let s be State of SCM+FSA ; :: thesis:
let I be keepInt0_1 Program of SCM+FSA ; :: thesis:
assume A1: not ProgramPart (s +* (Initialized I)) halts_on s +* (Initialized I) ; :: thesis:
set s1 = s +* (Initialized I);
let J be Program of SCM+FSA ; :: thesis:
A2: Initialized I c= s +* (Initialized I) by FUNCT_4:26;
set s2 = s +* (Initialized (I ';' J));
defpred S₁[ Nat] means Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),$1, Comput (ProgramPart (s +* (Initialized (I ';' J)))),(s +* (Initialized (I ';' J))),$1 equal_outside NAT ;
A3: Initialized (I ';' J) c= s +* (Initialized (I ';' J)) by FUNCT_4:26;
A4: for m being Element of NAT st S₁[m] holds
S₁[m + 1]

dom (I ';' J) = (dom (Directed I)) \/ (dom (ProgramPart (Relocated J,(card I)))) by FUNCT_4:def 1
.= (dom I) \/ (dom (ProgramPart (Relocated J,(card I)))) by FUNCT_4:105 ;
then A5: dom I c= dom (I ';' J) by XBOOLE_1:7;
set sx = s +* (Initialized (I ';' J));
let m be Element of NAT ; :: thesis:
T: ProgramPart (s +* (Initialized I)) = ProgramPart (Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),m) by AMI_1:123;
A6: Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),(m + 1) = Following (ProgramPart (s +* (Initialized I))),(Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),m) by AMI_1:14
.= Exec (CurInstr (ProgramPart (Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),m)),(Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),m)),(Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),m) by T ;
T: ProgramPart (s +* (Initialized (I ';' J))) = ProgramPart (Comput (ProgramPart (s +* (Initialized (I ';' J)))),(s +* (Initialized (I ';' J))),m) by AMI_1:123;
A7: Comput (ProgramPart (s +* (Initialized (I ';' J)))),(s +* (Initialized (I ';' J))),(m + 1) = Following (ProgramPart (s +* (Initialized (I ';' J)))),(Comput (ProgramPart (s +* (Initialized (I ';' J)))),(s +* (Initialized (I ';' J))),m) by AMI_1:14
.= Exec (CurInstr (ProgramPart (Comput (ProgramPart (s +* (Initialized (I ';' J)))),(s +* (Initialized (I ';' J))),m)),(Comput (ProgramPart (s +* (Initialized (I ';' J)))),(s +* (Initialized (I ';' J))),m)),(Comput (ProgramPart (s +* (Initialized (I ';' J)))),(s +* (Initialized (I ';' J))),m) by T ;
assume A8: Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),m, Comput (ProgramPart (s +* (Initialized (I ';' J)))),(s +* (Initialized (I ';' J))),m equal_outside NAT ; :: thesis:
then A9: IC (Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),m) = IC (Comput (ProgramPart (s +* (Initialized (I ';' J)))),(s +* (Initialized (I ';' J))),m) by COMPOS_1:24;
A10: I ';' J c= Comput (ProgramPart (s +* (Initialized (I ';' J)))),(s +* (Initialized (I ';' J))),m by A3, Th13, AMI_1:81;
A11: IC (Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),m) in dom I by A2, Def1;
Y: (ProgramPart (Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),m)) /. (IC (Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),m)) = (Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),m) . (IC (Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),m)) by COMPOS_1:38;
Z: (ProgramPart (Comput (ProgramPart (s +* (Initialized (I ';' J)))),(s +* (Initialized (I ';' J))),m)) /. (IC (Comput (ProgramPart (s +* (Initialized (I ';' J)))),(s +* (Initialized (I ';' J))),m)) = (Comput (ProgramPart (s +* (Initialized (I ';' J)))),(s +* (Initialized (I ';' J))),m) . (IC (Comput (ProgramPart (s +* (Initialized (I ';' J)))),(s +* (Initialized (I ';' J))),m)) by COMPOS_1:38;
TX: ProgramPart (s +* (Initialized I)) = ProgramPart (Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),m) by AMI_1:123;
I c= Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),m by A2, Th13, AMI_1:81;
then A12: CurInstr (ProgramPart (s +* (Initialized I))),(Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),m) = I . (IC (Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),m)) by A11, Y, TX, GRFUNC_1:8;
then I . (IC (Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),m)) <> halt SCM+FSA by A1, AMI_1:146;
then CurInstr (ProgramPart (Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),m)),(Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),m) = (I ';' J) . (IC (Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),m)) by A11, A12, TX, SCMFSA6A:54
.= CurInstr (ProgramPart (Comput (ProgramPart (s +* (Initialized (I ';' J)))),(s +* (Initialized (I ';' J))),m)),(Comput (ProgramPart (s +* (Initialized (I ';' J)))),(s +* (Initialized (I ';' J))),m) by A9, A11, A10, A5, Z, GRFUNC_1:8 ;
hence S₁[m + 1] by A8, A6, A7, SCMFSA6A:32; :: thesis:

end;

A13: ( Comput (ProgramPart (s +* (Initialized I))),(s +* (Initialized I)),0 = s +* (Initialized I) & Comput (ProgramPart (s +* (Initialized (I ';' J)))),(s +* (Initialized (I ';' J))),0 = s +* (Initialized (I ';' J)) ) by AMI_1:13;
A14: ( (s +* (((intloc 0 ) .--> 1) +* (Start-At 0 ,SCM+FSA ))) +* I,s +* (((intloc 0 ) .--> 1) +* (Start-At 0 ,SCM+FSA )) equal_outside NAT & s +* (((intloc 0 ) .--> 1) +* (Start-At 0 ,SCM+FSA )),(s +* (((intloc 0 ) .--> 1) +* (Start-At 0 ,SCM+FSA ))) +* (I ';' J) equal_outside NAT ) by FUNCT_7:28, FUNCT_7:132;
A15: s +* (Initialized (I ';' J)) = s +* ((I ';' J) +* (((intloc 0 ) .--> 1) +* (Start-At 0 ,SCM+FSA ))) by FUNCT_4:15
.= (s +* (I ';' J)) +* (((intloc 0 ) .--> 1) +* (Start-At 0 ,SCM+FSA )) by FUNCT_4:15
.= (s +* (((intloc 0 ) .--> 1) +* (Start-At 0 ,SCM+FSA ))) +* (I ';' J) by Th19 ;
s +* (Initialized I) = s +* (I +* (((intloc 0 ) .--> 1) +* (Start-At 0 ,SCM+FSA ))) by FUNCT_4:15
.= (s +* I) +* (((intloc 0 ) .--> 1) +* (Start-At 0 ,SCM+FSA )) by FUNCT_4:15
.= (s +* (((intloc 0 ) .--> 1) +* (Start-At 0 ,SCM+FSA ))) +* I by Th19 ;
then A16: S₁[ 0 ] by A15, A14, A13, FUNCT_7:29;
thus for k being Element of NAT holds S₁[k] from NAT_1:sch 1(A16, A4); :: thesis: