Proof of Nuprl Lemma : dm-neg-is-hom

Step * of Lemma dm-neg-is-hom

No Annotations
∀[T:Type]. ∀[eq:EqDecider(T)].
  (λx.¬(x) ∈ Hom(free-DeMorgan-lattice(T;eq);opposite-lattice(free-DeMorgan-lattice(T;eq))))
BY
{ (Auto
   THEN Unfold `dm-neg` 0
   THEN (Assert Point(free-DeMorgan-lattice(T;eq)) ~ Point(opposite-lattice(free-DeMorgan-lattice(T;eq))) BY
               (RW (SubC (SymbCompC [`free-DeMorgan-lattice`] 30)) 0 THEN Auto))
   THEN (Assert deq-fset(deq-fset(union-deq(T;T;eq;eq)))
                ∈ EqDecider(Point(opposite-lattice(free-DeMorgan-lattice(T;eq)))) BY

               (RevHypSubst 3 0 THEN Unfold `free-DeMorgan-lattice` 0 THEN RWO "free-dl-point" 0 THEN Auto))

   THEN (InstLemma `lattice-extend-is-hom` [⌜T + T⌝;⌜union-deq(T;T;eq;eq)⌝;
         ⌜opposite-lattice(free-DeMorgan-lattice(T;eq))⌝;⌜deq-fset(deq-fset(union-deq(T;T;eq;eq)))⌝]⋅
         THENA Auto
         )
   THEN BHyp -1
   THEN Auto) }

1
1. T : Type
2. eq : EqDecider(T)
3. Point(free-DeMorgan-lattice(T;eq)) ~ Point(opposite-lattice(free-DeMorgan-lattice(T;eq)))
4. deq-fset(deq-fset(union-deq(T;T;eq;eq))) ∈ EqDecider(Point(opposite-lattice(free-DeMorgan-lattice(T;eq))))
5. ∀[f:(T + T) ⟶ Point(opposite-lattice(free-DeMorgan-lattice(T;eq)))]
     (λac.lattice-extend(opposite-lattice(free-DeMorgan-lattice(T;eq));union-deq(T;T;eq;eq);
                         deq-fset(deq-fset(union-deq(T;T;eq;eq)));f;ac)
      ∈ Hom(free-dist-lattice(T + T; union-deq(T;T;eq;eq));opposite-lattice(free-DeMorgan-lattice(T;eq))))
6. x : T@i
⊢ {{inr x }} ∈ Point(opposite-lattice(free-DeMorgan-lattice(T;eq)))

2
1. T : Type
2. eq : EqDecider(T)
3. Point(free-DeMorgan-lattice(T;eq)) ~ Point(opposite-lattice(free-DeMorgan-lattice(T;eq)))
4. deq-fset(deq-fset(union-deq(T;T;eq;eq))) ∈ EqDecider(Point(opposite-lattice(free-DeMorgan-lattice(T;eq))))
5. ∀[f:(T + T) ⟶ Point(opposite-lattice(free-DeMorgan-lattice(T;eq)))]
     (λac.lattice-extend(opposite-lattice(free-DeMorgan-lattice(T;eq));union-deq(T;T;eq;eq);
                         deq-fset(deq-fset(union-deq(T;T;eq;eq)));f;ac)
      ∈ Hom(free-dist-lattice(T + T; union-deq(T;T;eq;eq));opposite-lattice(free-DeMorgan-lattice(T;eq))))
6. y : T@i
⊢ {{inl y}} ∈ Point(opposite-lattice(free-DeMorgan-lattice(T;eq)))

Latex:

Latex:
No Annotations \mforall{}[T:Type]. \mforall{}[eq:EqDecider(T)]. (\mlambda{}x.\mneg{}(x) \mmember{} Hom(free-DeMorgan-lattice(T;eq);opposite-lattice(free-DeMorgan-lattice(T;eq)))) By Latex: (Auto THEN Unfold `dm-neg` 0 THEN (Assert Point(free-DeMorgan-lattice(T;eq)) \msim{} Point(opposite-lattice(free-DeMorgan-lattice(T;eq))) BY (RW (SubC (SymbCompC [`free-DeMorgan-lattice`] 30)) 0 THEN Auto)) THEN (Assert deq-fset(deq-fset(union-deq(T;T;eq;eq))) \mmember{} EqDecider(Point(opposite-lattice(free-DeMorgan-lattice(T;eq)))) BY (RevHypSubst 3 0 THEN Unfold `free-DeMorgan-lattice` 0 THEN RWO "free-dl-point" 0 THEN Auto)) THEN (InstLemma `lattice-extend-is-hom` [\mkleeneopen{}T + T\mkleeneclose{};\mkleeneopen{}union-deq(T;T;eq;eq)\mkleeneclose{}; \mkleeneopen{}opposite-lattice(free-DeMorgan-lattice(T;eq))\mkleeneclose{};\mkleeneopen{}deq-fset(deq-fset(union-deq(T;T;eq;eq)))\mkleeneclose{}]\mcdot{} THENA Auto ) THEN BHyp -1 THEN Auto) Home Index