let i1 be Instruction-Location of SCM+FSA ; :: thesis: for k being natural number
for a being Int-Location holds IncAddr (a >0_goto i1),k = a >0_goto (il. SCM+FSA ,((locnum i1) + k))
let k be natural number ; :: thesis: for a being Int-Location holds IncAddr (a >0_goto i1),k = a >0_goto (il. SCM+FSA ,((locnum i1) + k))
let a be Int-Location ; :: thesis: IncAddr (a >0_goto i1),k = a >0_goto (il. SCM+FSA ,((locnum i1) + k))
A1: InsCode (IncAddr (a >0_goto i1),k) = InsCode (a >0_goto i1) by AMISTD_2:def 14
.= 8 by SCMFSA_2:49
.= InsCode (a >0_goto (il. SCM+FSA ,((locnum i1) + k))) by SCMFSA_2:49 ;
A2: dom (AddressPart (IncAddr (a >0_goto i1),k)) = dom (AddressPart (a >0_goto i1)) by AMISTD_2:def 14;
A3: dom (AddressPart (a >0_goto (il. SCM+FSA ,((locnum i1) + k)))) = dom <*(il. SCM+FSA ,((locnum i1) + k)),a*> by Th25
.= Seg 2 by FINSEQ_3:29
.= dom <*i1,a*> by FINSEQ_3:29
.= dom (AddressPart (a >0_goto i1)) by Th25 ;
for x being set st x in dom (AddressPart (a >0_goto i1)) holds
(AddressPart (IncAddr (a >0_goto i1),k)) . x = (AddressPart (a >0_goto (il. SCM+FSA ,((locnum i1) + k)))) . x then AddressPart (IncAddr (a >0_goto i1),k) = AddressPart (a >0_goto (il. SCM+FSA ,((locnum i1) + k))) by A2, A3, FUNCT_1:9;
hence IncAddr (a >0_goto i1),k = a >0_goto (il. SCM+FSA ,((locnum i1) + k)) by A1, AMISTD_2:16; :: thesis: verum