Step * 1 1 1 1 2 1 1 1 of Lemma lattice-meet-fset-join-distrib


1. BoundedDistributiveLattice
2. eq EqDecider(Point(l))
3. ∀[a,b,c:Point(l)].  (a ∧ b ∨ a ∧ b ∨ a ∧ c ∈ Point(l))
4. Point(l)@i
5. Point(l) List@i
6. ∀bs:Point(l) List. (\/(v) ∧ \/(bs) \/(f-union(eq;eq;v;a.λb.a ∧ b"(bs))) ∈ Point(l))
7. bs Point(l) List@i
8. \/(v) ∧ \/(bs) \/(f-union(eq;eq;v;a.λb.a ∧ b"(bs))) ∈ Point(l)
⊢ u ∧ \/(bs) ∨ \/(f-union(eq;eq;v;a.λb.a ∧ b"(bs))) \/(f-union(eq;eq;[u v];a.λb.a ∧ b"(bs))) ∈ Point(l)
BY
(Subst' f-union(eq;eq;[u v];a.λb.a ∧ b"(bs)) = λb.u ∧ b"(bs) ⋃ f-union(eq;eq;v;a.λb.a ∧ b"(bs)) ∈ fset(Point(l)) 0
   THENA Auto
   }

1
.....equality..... 
1. BoundedDistributiveLattice
2. eq EqDecider(Point(l))
3. ∀[a,b,c:Point(l)].  (a ∧ b ∨ a ∧ b ∨ a ∧ c ∈ Point(l))
4. Point(l)@i
5. Point(l) List@i
6. ∀bs:Point(l) List. (\/(v) ∧ \/(bs) \/(f-union(eq;eq;v;a.λb.a ∧ b"(bs))) ∈ Point(l))
7. bs Point(l) List@i
8. \/(v) ∧ \/(bs) \/(f-union(eq;eq;v;a.λb.a ∧ b"(bs))) ∈ Point(l)
⊢ f-union(eq;eq;[u v];a.λb.a ∧ b"(bs)) = λb.u ∧ b"(bs) ⋃ f-union(eq;eq;v;a.λb.a ∧ b"(bs)) ∈ fset(Point(l))

2
1. BoundedDistributiveLattice
2. eq EqDecider(Point(l))
3. ∀[a,b,c:Point(l)].  (a ∧ b ∨ a ∧ b ∨ a ∧ c ∈ Point(l))
4. Point(l)@i
5. Point(l) List@i
6. ∀bs:Point(l) List. (\/(v) ∧ \/(bs) \/(f-union(eq;eq;v;a.λb.a ∧ b"(bs))) ∈ Point(l))
7. bs Point(l) List@i
8. \/(v) ∧ \/(bs) \/(f-union(eq;eq;v;a.λb.a ∧ b"(bs))) ∈ Point(l)
⊢ u ∧ \/(bs) ∨ \/(f-union(eq;eq;v;a.λb.a ∧ b"(bs))) \/(λb.u ∧ b"(bs) ⋃ f-union(eq;eq;v;a.λb.a ∧ b"(bs))) ∈ Point(l)


Latex:


Latex:

1.  l  :  BoundedDistributiveLattice
2.  eq  :  EqDecider(Point(l))
3.  \mforall{}[a,b,c:Point(l)].    (a  \mwedge{}  b  \mvee{}  c  =  a  \mwedge{}  b  \mvee{}  a  \mwedge{}  c)
4.  u  :  Point(l)@i
5.  v  :  Point(l)  List@i
6.  \mforall{}bs:Point(l)  List.  (\mbackslash{}/(v)  \mwedge{}  \mbackslash{}/(bs)  =  \mbackslash{}/(f-union(eq;eq;v;a.\mlambda{}b.a  \mwedge{}  b"(bs))))
7.  bs  :  Point(l)  List@i
8.  \mbackslash{}/(v)  \mwedge{}  \mbackslash{}/(bs)  =  \mbackslash{}/(f-union(eq;eq;v;a.\mlambda{}b.a  \mwedge{}  b"(bs)))
\mvdash{}  u  \mwedge{}  \mbackslash{}/(bs)  \mvee{}  \mbackslash{}/(f-union(eq;eq;v;a.\mlambda{}b.a  \mwedge{}  b"(bs)))  =  \mbackslash{}/(f-union(eq;eq;[u  /  v];a.\mlambda{}b.a  \mwedge{}  b"(bs)))


By


Latex:
(Subst'  f-union(eq;eq;[u  /  v];a.\mlambda{}b.a  \mwedge{}  b"(bs))  =  \mlambda{}b.u  \mwedge{}  b"(bs)  \mcup{}  f-union(eq;eq;v;a.\mlambda{}b.a  \mwedge{}  b"(bs))  0
  THENA  Auto
  )




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