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

Step * of Lemma dm-neg-is-hom-opposite

No Annotations
∀[T:Type]. ∀[eq:EqDecider(T)].
(λx.¬(x) ∈ Hom(opposite-lattice(free-DeMorgan-lattice(T;eq));free-DeMorgan-lattice(T;eq)))
BY
{ (Auto THEN MemTypeCD) }

1
1. T : Type
2. eq : EqDecider(T)
⊢ λx.¬(x) ∈ Hom(opposite-lattice(free-DeMorgan-lattice(T;eq));free-DeMorgan-lattice(T;eq))

2
.....set predicate.....
1. T : Type
2. eq : EqDecider(T)

⊢ (((λx.¬(x)) 0) = 0 ∈ Point(free-DeMorgan-lattice(T;eq))) ∧ (((λx.¬(x)) 1) = 1 ∈ Point(free-DeMorgan-lattice(T;eq)))

3
.....wf.....
1. T : Type
2. eq : EqDecider(T)
3. f : Hom(opposite-lattice(free-DeMorgan-lattice(T;eq));free-DeMorgan-lattice(T;eq))

⊢ ((f 0) = 0 ∈ Point(free-DeMorgan-lattice(T;eq))) ∧ ((f 1) = 1 ∈ Point(free-DeMorgan-lattice(T;eq))) ∈ Type

Latex:

Latex:
No Annotations \mforall{}[T:Type]. \mforall{}[eq:EqDecider(T)]. (\mlambda{}x.\mneg{}(x) \mmember{} Hom(opposite-lattice(free-DeMorgan-lattice(T;eq));free-DeMorgan-lattice(T;eq))) By Latex: (Auto THEN MemTypeCD) Home Index