let P1, P2 be Instruction-Sequence of SCM+FSA; :: thesis:
let s1 be 0 -started State of SCM+FSA; :: thesis:
let s2 be State of SCM+FSA; :: thesis:
let I be really-closed Program of SCM+FSA; :: thesis:
A1: Start-At (0,SCM+FSA) c= s1 by MEMSTR_0:29;
assume A2: I c= P1 ; :: thesis:
let n be Nat; :: thesis:
A3: IC in dom (Start-At (0,SCM+FSA)) by MEMSTR_0:15;
defpred S₁[ Nat] means ( (IC (Comput (P1,s1,$1))) + n = IC (Comput (P2,s2,$1)) & IncAddr ((CurInstr (P1,(Comput (P1,s1,$1)))),n) = CurInstr (P2,(Comput (P2,s2,$1))) & DataPart (Comput (P1,s1,$1)) = DataPart (Comput (P2,s2,$1)) );
A4: IC (Comput (P1,s1,0)) = IC s1
.= IC (Start-At (0,SCM+FSA)) by A1, A3, GRFUNC_1:2
.= 0 by FUNCOP_1:72 ;
assume A5: IC s2 = n ; :: thesis:
A6: 0 in dom I by AFINSQ_1:65;
then A7: 0 + n in dom (Reloc (I,n)) by COMPOS_1:46;
IC in dom (Start-At (0,SCM+FSA)) by MEMSTR_0:15;
then A8: P1 . (IC s1) = P1 . (IC (Start-At (0,SCM+FSA))) by A1, GRFUNC_1:2
.= P1 . 0 by FUNCOP_1:72
.= I . 0 by A6, A2, GRFUNC_1:2 ;
assume DataPart s1 = DataPart s2 ; :: thesis:
then A9: DataPart (Comput (P1,s1,0)) = DataPart s2
.= DataPart (Comput (P2,s2,0)) ;
assume A10: Reloc (I,n) c= P2 ; :: thesis:
let i be Nat; :: thesis:
A11: P2 /. (IC s2) = P2 . (IC s2) by PBOOLE:143;
A12: CurInstr (P1,s1) = I . 0 by A8, PBOOLE:143;
IncAddr ((CurInstr (P1,(Comput (P1,s1,0)))),n) = IncAddr ((CurInstr (P1,s1)),n)
.= (Reloc (I,n)) . (0 + n) by A12, A6, COMPOS_1:35
.= CurInstr (P2,s2) by A5, A7, A11, A10, GRFUNC_1:2
.= CurInstr (P2,(Comput (P2,s2,0))) ;
then A13: S₁[ 0 ] by A5, A4, A9;
A14: for k being Nat st S₁[k] holds
S₁[k + 1]

proof

let k be Nat; :: thesis:
A15: Comput (P1,s1,(k + 1)) = Following (P1,(Comput (P1,s1,k))) by EXTPRO_1:3
.= Exec ((CurInstr (P1,(Comput (P1,s1,k)))),(Comput (P1,s1,k))) ;
IC s1 = 0 by MEMSTR_0:def 11;
then A16: IC s1 in dom I by AFINSQ_1:65;
A17: I c= P1 +* I by FUNCT_4:25;
reconsider l = IC (Comput (P1,s1,(k + 1))) as Element of NAT ;
reconsider j = CurInstr (P1,(Comput (P1,s1,(k + 1)))) as Instruction of SCM+FSA ;
A18: Comput (P2,s2,(k + 1)) = Following (P2,(Comput (P2,s2,k))) by EXTPRO_1:3
.= Exec ((CurInstr (P2,(Comput (P2,s2,k)))),(Comput (P2,s2,k))) ;
A19: P1 = P1 +* I by A2, FUNCT_4:98;
then A20: IC (Comput (P1,s1,(k + 1))) in dom I by A16, A17, AMISTD_1:21;
assume A21: S₁[k] ; :: thesis:
hence A22: (IC (Comput (P1,s1,(k + 1)))) + n = IC (Comput (P2,s2,(k + 1))) by A15, A18, SCMFSA6A:8; :: thesis:
then A23: IC (Comput (P2,s2,(k + 1))) in dom (Reloc (I,n)) by A20, COMPOS_1:46;
A24: l in dom I by A19, A16, A17, AMISTD_1:21;
j = P1 . (IC (Comput (P1,s1,(k + 1)))) by PBOOLE:143
.= I . l by A20, A2, GRFUNC_1:2 ;
hence IncAddr ((CurInstr (P1,(Comput (P1,s1,(k + 1))))),n) = (Reloc (I,n)) . (l + n) by A24, COMPOS_1:35
.= P2 . (IC (Comput (P2,s2,(k + 1)))) by A23, A22, A10, GRFUNC_1:2
.= CurInstr (P2,(Comput (P2,s2,(k + 1)))) by PBOOLE:143 ;
:: thesis:
thus DataPart (Comput (P1,s1,(k + 1))) = DataPart (Comput (P2,s2,(k + 1))) by A21, A15, A18, SCMFSA6A:8; :: thesis:

end;

for k being Nat holds S₁[k] from NAT_1:sch 2(A13, A14);
hence ( (IC (Comput (P1,s1,i))) + n = IC (Comput (P2,s2,i)) & IncAddr ((CurInstr (P1,(Comput (P1,s1,i)))),n) = CurInstr (P2,(Comput (P2,s2,i))) & DataPart (Comput (P1,s1,i)) = DataPart (Comput (P2,s2,i)) ) ; :: thesis: