let s be State of SCMPDS ; :: thesis: for I being Program of SCMPDS
for a, c being Int_position
for i being Integer
for n being Element of NAT st s . (DataLoc (s . a),i) >= 0 holds
IExec (for-up a,i,n,I),s = s +* (Start-At ((card I) + 3),SCMPDS )
let I be Program of SCMPDS ; :: thesis: for a, c being Int_position
for i being Integer
for n being Element of NAT st s . (DataLoc (s . a),i) >= 0 holds
IExec (for-up a,i,n,I),s = s +* (Start-At ((card I) + 3),SCMPDS )
let a, c be Int_position ; :: thesis: for i being Integer
for n being Element of NAT st s . (DataLoc (s . a),i) >= 0 holds
IExec (for-up a,i,n,I),s = s +* (Start-At ((card I) + 3),SCMPDS )
let i be Integer; :: thesis: for n being Element of NAT st s . (DataLoc (s . a),i) >= 0 holds
IExec (for-up a,i,n,I),s = s +* (Start-At ((card I) + 3),SCMPDS )
let n be Element of NAT ; :: thesis: ( s . (DataLoc (s . a),i) >= 0 implies IExec (for-up a,i,n,I),s = s +* (Start-At ((card I) + 3),SCMPDS ) )
set d1 = DataLoc (s . a),i;
set FOR = for-up a,i,n,I;
set pFOR = stop (for-up a,i,n,I);
set s3 = (Initialize s) +* (stop (for-up a,i,n,I));
set s4 = Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),1;
set i1 = a,i >=0_goto ((card I) + 3);
set i2 = AddTo a,i,n;
set i3 = goto (- ((card I) + 2));
I1: s +* (Initialize (stop (for-up a,i,n,I))) = (Initialize s) +* (stop (for-up a,i,n,I)) by SCMPDS_4:5;
set SAl = Start-At ((card I) + 3),SCMPDS ;
A1: IC ((Initialize s) +* (stop (for-up a,i,n,I))) = 0 by SCMPDS_6:21;
A2: not DataLoc (s . a),i in dom (Initialize (stop (for-up a,i,n,I))) by SCMPDS_4:31;
Initialize (stop (for-up a,i,n,I)) c= (Initialize s) +* (stop (for-up a,i,n,I)) by I1, FUNCT_4:26;
then A3: stop (for-up a,i,n,I) c= Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),1 by AMI_1:81, SCMPDS_4:57;
not a in dom (Initialize (stop (for-up a,i,n,I))) by SCMPDS_4:31;
then A4: ((Initialize s) +* (stop (for-up a,i,n,I))) . (DataLoc (((Initialize s) +* (stop (for-up a,i,n,I))) . a),i) = ((Initialize s) +* (stop (for-up a,i,n,I))) . (DataLoc (s . a),i) by I1, FUNCT_4:12
.= s . (DataLoc (s . a),i) by A2, I1, FUNCT_4:12 ;
A5: for-up a,i,n,I = (a,i >=0_goto ((card I) + 3)) ';' ((I ';' (AddTo a,i,n)) ';' (goto (- ((card I) + 2)))) by Th15;
A6: Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),(0 + 1) = Following (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),(Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),0 ) by AMI_1:14
.= Following (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))) by AMI_1:13
.= Exec (a,i >=0_goto ((card I) + 3)),((Initialize s) +* (stop (for-up a,i,n,I))) by A5, I1, SCMPDS_6:22 ;
assume s . (DataLoc (s . a),i) >= 0 ; :: thesis: IExec (for-up a,i,n,I),s = s +* (Start-At ((card I) + 3),SCMPDS )
then A7: IC (Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),1) = ICplusConst ((Initialize s) +* (stop (for-up a,i,n,I))),((card I) + 3) by A6, A4, SCMPDS_2:69
.= 0 + ((card I) + 3) by A1, SCMPDS_6:23 ;
Y: (ProgramPart (Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),1)) /. (IC (Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),1)) = (Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),1) . (IC (Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),1)) by COMPOS_1:38;
TX: ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I))) = ProgramPart (Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),1) by AMI_1:123;
A8: card (for-up a,i,n,I) = (card I) + 3 by Th51;
then (card I) + 3 in dom (stop (for-up a,i,n,I)) by SCMPDS_6:25;
then (Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),1) . ((card I) + 3) = (stop (for-up a,i,n,I)) . ((card I) + 3) by A3, GRFUNC_1:8
.= halt SCMPDS by A8, SCMPDS_6:25 ;
then A9: CurInstr (ProgramPart (Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),1)),(Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),1) = halt SCMPDS by A7, Y;
then A10: ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I))) halts_on (Initialize s) +* (stop (for-up a,i,n,I)) by TX, AMI_1:146;
A11: CurInstr (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))) = a,i >=0_goto ((card I) + 3) by A5, I1, SCMPDS_6:22;
TX: ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I))) = ProgramPart (Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),1) by AMI_1:123;
now
let l be Element of NAT ; :: thesis: ( l < 0 + 1 implies CurInstr (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),(Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),l) <> halt SCMPDS )
u: Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),0 = (Initialize s) +* (stop (for-up a,i,n,I)) by AMI_1:13;
assume l < 0 + 1 ; :: thesis: CurInstr (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),(Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),l) <> halt SCMPDS
then l = 0 by NAT_1:13;
then CurInstr (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),(Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),l) = CurInstr (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))) by u;
hence CurInstr (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),(Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),l) <> halt SCMPDS by A11, SCMPDS_6:31; :: thesis: verum
end;
then for l being Element of NAT st CurInstr (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),(Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),l) = halt SCMPDS holds
1 <= l ;
then LifeSpan (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))) = 1 by A9, A10, TX, AMI_1:def 46;
then A12: Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),1 = Result (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))) by A10, AMI_1:122;
A13: dom (ProgramPart s) = NAT by COMPOS_1:34;
A14: now
let x be set ; :: thesis: ( x in dom (IExec (for-up a,i,n,I),s) implies (IExec (for-up a,i,n,I),s) . b1 = (s +* (Start-At ((card I) + 3),SCMPDS )) . b1 )
A15: dom (Start-At ((card I) + 3),SCMPDS ) = {(IC SCMPDS )} by FUNCOP_1:19;
assume A16: x in dom (IExec (for-up a,i,n,I),s) ; :: thesis: (IExec (for-up a,i,n,I),s) . b1 = (s +* (Start-At ((card I) + 3),SCMPDS )) . b1
per cases ( x is Int_position or x = IC SCMPDS or x is Element of NAT ) by A16, SCMPDS_4:20;
suppose A17: x is Int_position ; :: thesis: (IExec (for-up a,i,n,I),s) . b1 = (s +* (Start-At ((card I) + 3),SCMPDS )) . b1
then x <> IC SCMPDS by SCMPDS_2:52;
then A18: not x in dom (Start-At ((card I) + 3),SCMPDS ) by A15, TARSKI:def 1;
not x in dom (s | NAT ) by A13, A17, SCMPDS_2:53;
hence (IExec (for-up a,i,n,I),s) . x = (Comput (ProgramPart ((Initialize s) +* (stop (for-up a,i,n,I)))),((Initialize s) +* (stop (for-up a,i,n,I))),1) . x by A12, FUNCT_4:12
.= ((Initialize s) +* (stop (for-up a,i,n,I))) . x by A6, A17, SCMPDS_2:69
.= s . x by A17, SCMPDS_5:19
.= (s +* (Start-At ((card I) + 3),SCMPDS )) . x by A18, FUNCT_4:12 ;
:: thesis: verum
end;
suppose A19: x = IC SCMPDS ; :: thesis: (IExec (for-up a,i,n,I),s) . b1 = (s +* (Start-At ((card I) + 3),SCMPDS )) . b1
not x in dom (s | NAT ) by A13, A19, COMPOS_1:3;
hence (IExec (for-up a,i,n,I),s) . x = (card I) + 3 by A7, A12, A19, FUNCT_4:12
.= (s +* (Start-At ((card I) + 3),SCMPDS )) . x by A19, Th12 ;
:: thesis: verum
end;
suppose x is Element of NAT ; :: thesis: (IExec (for-up a,i,n,I),s) . b1 = (s +* (Start-At ((card I) + 3),SCMPDS )) . b1
hence (IExec (for-up a,i,n,I),s) . x = (s +* (Start-At ((card I) + 3),SCMPDS )) . x by SCMPDS_6:27; :: thesis: verum
end;
end;
end;
dom (IExec (for-up a,i,n,I),s) = the carrier of SCMPDS by PARTFUN1:def 4
.= dom (s +* (Start-At ((card I) + 3),SCMPDS )) by PARTFUN1:def 4 ;
hence IExec (for-up a,i,n,I),s = s +* (Start-At ((card I) + 3),SCMPDS ) by A14, FUNCT_1:9; :: thesis: verum