Proof of Nuprl Lemma : fdl-hom

Step * 2 of Lemma fdl-hom_wf

1. X : Type
2. L : BoundedDistributiveLattice
3. f : X ⟶ Point(L)
4. ((fdl-hom(L;f) 0) = 0 ∈ Point(L)) ∧ ((fdl-hom(L;f) 1) = 1 ∈ Point(L))
⊢ fdl-hom(L;f) ∈ Hom(free-dl(X);L)
BY

{ Assert ⌜∀as,bs:X List List.  (fdl-hom(L;f) as ∨ fdl-hom(L;f) bs = (fdl-hom(L;f) as ∨ bs) ∈ Point(L))⌝⋅ }

1
.....assertion.....
1. X : Type
2. L : BoundedDistributiveLattice
3. f : X ⟶ Point(L)
4. ((fdl-hom(L;f) 0) = 0 ∈ Point(L)) ∧ ((fdl-hom(L;f) 1) = 1 ∈ Point(L))
⊢ ∀as,bs:X List List. (fdl-hom(L;f) as ∨ fdl-hom(L;f) bs = (fdl-hom(L;f) as ∨ bs) ∈ Point(L))

2
1. X : Type
2. L : BoundedDistributiveLattice
3. f : X ⟶ Point(L)
4. ((fdl-hom(L;f) 0) = 0 ∈ Point(L)) ∧ ((fdl-hom(L;f) 1) = 1 ∈ Point(L))
5. ∀as,bs:X List List. (fdl-hom(L;f) as ∨ fdl-hom(L;f) bs = (fdl-hom(L;f) as ∨ bs) ∈ Point(L))
⊢ fdl-hom(L;f) ∈ Hom(free-dl(X);L)

Latex:

Latex:
1. X : Type 2. L : BoundedDistributiveLattice 3. f : X {}\mrightarrow{} Point(L) 4. ((fdl-hom(L;f) 0) = 0) \mwedge{} ((fdl-hom(L;f) 1) = 1) \mvdash{} fdl-hom(L;f) \mmember{} Hom(free-dl(X);L) By Latex: Assert \mkleeneopen{}\mforall{}as,bs:X List List. (fdl-hom(L;f) as \mvee{} fdl-hom(L;f) bs = (fdl-hom(L;f) as \mvee{} bs))\mkleeneclose{}\mcdot{} Home Index