let p be FinPartState of SCM ; for k, loc being Element of NAT
for I being Instruction of SCM st loc in dom (ProgramPart p) & I = p . loc holds
IncAddr I,k = (Relocated p,k) . (loc + k)
let k, loc be Element of NAT ; for I being Instruction of SCM st loc in dom (ProgramPart p) & I = p . loc holds
IncAddr I,k = (Relocated p,k) . (loc + k)
let I be Instruction of SCM ; ( loc in dom (ProgramPart p) & I = p . loc implies IncAddr I,k = (Relocated p,k) . (loc + k) )
assume that
A1:
loc in dom (ProgramPart p)
and
A2:
I = p . loc
; IncAddr I,k = (Relocated p,k) . (loc + k)
A3:
loc in dom (IncAddr (ProgramPart p),k)
by A1, Def5;
reconsider i = loc as Element of NAT ;
i + k in { (j + k) where j is Element of NAT : j in dom (ProgramPart p) }
by A1;
then A4:
loc + k in dom (ProgramPart (Relocated p,k))
by Th23;
ProgramPart p c= p
by RELAT_1:88;
then A5:
I = (ProgramPart p) . loc
by A1, A2, GRFUNC_1:8;
ProgramPart (Relocated p,k) c= Relocated p,k
by RELAT_1:88;
then (Relocated p,k) . (loc + k) =
(ProgramPart (Relocated p,k)) . (loc + k)
by A4, GRFUNC_1:8
.=
(IncAddr (Shift (ProgramPart p),k),k) . (loc + k)
by Th22
.=
(Shift (IncAddr (ProgramPart p),k),k) . (loc + k)
by Th19
.=
(IncAddr (ProgramPart p),k) . loc
by A3, VALUED_1:def 12
.=
IncAddr ((ProgramPart p) /. loc),k
by A1, Def5
.=
IncAddr I,k
by A1, A5, PARTFUN1:def 8
;
hence
IncAddr I,k = (Relocated p,k) . (loc + k)
; verum