let N be complete Lawson meet-continuous TopLattice; ( N is continuous iff for x being Element of N holds x = "\/" ( { (inf V) where V is Subset of N : ( x in V & V in lambda N ) } ,N) )
set S = the complete Scott TopAugmentation of N;
A1:
RelStr(# the carrier of the complete Scott TopAugmentation of N, the InternalRel of the complete Scott TopAugmentation of N #) = RelStr(# the carrier of N, the InternalRel of N #)
by YELLOW_9:def 4;
hereby ( ( for x being Element of N holds x = "\/" ( { (inf V) where V is Subset of N : ( x in V & V in lambda N ) } ,N) ) implies N is continuous )
assume A2:
N is
continuous
;
for x being Element of N holds x = "\/" ( { (inf V) where V is Subset of N : ( x in V & V in lambda N ) } ,N)then A3:
for
x being
Element of the
complete Scott TopAugmentation of
N ex
J being
Basis of
x st
for
Y being
Subset of the
complete Scott TopAugmentation of
N st
Y in J holds
(
Y is
open &
Y is
filtered )
by WAYBEL14:35;
let x be
Element of
N;
x = "\/" ( { (inf V) where V is Subset of N : ( x in V & V in lambda N ) } ,N)
InclPoset (sigma the complete Scott TopAugmentation of N) is
continuous
by A2, WAYBEL14:36;
hence x =
"\/" (
{ (inf X) where X is Subset of the complete Scott TopAugmentation of N : ( x in X & X in sigma the complete Scott TopAugmentation of N ) } , the
complete Scott TopAugmentation of
N)
by A3, A1, WAYBEL14:37
.=
"\/" (
{ (inf X) where X is Subset of the complete Scott TopAugmentation of N : ( x in X & X in sigma the complete Scott TopAugmentation of N ) } ,
N)
by A1, YELLOW_0:17, YELLOW_0:26
.=
"\/" (
{ (inf V) where V is Subset of N : ( x in V & V in lambda N ) } ,
N)
by Th34
;
verum
end;
assume A4:
for x being Element of N holds x = "\/" ( { (inf V) where V is Subset of N : ( x in V & V in lambda N ) } ,N)
; N is continuous
then
the complete Scott TopAugmentation of N is continuous
by WAYBEL14:38;
hence
N is continuous
by A1, YELLOW12:15; verum