let k be Element of NAT ; :: thesis: for p being autonomic FinPartState of SCM st IC SCM in dom p holds
for s being State of SCM st p c= s holds
for i being Element of NAT holds Comput (ProgramPart (s +* (Relocated p,k))),(s +* (Relocated p,k)),i = ((Comput (ProgramPart s),s,i) +* (Start-At ((IC (Comput (ProgramPart s),s,i)) + k),SCM )) +* (ProgramPart (Relocated p,k))
let p be autonomic FinPartState of SCM ; :: thesis: ( IC SCM in dom p implies for s being State of SCM st p c= s holds
for i being Element of NAT holds Comput (ProgramPart (s +* (Relocated p,k))),(s +* (Relocated p,k)),i = ((Comput (ProgramPart s),s,i) +* (Start-At ((IC (Comput (ProgramPart s),s,i)) + k),SCM )) +* (ProgramPart (Relocated p,k)) )
assume A1: IC SCM in dom p ; :: thesis: for s being State of SCM st p c= s holds
for i being Element of NAT holds Comput (ProgramPart (s +* (Relocated p,k))),(s +* (Relocated p,k)),i = ((Comput (ProgramPart s),s,i) +* (Start-At ((IC (Comput (ProgramPart s),s,i)) + k),SCM )) +* (ProgramPart (Relocated p,k))
dom (DataPart p) misses {(IC SCM )} by AMI_1:100, ZFMISC_1:56;
then (dom (DataPart p)) /\ {(IC SCM )} = {} by XBOOLE_0:def 7;
then A2: (dom (DataPart p)) /\ (dom (Start-At ((IC p) + k),SCM )) = {} by FUNCOP_1:19;
NAT misses dom (DataPart p) by AMI_2:29, AMI_3:72, RELAT_1:87, XBOOLE_1:63;
then dom (DataPart p) misses dom (ProgramPart (Relocated p,k)) by RELAT_1:87, XBOOLE_1:63;
then ((dom (DataPart p)) /\ (dom (Start-At ((IC p) + k),SCM ))) \/ ((dom (DataPart p)) /\ (dom (ProgramPart (Relocated p,k)))) = {} by A2, XBOOLE_0:def 7;
then (dom (DataPart p)) /\ ((dom (Start-At ((IC p) + k),SCM )) \/ (dom (ProgramPart (Relocated p,k)))) = {} by XBOOLE_1:23;
then (dom (DataPart p)) /\ (dom ((Start-At ((IC p) + k),SCM ) +* (ProgramPart (Relocated p,k)))) = {} by FUNCT_4:def 1;
then dom (DataPart p) misses dom ((Start-At ((IC p) + k),SCM ) +* (ProgramPart (Relocated p,k))) by XBOOLE_0:def 7;
then A3: ((Start-At ((IC p) + k),SCM ) +* (ProgramPart (Relocated p,k))) +* (DataPart p) = (DataPart p) +* ((Start-At ((IC p) + k),SCM ) +* (ProgramPart (Relocated p,k))) by FUNCT_4:36;
let s be State of SCM ; :: thesis: ( p c= s implies for i being Element of NAT holds Comput (ProgramPart (s +* (Relocated p,k))),(s +* (Relocated p,k)),i = ((Comput (ProgramPart s),s,i) +* (Start-At ((IC (Comput (ProgramPart s),s,i)) + k),SCM )) +* (ProgramPart (Relocated p,k)) )
assume A4: p c= s ; :: thesis: for i being Element of NAT holds Comput (ProgramPart (s +* (Relocated p,k))),(s +* (Relocated p,k)),i = ((Comput (ProgramPart s),s,i) +* (Start-At ((IC (Comput (ProgramPart s),s,i)) + k),SCM )) +* (ProgramPart (Relocated p,k))
defpred S1[ Element of NAT ] means Comput (ProgramPart (s +* (Relocated p,k))),(s +* (Relocated p,k)),$1 = ((Comput (ProgramPart s),s,$1) +* (Start-At ((IC (Comput (ProgramPart s),s,$1)) + k),SCM )) +* (ProgramPart (Relocated p,k));
A5: for i being Element of NAT st S1[i] holds
S1[i + 1]
proof
let i be Element of NAT ; :: thesis: ( S1[i] implies S1[i + 1] )
assume A6: Comput (ProgramPart (s +* (Relocated p,k))),(s +* (Relocated p,k)),i = ((Comput (ProgramPart s),s,i) +* (Start-At ((IC (Comput (ProgramPart s),s,i)) + k),SCM )) +* (ProgramPart (Relocated p,k)) ; :: thesis: S1[i + 1]
reconsider kk = IC (Comput (ProgramPart s),s,i) as Element of NAT ;
dom (Start-At ((IC (Comput (ProgramPart s),s,i)) + k),SCM ) = {(IC SCM )} by FUNCOP_1:19;
then A7: IC SCM in dom (Start-At ((IC (Comput (ProgramPart s),s,i)) + k),SCM ) by TARSKI:def 1;
not IC SCM in dom (ProgramPart (Relocated p,k)) by AMI_1:101;
then A8: IC (((Comput (ProgramPart s),s,i) +* (Start-At ((IC (Comput (ProgramPart s),s,i)) + k),SCM )) +* (ProgramPart (Relocated p,k))) = ((Comput (ProgramPart s),s,i) +* (Start-At ((IC (Comput (ProgramPart s),s,i)) + k),SCM )) . (IC SCM ) by FUNCT_4:12
.= (Start-At ((IC (Comput (ProgramPart s),s,i)) + k),SCM ) . (IC SCM ) by A7, FUNCT_4:14
.= (IC (Comput (ProgramPart s),s,i)) + k by FUNCOP_1:87 ;
A9: ProgramPart p c= Comput (ProgramPart s),s,i by A4, AMI_1:99;
not p is NAT -defined by A1, AMI_1:109;
then A10: IC (Comput (ProgramPart s),s,i) in dom (ProgramPart p) by A4, AMI_5:86;
then A11: IC (Comput (ProgramPart s),s,i) in dom (IncAddr (ProgramPart p),k) by Def5;
Y: (ProgramPart (Comput (ProgramPart (s +* (Relocated p,k))),(s +* (Relocated p,k)),i)) /. (IC (Comput (ProgramPart (s +* (Relocated p,k))),(s +* (Relocated p,k)),i)) = (Comput (ProgramPart (s +* (Relocated p,k))),(s +* (Relocated p,k)),i) . (IC (Comput (ProgramPart (s +* (Relocated p,k))),(s +* (Relocated p,k)),i)) by AMI_1:150;
Z: (ProgramPart (Comput (ProgramPart s),s,i)) /. (IC (Comput (ProgramPart s),s,i)) = (Comput (ProgramPart s),s,i) . (IC (Comput (ProgramPart s),s,i)) by AMI_1:150;
A12: (ProgramPart p) /. kk = (ProgramPart p) . (IC (Comput (ProgramPart s),s,i)) by A10, PARTFUN1:def 8
.= (Comput (ProgramPart s),s,i) . (IC (Comput (ProgramPart s),s,i)) by A10, A9, GRFUNC_1:8 ;
reconsider kk = IC (Comput (ProgramPart s),s,i) as Element of NAT ;
ProgramPart p c= p by RELAT_1:88;
then dom (ProgramPart p) c= dom p by GRFUNC_1:8;
then (IC (Comput (ProgramPart s),s,i)) + k in dom (Relocated p,k) by A10, Th24;
then (IC (Comput (ProgramPart s),s,i)) + k in dom (ProgramPart (Relocated p,k)) by AMI_1:106;
then A13: CurInstr (ProgramPart (Comput (ProgramPart (s +* (Relocated p,k))),(s +* (Relocated p,k)),i)),(Comput (ProgramPart (s +* (Relocated p,k))),(s +* (Relocated p,k)),i) = (ProgramPart (Relocated p,k)) . ((IC (Comput (ProgramPart s),s,i)) + k) by A6, A8, FUNCT_4:14, Y
.= (IncAddr (Shift (ProgramPart p),k),k) . ((IC (Comput (ProgramPart s),s,i)) + k) by Th22
.= (Shift (IncAddr (ProgramPart p),k),k) . ((IC (Comput (ProgramPart s),s,i)) + k) by Th19
.= (IncAddr (ProgramPart p),k) . kk by A11, VALUED_1:def 12
.= IncAddr (CurInstr (ProgramPart (Comput (ProgramPart s),s,i)),(Comput (ProgramPart s),s,i)),k by A10, A12, Def5, Z ;
T: ProgramPart s = ProgramPart (Comput (ProgramPart s),s,i) by AMI_1:144;
A14: ( Comput (ProgramPart s),s,(i + 1) = Following (ProgramPart s),(Comput (ProgramPart s),s,i) & Exec (IncAddr (CurInstr (ProgramPart (Comput (ProgramPart s),s,i)),(Comput (ProgramPart s),s,i)),k),((Comput (ProgramPart s),s,i) +* (Start-At ((IC (Comput (ProgramPart s),s,i)) + k),SCM )) = (Following (ProgramPart (Comput (ProgramPart s),s,i)),(Comput (ProgramPart s),s,i)) +* (Start-At ((IC (Following (ProgramPart (Comput (ProgramPart s),s,i)),(Comput (ProgramPart s),s,i))) + k),SCM ) ) by Th31, AMI_1:14;
S: ProgramPart (s +* (Relocated p,k)) = ProgramPart (Comput (ProgramPart (s +* (Relocated p,k))),(s +* (Relocated p,k)),i) by AMI_1:144;
thus Comput (ProgramPart (s +* (Relocated p,k))),(s +* (Relocated p,k)),(i + 1) = Following (ProgramPart (s +* (Relocated p,k))),(Comput (ProgramPart (s +* (Relocated p,k))),(s +* (Relocated p,k)),i) by AMI_1:14
.= ((Comput (ProgramPart s),s,(i + 1)) +* (Start-At ((IC (Comput (ProgramPart s),s,(i + 1))) + k),SCM )) +* (ProgramPart (Relocated p,k)) by A6, A13, A14, AMI_5:77, S, T
.= ((Comput (ProgramPart s),s,(i + 1)) +* (Start-At ((IC (Comput (ProgramPart s),s,(i + 1))) + k),SCM )) +* (ProgramPart (Relocated p,k)) ; :: thesis: verum
end;
A15: Comput (ProgramPart s),s,0 = s by AMI_1:13;
A16: IC p = p . (IC SCM )
.= IC s by A1, A4, GRFUNC_1:8 ;
DataPart p c= p by RELAT_1:88;
then A17: DataPart p c= s by A4, XBOOLE_1:1;
Comput (ProgramPart (s +* (Relocated p,k))),(s +* (Relocated p,k)),0 = s +* (((Start-At ((IC p) + k),SCM ) +* (IncAddr (Shift (ProgramPart p),k),k)) +* (DataPart p)) by AMI_1:13
.= s +* (((Start-At ((IC p) + k),SCM ) +* (ProgramPart (Relocated p,k))) +* (DataPart p)) by Th22
.= (s +* (DataPart p)) +* ((Start-At ((IC p) + k),SCM ) +* (ProgramPart (Relocated p,k))) by A3, FUNCT_4:15
.= ((s +* (DataPart p)) +* (Start-At ((IC p) + k),SCM )) +* (ProgramPart (Relocated p,k)) by FUNCT_4:15
.= ((Comput (ProgramPart s),s,0 ) +* (Start-At ((IC (Comput (ProgramPart s),s,0 )) + k),SCM )) +* (ProgramPart (Relocated p,k)) by A16, A17, A15, FUNCT_4:79 ;
then A18: S1[ 0 ] ;
thus for i being Element of NAT holds S1[i] from NAT_1:sch 1(A18, A5); :: thesis: verum