let W be with_non-empty_element set ; :: thesis: for a, b being object of (W -CL-opp_category )
for f being set holds
( f in <^a,b^> iff ex g being sups-preserving Function of (latt a),(latt b) st
( g = f & UpperAdj g is directed-sups-preserving ) )
let a, b be object of (W -CL-opp_category ); :: thesis: for f being set holds
( f in <^a,b^> iff ex g being sups-preserving Function of (latt a),(latt b) st
( g = f & UpperAdj g is directed-sups-preserving ) )
let f be set ; :: thesis: ( f in <^a,b^> iff ex g being sups-preserving Function of (latt a),(latt b) st
( g = f & UpperAdj g is directed-sups-preserving ) )
( a in the carrier of (W -CL-opp_category ) & b in the carrier of (W -CL-opp_category ) & the carrier of (W -CL-opp_category ) c= the carrier of (W -SUP(SO)_category ) ) by ALTCAT_2:def 11;
then reconsider a1 = a, b1 = b as object of (W -SUP(SO)_category ) ;
<^a,b^> = <^a1,b1^> by ALTCAT_2:29;
hence ( f in <^a,b^> iff ex g being sups-preserving Function of (latt a),(latt b) st
( g = f & UpperAdj g is directed-sups-preserving ) ) by Th50; :: thesis: verum