let a, b be Data-Location ; :: thesis: (product" (AddressParts (InsCode (AddTo a,b)))) . 2 = SCM-Data-Loc
A1:
InsCode (AddTo a,b) = 2
by MCART_1:7;
dom (product" (AddressParts (InsCode (AddTo a,b)))) = {1,2}
by Th18, MCART_1:7;
then A2:
2 in dom (product" (AddressParts (InsCode (AddTo a,b))))
by TARSKI:def 2;
hereby :: according to TARSKI:def 3,
XBOOLE_0:def 10 :: thesis: SCM-Data-Loc c= (product" (AddressParts (InsCode (AddTo a,b)))) . 2
let x be
set ;
:: thesis: ( x in (product" (AddressParts (InsCode (AddTo a,b)))) . 2 implies x in SCM-Data-Loc )assume
x in (product" (AddressParts (InsCode (AddTo a,b)))) . 2
;
:: thesis: x in SCM-Data-Loc then
x in pi (AddressParts (InsCode (AddTo a,b))),2
by A2, CARD_3:def 13;
then consider f being
Function such that A3:
f in AddressParts (InsCode (AddTo a,b))
and A4:
f . 2
= x
by CARD_3:def 6;
consider I being
Instruction of
SCM such that A5:
f = AddressPart I
and A6:
InsCode I = InsCode (AddTo a,b)
by A3;
consider d1,
d2 being
Data-Location such that A7:
I = AddTo d1,
d2
by A6, AMI_5:48, MCART_1:7;
x =
<*d1,d2*> . 2
by A4, A5, A7, MCART_1:def 2
.=
d2
by FINSEQ_1:61
;
hence
x in SCM-Data-Loc
by AMI_3:def 2;
:: thesis: verum
end;
let x be set ; :: according to TARSKI:def 3 :: thesis: ( not x in SCM-Data-Loc or x in (product" (AddressParts (InsCode (AddTo a,b)))) . 2 )
assume
x in SCM-Data-Loc
; :: thesis: x in (product" (AddressParts (InsCode (AddTo a,b)))) . 2
then reconsider x = x as Data-Location by AMI_3:def 2;
InsCode (AddTo a,x) = 2
by MCART_1:7;
then
AddressPart (AddTo a,x) in AddressParts (InsCode (AddTo a,b))
by A1;
then A8:
(AddressPart (AddTo a,x)) . 2 in pi (AddressParts (InsCode (AddTo a,b))),2
by CARD_3:def 6;
(AddressPart (AddTo a,x)) . 2 =
<*a,x*> . 2
by MCART_1:def 2
.=
x
by FINSEQ_1:61
;
hence
x in (product" (AddressParts (InsCode (AddTo a,b)))) . 2
by A2, A8, CARD_3:def 13; :: thesis: verum