let a be Data-Location ; for k being natural number holds JUMP (a >0_goto k) = {k}
let k be natural number ; JUMP (a >0_goto k) = {k}
set X = { (NIC (a >0_goto k),il) where il is Element of NAT : verum } ;
now let x be
set ;
( ( x in meet { (NIC (a >0_goto k),il) where il is Element of NAT : verum } implies x in {k} ) & ( x in {k} implies x in meet { (NIC (a >0_goto k),il) where il is Element of NAT : verum } ) )hereby ( x in {k} implies x in meet { (NIC (a >0_goto k),il) where il is Element of NAT : verum } )
set il1 = 1;
set il2 = 2;
assume A3:
x in meet { (NIC (a >0_goto k),il) where il is Element of NAT : verum }
;
x in {k}A4:
NIC (a >0_goto k),2
= {k,(succ 2)}
by Th50;
NIC (a >0_goto k),2
in { (NIC (a >0_goto k),il) where il is Element of NAT : verum }
;
then
x in NIC (a >0_goto k),2
by A3, SETFAM_1:def 1;
then A5:
(
x = k or
x = succ 2 )
by A4, TARSKI:def 2;
A6:
NIC (a >0_goto k),1
= {k,(succ 1)}
by Th50;
NIC (a >0_goto k),1
in { (NIC (a >0_goto k),il) where il is Element of NAT : verum }
;
then
x in NIC (a >0_goto k),1
by A3, SETFAM_1:def 1;
then
(
x = k or
x = succ 1 )
by A6, TARSKI:def 2;
hence
x in {k}
by A5, TARSKI:def 1;
verum
end; assume
x in {k}
;
x in meet { (NIC (a >0_goto k),il) where il is Element of NAT : verum } then A7:
x = k
by TARSKI:def 1;
reconsider k =
k as
Element of
NAT by ORDINAL1:def 13;
NIC (a >0_goto k),
k in { (NIC (a >0_goto k),il) where il is Element of NAT : verum }
;
hence
x in meet { (NIC (a >0_goto k),il) where il is Element of NAT : verum }
by A7, A1, SETFAM_1:def 1;
verum end;
hence
JUMP (a >0_goto k) = {k}
by TARSKI:2; verum