let Y be non empty set ; :: thesis: for a being Element of Funcs (Y,BOOLEAN)
for PA being a_partition of Y holds a '<' B_SUP (a,PA)
let a be Element of Funcs (Y,BOOLEAN); :: thesis: for PA being a_partition of Y holds a '<' B_SUP (a,PA)
let PA be a_partition of Y; :: thesis: a '<' B_SUP (a,PA)
consider k3 being Function such that
A1: a 'imp' (B_SUP (a,PA)) = k3 and
A2: dom k3 = Y and
rng k3 c= BOOLEAN by FUNCT_2:def 2;
consider k4 being Function such that
A3: I_el Y = k4 and
A4: dom k4 = Y and
rng k4 c= BOOLEAN by FUNCT_2:def 2;
for y being Element of Y holds (a 'imp' (B_SUP (a,PA))) . y = (I_el Y) . y
proof
let y be Element of Y; :: thesis: (a 'imp' (B_SUP (a,PA))) . y = (I_el Y) . y
per cases ( ex x being Element of Y st
( x in EqClass (y,PA) & a . x = TRUE ) or for x being Element of Y holds
( not x in EqClass (y,PA) or not a . x = TRUE ) ) ;
suppose ex x being Element of Y st
( x in EqClass (y,PA) & a . x = TRUE ) ; :: thesis: (a 'imp' (B_SUP (a,PA))) . y = (I_el Y) . y
then (B_SUP (a,PA)) . y = TRUE by Def20;
then (B_SUP (a,PA)) . y = (I_el Y) . y by Def14;
then ('not' (a . y)) 'or' ((B_SUP (a,PA)) . y) = (('not' a) . y) 'or' ((I_el Y) . y) by MARGREL1:def 19
.= (('not' a) 'or' (I_el Y)) . y by Def7
.= (I_el Y) . y by Th13 ;
hence (a 'imp' (B_SUP (a,PA))) . y = (I_el Y) . y by Def11; :: thesis: verum
end;
suppose A5: for x being Element of Y holds
( not x in EqClass (y,PA) or not a . x = TRUE ) ; :: thesis: (a 'imp' (B_SUP (a,PA))) . y = (I_el Y) . y
y in EqClass (y,PA) by EQREL_1:def 6;
then a . y <> TRUE by A5;
then a . y = FALSE by XBOOLEAN:def 3;
then ('not' (a . y)) 'or' ((B_SUP (a,PA)) . y) = ((I_el Y) . y) 'or' ((B_SUP (a,PA)) . y) by Def14
.= ((I_el Y) 'or' (B_SUP (a,PA))) . y by Def7
.= (I_el Y) . y by Th13 ;
hence (a 'imp' (B_SUP (a,PA))) . y = (I_el Y) . y by Def11; :: thesis: verum
end;
end;
end;
then for u being set st u in Y holds
k3 . u = k4 . u by A1, A3;
then a 'imp' (B_SUP (a,PA)) = I_el Y by A1, A2, A3, A4, FUNCT_1:2;
hence a '<' B_SUP (a,PA) by Th19; :: thesis: verum