let s1, s2 be State of SCM+FSA ; :: thesis: for I being Program of SCM+FSA st I is_closed_on s1 & I +* (Start-At (insloc 0 )) c= s1 holds
for n being Element of NAT st ProgramPart (Relocated I,n) c= s2 & IC s2 = insloc n & DataPart s1 = DataPart s2 holds
for i being Element of NAT holds
( (IC (Computation s1,i)) + n = IC (Computation s2,i) & IncAddr (CurInstr (Computation s1,i)),n = CurInstr (Computation s2,i) & DataPart (Computation s1,i) = DataPart (Computation s2,i) )
let J be Program of SCM+FSA ; :: thesis: ( J is_closed_on s1 & J +* (Start-At (insloc 0 )) c= s1 implies for n being Element of NAT st ProgramPart (Relocated J,n) c= s2 & IC s2 = insloc n & DataPart s1 = DataPart s2 holds
for i being Element of NAT holds
( (IC (Computation s1,i)) + n = IC (Computation s2,i) & IncAddr (CurInstr (Computation s1,i)),n = CurInstr (Computation s2,i) & DataPart (Computation s1,i) = DataPart (Computation s2,i) ) )
set JAt = J +* (Start-At (insloc 0 ));
assume A1:
J is_closed_on s1
; :: thesis: ( not J +* (Start-At (insloc 0 )) c= s1 or for n being Element of NAT st ProgramPart (Relocated J,n) c= s2 & IC s2 = insloc n & DataPart s1 = DataPart s2 holds
for i being Element of NAT holds
( (IC (Computation s1,i)) + n = IC (Computation s2,i) & IncAddr (CurInstr (Computation s1,i)),n = CurInstr (Computation s2,i) & DataPart (Computation s1,i) = DataPart (Computation s2,i) ) )
then A2:
insloc 0 in dom J
by Th39;
dom J misses dom (Start-At (insloc 0 ))
by SF_MASTR:64;
then A3:
J c= J +* (Start-At (insloc 0 ))
by FUNCT_4:33;
then A4:
dom J c= dom (J +* (Start-At (insloc 0 )))
by GRFUNC_1:8;
assume A5:
J +* (Start-At (insloc 0 )) c= s1
; :: thesis: for n being Element of NAT st ProgramPart (Relocated J,n) c= s2 & IC s2 = insloc n & DataPart s1 = DataPart s2 holds
for i being Element of NAT holds
( (IC (Computation s1,i)) + n = IC (Computation s2,i) & IncAddr (CurInstr (Computation s1,i)),n = CurInstr (Computation s2,i) & DataPart (Computation s1,i) = DataPart (Computation s2,i) )
A6:
IC SCM+FSA in dom (J +* (Start-At (insloc 0 )))
by SF_MASTR:65;
then A7: s1 . (IC s1) =
s1 . ((J +* (Start-At (insloc 0 ))) . (IC SCM+FSA ))
by A5, GRFUNC_1:8
.=
s1 . (insloc 0 )
by SF_MASTR:66
.=
(J +* (Start-At (insloc 0 ))) . (insloc 0 )
by A5, A4, A2, GRFUNC_1:8
.=
J . (insloc 0 )
by A3, A2, GRFUNC_1:8
;
A8: IC (Computation s1,0 ) =
s1 . (IC SCM+FSA )
by AMI_1:13
.=
(J +* (Start-At (insloc 0 ))) . (IC SCM+FSA )
by A5, A6, GRFUNC_1:8
.=
insloc 0
by SF_MASTR:66
;
ProgramPart J = J
by AMI_1:105;
then A9:
insloc 0 in dom (ProgramPart J)
by A1, Th39;
let n be Element of NAT ; :: thesis: ( ProgramPart (Relocated J,n) c= s2 & IC s2 = insloc n & DataPart s1 = DataPart s2 implies for i being Element of NAT holds
( (IC (Computation s1,i)) + n = IC (Computation s2,i) & IncAddr (CurInstr (Computation s1,i)),n = CurInstr (Computation s2,i) & DataPart (Computation s1,i) = DataPart (Computation s2,i) ) )
defpred S1[ Element of NAT ] means ( (IC (Computation s1,$1)) + n = IC (Computation s2,$1) & IncAddr (CurInstr (Computation s1,$1)),n = CurInstr (Computation s2,$1) & DataPart (Computation s1,$1) = DataPart (Computation s2,$1) );
assume that
A10:
ProgramPart (Relocated J,n) c= s2
and
A11:
IC s2 = insloc n
and
A12:
DataPart s1 = DataPart s2
; :: thesis: for i being Element of NAT holds
( (IC (Computation s1,i)) + n = IC (Computation s2,i) & IncAddr (CurInstr (Computation s1,i)),n = CurInstr (Computation s2,i) & DataPart (Computation s1,i) = DataPart (Computation s2,i) )
let i be Element of NAT ; :: thesis: ( (IC (Computation s1,i)) + n = IC (Computation s2,i) & IncAddr (CurInstr (Computation s1,i)),n = CurInstr (Computation s2,i) & DataPart (Computation s1,i) = DataPart (Computation s2,i) )
A13: DataPart (Computation s1,0 ) =
DataPart s2
by A12, AMI_1:13
.=
DataPart (Computation s2,0 )
by AMI_1:13
;
A14:
for k being Element of NAT st S1[k] holds
S1[k + 1]
proof
dom J misses dom (Start-At (insloc 0 ))
by SF_MASTR:64;
then A15:
J c= J +* (Start-At (insloc 0 ))
by FUNCT_4:33;
then A16:
dom J c= dom (J +* (Start-At (insloc 0 )))
by GRFUNC_1:8;
let k be
Element of
NAT ;
:: thesis: ( S1[k] implies S1[k + 1] )
A17:
Computation s1,
(k + 1) =
Following (Computation s1,k)
by AMI_1:14
.=
Exec (CurInstr (Computation s1,k)),
(Computation s1,k)
;
reconsider l =
IC (Computation s1,(k + 1)) as
Element of
NAT by ORDINAL1:def 13;
reconsider j =
CurInstr (Computation s1,(k + 1)) as
Instruction of
SCM+FSA ;
A18:
Computation s2,
(k + 1) =
Following (Computation s2,k)
by AMI_1:14
.=
Exec (CurInstr (Computation s2,k)),
(Computation s2,k)
;
A19:
IC (Computation s2,(k + 1)) in NAT
by AMI_1:def 4;
s1 +* (J +* (Start-At (insloc 0 ))) = s1
by A5, FUNCT_4:79;
then A20:
IC (Computation s1,(k + 1)) in dom J
by A1, SCMFSA7B:def 7;
assume A21:
S1[
k]
;
:: thesis: S1[k + 1]
hence A22:
(IC (Computation s1,(k + 1))) + n = IC (Computation s2,(k + 1))
by A17, A18, SCMFSA6A:41;
:: thesis: ( IncAddr (CurInstr (Computation s1,(k + 1))),n = CurInstr (Computation s2,(k + 1)) & DataPart (Computation s1,(k + 1)) = DataPart (Computation s2,(k + 1)) )
then
IC (Computation s2,(k + 1)) in dom (Relocated J,n)
by A20, SCMFSA_5:4;
then
IC (Computation s2,(k + 1)) in (dom (Relocated J,n)) /\ NAT
by A19, XBOOLE_0:def 4;
then A23:
IC (Computation s2,(k + 1)) in dom (ProgramPart (Relocated J,n))
by RELAT_1:90;
dom (ProgramPart J) = (dom J) /\ NAT
by RELAT_1:90;
then A24:
l in dom (ProgramPart J)
by A20, XBOOLE_0:def 4;
j =
s1 . (IC (Computation s1,(k + 1)))
by AMI_1:54
.=
(J +* (Start-At (insloc 0 ))) . (IC (Computation s1,(k + 1)))
by A5, A16, A20, GRFUNC_1:8
.=
J . l
by A15, A20, GRFUNC_1:8
;
hence IncAddr (CurInstr (Computation s1,(k + 1))),
n =
(Relocated J,n) . (l + n)
by A24, SCMFSA_5:7
.=
(ProgramPart (Relocated J,n)) . (IC (Computation s2,(k + 1)))
by A22, FUNCT_1:72
.=
s2 . (IC (Computation s2,(k + 1)))
by A10, A23, GRFUNC_1:8
.=
CurInstr (Computation s2,(k + 1))
by AMI_1:54
;
:: thesis: DataPart (Computation s1,(k + 1)) = DataPart (Computation s2,(k + 1))
thus
DataPart (Computation s1,(k + 1)) = DataPart (Computation s2,(k + 1))
by A21, A17, A18, SCMFSA6A:41;
:: thesis: verum
end;
insloc 0 in dom J
by A1, Th39;
then
(insloc 0 ) + n in dom (Relocated J,n)
by SCMFSA_5:4;
then A25:
insloc (0 + n) in dom (ProgramPart (Relocated J,n))
by AMI_1:106;
IncAddr (CurInstr (Computation s1,0 )),n =
IncAddr (CurInstr s1),n
by AMI_1:13
.=
(Relocated J,n) . (insloc (0 + n))
by A7, A9, SCMFSA_5:7
.=
(ProgramPart (Relocated J,n)) . (insloc n)
by FUNCT_1:72
.=
CurInstr s2
by A10, A11, A25, GRFUNC_1:8
.=
CurInstr (Computation s2,0 )
by AMI_1:13
;
then A26:
S1[ 0 ]
by A11, A8, A13, AMI_1:13;
for k being Element of NAT holds S1[k]
from NAT_1:sch 1(A26, A14);
hence
( (IC (Computation s1,i)) + n = IC (Computation s2,i) & IncAddr (CurInstr (Computation s1,i)),n = CurInstr (Computation s2,i) & DataPart (Computation s1,i) = DataPart (Computation s2,i) )
; :: thesis: verum