let S be Hausdorff compact TopLattice; for c being Point of S
for N being net of S st ( for x being Element of S holds x "/\" is continuous ) & N is eventually-filtered & c is_a_cluster_point_of N holds
c = inf N
let c be Point of S; for N being net of S st ( for x being Element of S holds x "/\" is continuous ) & N is eventually-filtered & c is_a_cluster_point_of N holds
c = inf N
let N be net of S; ( ( for x being Element of S holds x "/\" is continuous ) & N is eventually-filtered & c is_a_cluster_point_of N implies c = inf N )
assume A1:
( ( for x being Element of S holds x "/\" is continuous ) & N is eventually-filtered & c is_a_cluster_point_of N )
; c = inf N
reconsider c9 = c as Element of S ;
( c9 is_<=_than rng the mapping of N & ( for b being Element of S st rng the mapping of N is_>=_than b holds
c9 >= b ) )
by A1, Lm7, Lm8;
hence c =
inf (rng the mapping of N)
by YELLOW_0:31
.=
inf N
by YELLOW_2:def 6
;
verum