Proof of Nuprl Lemma : lattice-fset-meet-free-dlwc-inc

Step * 2 of Lemma lattice-fset-meet-free-dlwc-inc

1. T : Type
2. eq : EqDecider(T)
3. Cs : T ⟶ fset(fset(T))
4. s : fset(T)
5. ↑fset-contains-none(eq;s;x.Cs[x])
6. deq-fset(deq-fset(eq)) ∈ EqDecider(Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x])))
7. {s} ∈ Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x]))
8. ∀[s:fset(Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x])))].
   ∀[x:Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x]))].
     /\(s) ≤ x supposing x ∈ s
9. ∀[s:fset(Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x])))].
   ∀[v:Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x]))].
     ((∀x:Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x])). (x ∈ s ⇒ v ≤ x)) ⇒ v ≤ /\(s))
10. {s} ≤ /\(λx.free-dlwc-inc(eq;a.Cs[a];x)"(s))
⊢ /\(λx.free-dlwc-inc(eq;a.Cs[a];x)"(s)) = {s} ∈ Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x]))
BY
{ Assert ⌜/\(λx.free-dlwc-inc(eq;a.Cs[a];x)"(s)) ≤ {s}⌝⋅ }

1
.....assertion.....
1. T : Type
2. eq : EqDecider(T)
3. Cs : T ⟶ fset(fset(T))
4. s : fset(T)
5. ↑fset-contains-none(eq;s;x.Cs[x])
6. deq-fset(deq-fset(eq)) ∈ EqDecider(Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x])))
7. {s} ∈ Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x]))
8. ∀[s:fset(Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x])))].
   ∀[x:Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x]))].
     /\(s) ≤ x supposing x ∈ s
9. ∀[s:fset(Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x])))].
   ∀[v:Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x]))].
     ((∀x:Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x])). (x ∈ s ⇒ v ≤ x)) ⇒ v ≤ /\(s))
10. {s} ≤ /\(λx.free-dlwc-inc(eq;a.Cs[a];x)"(s))
⊢ /\(λx.free-dlwc-inc(eq;a.Cs[a];x)"(s)) ≤ {s}

2
1. T : Type
2. eq : EqDecider(T)
3. Cs : T ⟶ fset(fset(T))
4. s : fset(T)
5. ↑fset-contains-none(eq;s;x.Cs[x])
6. deq-fset(deq-fset(eq)) ∈ EqDecider(Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x])))
7. {s} ∈ Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x]))
8. ∀[s:fset(Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x])))].
   ∀[x:Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x]))].
     /\(s) ≤ x supposing x ∈ s
9. ∀[s:fset(Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x])))].
   ∀[v:Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x]))].
     ((∀x:Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x])). (x ∈ s ⇒ v ≤ x)) ⇒ v ≤ /\(s))
10. {s} ≤ /\(λx.free-dlwc-inc(eq;a.Cs[a];x)"(s))
11. /\(λx.free-dlwc-inc(eq;a.Cs[a];x)"(s)) ≤ {s}
⊢ /\(λx.free-dlwc-inc(eq;a.Cs[a];x)"(s)) = {s} ∈ Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x]))

Latex:

Latex:
1. T : Type 2. eq : EqDecider(T) 3. Cs : T {}\mrightarrow{} fset(fset(T)) 4. s : fset(T) 5. \muparrow{}fset-contains-none(eq;s;x.Cs[x]) 6. deq-fset(deq-fset(eq)) \mmember{} EqDecider(Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x]))) 7. \{s\} \mmember{} Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x])) 8. \mforall{}[s:fset(Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x])))]. \mforall{}[x:Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x]))]. /\mbackslash{}(s) \mleq{} x supposing x \mmember{} s 9. \mforall{}[s:fset(Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x])))]. \mforall{}[v:Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x]))]. ((\mforall{}x:Point(free-dist-lattice-with-constraints(T;eq;x.Cs[x])). (x \mmember{} s {}\mRightarrow{} v \mleq{} x)) {}\mRightarrow{} v \mleq{} /\mbackslash{}(s)) 10. \{s\} \mleq{} /\mbackslash{}(\mlambda{}x.free-dlwc-inc(eq;a.Cs[a];x)"(s)) \mvdash{} /\mbackslash{}(\mlambda{}x.free-dlwc-inc(eq;a.Cs[a];x)"(s)) = \{s\} By Latex: Assert \mkleeneopen{}/\mbackslash{}(\mlambda{}x.free-dlwc-inc(eq;a.Cs[a];x)"(s)) \mleq{} \{s\}\mkleeneclose{}\mcdot{} Home Index