Proof of Nuprl Lemma : free-dl-basis

Step * 1 1 1 1 1 1 of Lemma free-dl-basis

1. T : Type
2. eq : EqDecider(T)
3. x : Point(free-dist-lattice(T; eq))
4. ∀s:fset(T). ({s} ∈ Point(free-dist-lattice(T; eq)))
5. x ∈ fset(fset(T))
6. deq-fset(deq-fset(eq)) ∈ EqDecider(Point(free-dist-lattice(T; eq)))
7. ∀[x@0:Point(free-dist-lattice(T; eq))]. x@0 ≤ \/(λs.{s}"(x)) supposing x@0 ∈ λs.{s}"(x)
8. ∀[u:Point(free-dist-lattice(T; eq))]
     ((∀x@0:Point(free-dist-lattice(T; eq)). (x@0 ∈ λs.{s}"(x) ⇒ x@0 ≤ u)) ⇒ \/(λs.{s}"(x)) ≤ u)
9. z : {ac:fset(fset(T))| ↑fset-antichain(eq;ac)} @i
10. ↓∃x1:fset(T). (x1 ∈ x ∧ (z = {x1} ∈ Point(free-dist-lattice(T; eq))))
⊢ fset-ac-le(eq;z;x)
BY
{ (Unfold `fset-ac-le` 0
   THEN Using [`eq',⌜deq-fset(eq)⌝] (BLemma `fset-all-iff`)⋅
   THEN Auto
   THEN ExRepD
   THEN (RWO "free-dl-point" (-3) THENA Auto)
   THEN (HypSubst' (-3) (-1) THENA Auto)
   THEN (RWO "member-fset-singleton" (-1) THENA Auto)
   THEN (HypSubst' (-1) 0 THENA Auto)
   THEN RepeatFor 2 (Thin (-1))) }

1
1. T : Type
2. eq : EqDecider(T)
3. x : Point(free-dist-lattice(T; eq))
4. ∀s:fset(T). ({s} ∈ Point(free-dist-lattice(T; eq)))
5. x ∈ fset(fset(T))
6. deq-fset(deq-fset(eq)) ∈ EqDecider(Point(free-dist-lattice(T; eq)))
7. ∀[x@0:Point(free-dist-lattice(T; eq))]. x@0 ≤ \/(λs.{s}"(x)) supposing x@0 ∈ λs.{s}"(x)
8. ∀[u:Point(free-dist-lattice(T; eq))]
     ((∀x@0:Point(free-dist-lattice(T; eq)). (x@0 ∈ λs.{s}"(x) ⇒ x@0 ≤ u)) ⇒ \/(λs.{s}"(x)) ≤ u)
9. z : {ac:fset(fset(T))| ↑fset-antichain(eq;ac)} @i
10. x1 : fset(T)
11. x1 ∈ x
12. z = {x1} ∈ {ac:fset(fset(T))| ↑fset-antichain(eq;ac)}
⊢ ¬↑fset-null({y ∈ x | deq-f-subset(eq) y x1})

Latex:

Latex:
1. T : Type 2. eq : EqDecider(T) 3. x : Point(free-dist-lattice(T; eq)) 4. \mforall{}s:fset(T). (\{s\} \mmember{} Point(free-dist-lattice(T; eq))) 5. x \mmember{} fset(fset(T)) 6. deq-fset(deq-fset(eq)) \mmember{} EqDecider(Point(free-dist-lattice(T; eq))) 7. \mforall{}[x@0:Point(free-dist-lattice(T; eq))]. x@0 \mleq{} \mbackslash{}/(\mlambda{}s.\{s\}"(x)) supposing x@0 \mmember{} \mlambda{}s.\{s\}"(x) 8. \mforall{}[u:Point(free-dist-lattice(T; eq))] ((\mforall{}x@0:Point(free-dist-lattice(T; eq)). (x@0 \mmember{} \mlambda{}s.\{s\}"(x) {}\mRightarrow{} x@0 \mleq{} u)) {}\mRightarrow{} \mbackslash{}/(\mlambda{}s.\{s\}"(x)) \mleq{} u) 9. z : \{ac:fset(fset(T))| \muparrow{}fset-antichain(eq;ac)\} @i 10. \mdownarrow{}\mexists{}x1:fset(T). (x1 \mmember{} x \mwedge{} (z = \{x1\})) \mvdash{} fset-ac-le(eq;z;x) By Latex: (Unfold `fset-ac-le` 0 THEN Using [`eq',\mkleeneopen{}deq-fset(eq)\mkleeneclose{}] (BLemma `fset-all-iff`)\mcdot{} THEN Auto THEN ExRepD THEN (RWO "free-dl-point" (-3) THENA Auto) THEN (HypSubst' (-3) (-1) THENA Auto) THEN (RWO "member-fset-singleton" (-1) THENA Auto) THEN (HypSubst' (-1) 0 THENA Auto) THEN RepeatFor 2 (Thin (-1))) Home Index