : T ⟶ Point(L)
7. ∀x:T. ∀c:fset(T). (c ∈ Cs[x] ⇒ (/\(f"(c)) = 0 ∈ Point(L)))
8. x : T

9. ∀[P:fset(T) ⟶ 𝔹]. ∀[s:fset(fset(T))].  uiff({x ∈ s | P[x]} = {} ∈ fset(fset(T));¬(∃x:fset(T). (x ∈ s ∧ (↑P[x]))))

Latex:

Latex:
1. T : Type 2. eq : EqDecider(T) 3. Cs : T {}\mrightarrow{} fset(fset(T)) 4. L : BoundedDistributiveLattice 5. eqL : EqDecider(Point(L)) 6. f : T {}\mrightarrow{} Point(L) 7. \mforall{}x:T. \mforall{}c:fset(T). (c \mmember{} Cs[x] {}\mRightarrow{} (/\mbackslash{}(f"(c)) = 0)) 8. x : T 9. \mforall{}[P:fset(T) {}\mrightarrow{} \mBbbB{}]. \mforall{}[s:fset(fset(T))]. uiff(\{x \mmember{} s | P[x]\} = \{\};\mneg{}(\mexists{}x:fset(T). (x \mmember{} s \mwedge{} (\muparrow{}P[x])))) 10. \mforall{}x,y:Point(L). Dec(x = y) 11. \mneg{}(0 = (f x)) 12. c : fset(T)@i 13. c \mmember{} Cs[x] 14. c \msubseteq{} \{x\} 15. \mforall{}c:fset(T). (c \mmember{} Cs[x] {}\mRightarrow{} (/\mbackslash{}(f"(c)) = 0)) 16. /\mbackslash{}(f"(c)) = 0 \mvdash{} False By Latex: ((FLemma `f-subset-singleton` [-3] THENA Auto) THEN D -1 THEN (HypSubst' (-1) (-2) THENA Auto) THEN (RWO "fset-image-singleton fset-image-empty" (-2) THENA Auto)) Home Index