set GA = GCD-Algorithm ;
defpred S1[ Element of NAT ] means for s being State of SCMPDS st GCD-Algorithm c= s & IC s = 5 & s . SBP > 0 & s . GBP = 0 & s . (DataLoc (s . SBP ),3) <= $1 & s . (DataLoc (s . SBP ),3) >= 0 & s . (DataLoc (s . SBP ),2) >= s . (DataLoc (s . SBP ),3) holds
ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart s),s,n)),(Comput (ProgramPart s),s,n) = return SBP & s . SBP = (Comput (ProgramPart s),s,n) . SBP & (Comput (ProgramPart s),s,n) . (DataLoc (s . SBP ),2) = (s . (DataLoc (s . SBP ),2)) gcd (s . (DataLoc (s . SBP ),3)) & ( for j being Element of NAT st 1 < j & j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j) ) );
now let s be
State of
SCMPDS ;
( GCD-Algorithm c= s & IC s = 5 & s . SBP > 0 & s . GBP = 0 & s . (DataLoc (s . SBP ),3) <= 0 & s . (DataLoc (s . SBP ),3) >= 0 & s . (DataLoc (s . SBP ),2) >= s . (DataLoc (s . SBP ),3) implies ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart s),s,n)),(Comput (ProgramPart s),s,n) = return SBP & (Comput (ProgramPart s),s,n) . SBP = s . SBP & (Comput (ProgramPart s),s,n) . (DataLoc (s . SBP ),2) = (s . (DataLoc (s . SBP ),2)) gcd (s . (DataLoc (s . SBP ),3)) & ( for j being Element of NAT st 1 < j & j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j) ) ) )set x =
s . (DataLoc (s . SBP ),2);
set y =
s . (DataLoc (s . SBP ),3);
assume A1:
GCD-Algorithm c= s
;
( IC s = 5 & s . SBP > 0 & s . GBP = 0 & s . (DataLoc (s . SBP ),3) <= 0 & s . (DataLoc (s . SBP ),3) >= 0 & s . (DataLoc (s . SBP ),2) >= s . (DataLoc (s . SBP ),3) implies ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart s),s,n)),(Comput (ProgramPart s),s,n) = return SBP & (Comput (ProgramPart s),s,n) . SBP = s . SBP & (Comput (ProgramPart s),s,n) . (DataLoc (s . SBP ),2) = (s . (DataLoc (s . SBP ),2)) gcd (s . (DataLoc (s . SBP ),3)) & ( for j being Element of NAT st 1 < j & j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j) ) ) )assume A2:
IC s = 5
;
( s . SBP > 0 & s . GBP = 0 & s . (DataLoc (s . SBP ),3) <= 0 & s . (DataLoc (s . SBP ),3) >= 0 & s . (DataLoc (s . SBP ),2) >= s . (DataLoc (s . SBP ),3) implies ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart s),s,n)),(Comput (ProgramPart s),s,n) = return SBP & (Comput (ProgramPart s),s,n) . SBP = s . SBP & (Comput (ProgramPart s),s,n) . (DataLoc (s . SBP ),2) = (s . (DataLoc (s . SBP ),2)) gcd (s . (DataLoc (s . SBP ),3)) & ( for j being Element of NAT st 1 < j & j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j) ) ) )assume
s . SBP > 0
;
( s . GBP = 0 & s . (DataLoc (s . SBP ),3) <= 0 & s . (DataLoc (s . SBP ),3) >= 0 & s . (DataLoc (s . SBP ),2) >= s . (DataLoc (s . SBP ),3) implies ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart s),s,n)),(Comput (ProgramPart s),s,n) = return SBP & (Comput (ProgramPart s),s,n) . SBP = s . SBP & (Comput (ProgramPart s),s,n) . (DataLoc (s . SBP ),2) = (s . (DataLoc (s . SBP ),2)) gcd (s . (DataLoc (s . SBP ),3)) & ( for j being Element of NAT st 1 < j & j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j) ) ) )assume
s . GBP = 0
;
( s . (DataLoc (s . SBP ),3) <= 0 & s . (DataLoc (s . SBP ),3) >= 0 & s . (DataLoc (s . SBP ),2) >= s . (DataLoc (s . SBP ),3) implies ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart s),s,n)),(Comput (ProgramPart s),s,n) = return SBP & (Comput (ProgramPart s),s,n) . SBP = s . SBP & (Comput (ProgramPart s),s,n) . (DataLoc (s . SBP ),2) = (s . (DataLoc (s . SBP ),2)) gcd (s . (DataLoc (s . SBP ),3)) & ( for j being Element of NAT st 1 < j & j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j) ) ) )assume A3:
s . (DataLoc (s . SBP ),3) <= 0
;
( s . (DataLoc (s . SBP ),3) >= 0 & s . (DataLoc (s . SBP ),2) >= s . (DataLoc (s . SBP ),3) implies ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart s),s,n)),(Comput (ProgramPart s),s,n) = return SBP & (Comput (ProgramPart s),s,n) . SBP = s . SBP & (Comput (ProgramPart s),s,n) . (DataLoc (s . SBP ),2) = (s . (DataLoc (s . SBP ),2)) gcd (s . (DataLoc (s . SBP ),3)) & ( for j being Element of NAT st 1 < j & j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j) ) ) )assume A4:
s . (DataLoc (s . SBP ),3) >= 0
;
( s . (DataLoc (s . SBP ),2) >= s . (DataLoc (s . SBP ),3) implies ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart s),s,n)),(Comput (ProgramPart s),s,n) = return SBP & (Comput (ProgramPart s),s,n) . SBP = s . SBP & (Comput (ProgramPart s),s,n) . (DataLoc (s . SBP ),2) = (s . (DataLoc (s . SBP ),2)) gcd (s . (DataLoc (s . SBP ),3)) & ( for j being Element of NAT st 1 < j & j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j) ) ) )assume A5:
s . (DataLoc (s . SBP ),2) >= s . (DataLoc (s . SBP ),3)
;
ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart s),s,n)),(Comput (ProgramPart s),s,n) = return SBP & (Comput (ProgramPart s),s,n) . SBP = s . SBP & (Comput (ProgramPart s),s,n) . (DataLoc (s . SBP ),2) = (s . (DataLoc (s . SBP ),2)) gcd (s . (DataLoc (s . SBP ),3)) & ( for j being Element of NAT st 1 < j & j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j) ) )Y:
(ProgramPart s) /. (IC s) = s . (IC s)
by COMPOS_1:38;
Z:
(ProgramPart (Comput (ProgramPart s),s,1)) /. (IC (Comput (ProgramPart s),s,1)) = (Comput (ProgramPart s),s,1) . (IC (Comput (ProgramPart s),s,1))
by COMPOS_1:38;
A6:
Comput (ProgramPart s),
s,
(1 + 0 ) =
Following (ProgramPart s),
(Comput (ProgramPart s),s,0 )
by AMI_1:14
.=
Following (ProgramPart s),
s
by AMI_1:13
.=
Exec (SBP ,3 <=0_goto 9),
s
by A1, A2, Y, Lm1
;
then A7:
IC (Comput (ProgramPart s),s,1) =
ICplusConst s,9
by A3, SCMPDS_2:68
.=
5
+ 9
by A2, SCMPDS_6:23
;
take n = 1;
( CurInstr (ProgramPart (Comput (ProgramPart s),s,n)),(Comput (ProgramPart s),s,n) = return SBP & (Comput (ProgramPart s),s,n) . SBP = s . SBP & (Comput (ProgramPart s),s,n) . (DataLoc (s . SBP ),2) = (s . (DataLoc (s . SBP ),2)) gcd (s . (DataLoc (s . SBP ),3)) & ( for j being Element of NAT st 1 < j & j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j) ) )thus CurInstr (ProgramPart (Comput (ProgramPart s),s,n)),
(Comput (ProgramPart s),s,n) =
s . 14
by A7, Z, AMI_1:54
.=
return SBP
by A1, Lm1
;
( (Comput (ProgramPart s),s,n) . SBP = s . SBP & (Comput (ProgramPart s),s,n) . (DataLoc (s . SBP ),2) = (s . (DataLoc (s . SBP ),2)) gcd (s . (DataLoc (s . SBP ),3)) & ( for j being Element of NAT st 1 < j & j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j) ) )thus
(Comput (ProgramPart s),s,n) . SBP = s . SBP
by A6, SCMPDS_2:68;
( (Comput (ProgramPart s),s,n) . (DataLoc (s . SBP ),2) = (s . (DataLoc (s . SBP ),2)) gcd (s . (DataLoc (s . SBP ),3)) & ( for j being Element of NAT st 1 < j & j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j) ) )A8:
s . (DataLoc (s . SBP ),3) = 0
by A3, A4, XXREAL_0:1;
then A9:
abs (s . (DataLoc (s . SBP ),3)) = 0
by ABSVALUE:def 1;
thus (Comput (ProgramPart s),s,n) . (DataLoc (s . SBP ),2) =
s . (DataLoc (s . SBP ),2)
by A6, SCMPDS_2:68
.=
abs (s . (DataLoc (s . SBP ),2))
by A5, A8, ABSVALUE:def 1
.=
(abs (s . (DataLoc (s . SBP ),2))) gcd (abs (s . (DataLoc (s . SBP ),3)))
by A9, NEWTON:65
.=
(s . (DataLoc (s . SBP ),2)) gcd (s . (DataLoc (s . SBP ),3))
by INT_2:51
;
for j being Element of NAT st 1 < j & j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j)thus
for
j being
Element of
NAT st 1
< j &
j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j)
by A6, SCMPDS_2:68;
verum end;
then A10:
S1[ 0 ]
;
A11:
now let k be
Element of
NAT ;
( S1[k] implies S1[k + 1] )assume A12:
S1[
k]
;
S1[k + 1]now let s be
State of
SCMPDS ;
( GCD-Algorithm c= s & IC s = 5 & s . SBP > 0 & s . GBP = 0 & s . (DataLoc (s . SBP ),3) <= k + 1 & s . (DataLoc (s . SBP ),3) >= 0 & s . (DataLoc (s . SBP ),2) >= s . (DataLoc (s . SBP ),3) implies ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart n),n,b2)),(Comput (ProgramPart n),n,b2) = return SBP & n . SBP = (Comput (ProgramPart n),n,b2) . SBP & (Comput (ProgramPart n),n,b2) . (DataLoc (n . SBP ),2) = (n . (DataLoc (n . SBP ),2)) gcd (n . (DataLoc (n . SBP ),3)) & ( for j being Element of NAT st 1 < b3 & b3 <= (n . SBP ) + 1 holds
n . (intpos b3) = (Comput (ProgramPart n),n,j) . (intpos b3) ) ) )set x =
s . (DataLoc (s . SBP ),2);
set y =
s . (DataLoc (s . SBP ),3);
set yy =
s . (DataLoc (s . SBP ),3);
assume A13:
GCD-Algorithm c= s
;
( IC s = 5 & s . SBP > 0 & s . GBP = 0 & s . (DataLoc (s . SBP ),3) <= k + 1 & s . (DataLoc (s . SBP ),3) >= 0 & s . (DataLoc (s . SBP ),2) >= s . (DataLoc (s . SBP ),3) implies ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart n),n,b2)),(Comput (ProgramPart n),n,b2) = return SBP & n . SBP = (Comput (ProgramPart n),n,b2) . SBP & (Comput (ProgramPart n),n,b2) . (DataLoc (n . SBP ),2) = (n . (DataLoc (n . SBP ),2)) gcd (n . (DataLoc (n . SBP ),3)) & ( for j being Element of NAT st 1 < b3 & b3 <= (n . SBP ) + 1 holds
n . (intpos b3) = (Comput (ProgramPart n),n,j) . (intpos b3) ) ) )assume A14:
IC s = 5
;
( s . SBP > 0 & s . GBP = 0 & s . (DataLoc (s . SBP ),3) <= k + 1 & s . (DataLoc (s . SBP ),3) >= 0 & s . (DataLoc (s . SBP ),2) >= s . (DataLoc (s . SBP ),3) implies ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart n),n,b2)),(Comput (ProgramPart n),n,b2) = return SBP & n . SBP = (Comput (ProgramPart n),n,b2) . SBP & (Comput (ProgramPart n),n,b2) . (DataLoc (n . SBP ),2) = (n . (DataLoc (n . SBP ),2)) gcd (n . (DataLoc (n . SBP ),3)) & ( for j being Element of NAT st 1 < b3 & b3 <= (n . SBP ) + 1 holds
n . (intpos b3) = (Comput (ProgramPart n),n,j) . (intpos b3) ) ) )assume A15:
s . SBP > 0
;
( s . GBP = 0 & s . (DataLoc (s . SBP ),3) <= k + 1 & s . (DataLoc (s . SBP ),3) >= 0 & s . (DataLoc (s . SBP ),2) >= s . (DataLoc (s . SBP ),3) implies ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart n),n,b2)),(Comput (ProgramPart n),n,b2) = return SBP & n . SBP = (Comput (ProgramPart n),n,b2) . SBP & (Comput (ProgramPart n),n,b2) . (DataLoc (n . SBP ),2) = (n . (DataLoc (n . SBP ),2)) gcd (n . (DataLoc (n . SBP ),3)) & ( for j being Element of NAT st 1 < b3 & b3 <= (n . SBP ) + 1 holds
n . (intpos b3) = (Comput (ProgramPart n),n,j) . (intpos b3) ) ) )assume A16:
s . GBP = 0
;
( s . (DataLoc (s . SBP ),3) <= k + 1 & s . (DataLoc (s . SBP ),3) >= 0 & s . (DataLoc (s . SBP ),2) >= s . (DataLoc (s . SBP ),3) implies ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart n),n,b2)),(Comput (ProgramPart n),n,b2) = return SBP & n . SBP = (Comput (ProgramPart n),n,b2) . SBP & (Comput (ProgramPart n),n,b2) . (DataLoc (n . SBP ),2) = (n . (DataLoc (n . SBP ),2)) gcd (n . (DataLoc (n . SBP ),3)) & ( for j being Element of NAT st 1 < b3 & b3 <= (n . SBP ) + 1 holds
n . (intpos b3) = (Comput (ProgramPart n),n,j) . (intpos b3) ) ) )assume A17:
s . (DataLoc (s . SBP ),3) <= k + 1
;
( s . (DataLoc (s . SBP ),3) >= 0 & s . (DataLoc (s . SBP ),2) >= s . (DataLoc (s . SBP ),3) implies ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart n),n,b2)),(Comput (ProgramPart n),n,b2) = return SBP & n . SBP = (Comput (ProgramPart n),n,b2) . SBP & (Comput (ProgramPart n),n,b2) . (DataLoc (n . SBP ),2) = (n . (DataLoc (n . SBP ),2)) gcd (n . (DataLoc (n . SBP ),3)) & ( for j being Element of NAT st 1 < b3 & b3 <= (n . SBP ) + 1 holds
n . (intpos b3) = (Comput (ProgramPart n),n,j) . (intpos b3) ) ) )assume A18:
s . (DataLoc (s . SBP ),3) >= 0
;
( s . (DataLoc (s . SBP ),2) >= s . (DataLoc (s . SBP ),3) implies ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart n),n,b2)),(Comput (ProgramPart n),n,b2) = return SBP & n . SBP = (Comput (ProgramPart n),n,b2) . SBP & (Comput (ProgramPart n),n,b2) . (DataLoc (n . SBP ),2) = (n . (DataLoc (n . SBP ),2)) gcd (n . (DataLoc (n . SBP ),3)) & ( for j being Element of NAT st 1 < b3 & b3 <= (n . SBP ) + 1 holds
n . (intpos b3) = (Comput (ProgramPart n),n,j) . (intpos b3) ) ) )assume A19:
s . (DataLoc (s . SBP ),2) >= s . (DataLoc (s . SBP ),3)
;
ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart n),n,b2)),(Comput (ProgramPart n),n,b2) = return SBP & n . SBP = (Comput (ProgramPart n),n,b2) . SBP & (Comput (ProgramPart n),n,b2) . (DataLoc (n . SBP ),2) = (n . (DataLoc (n . SBP ),2)) gcd (n . (DataLoc (n . SBP ),3)) & ( for j being Element of NAT st 1 < b3 & b3 <= (n . SBP ) + 1 holds
n . (intpos b3) = (Comput (ProgramPart n),n,j) . (intpos b3) ) )then A20:
s . (DataLoc (s . SBP ),2) >= 0
by A18, XXREAL_0:2;
reconsider y =
s . (DataLoc (s . SBP ),3) as
Element of
NAT by A18, INT_1:16;
per cases
( y <= k or y = k + 1 )
by A17, NAT_1:8;
suppose
y <= k
;
ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart n),n,b2)),(Comput (ProgramPart n),n,b2) = return SBP & n . SBP = (Comput (ProgramPart n),n,b2) . SBP & (Comput (ProgramPart n),n,b2) . (DataLoc (n . SBP ),2) = (n . (DataLoc (n . SBP ),2)) gcd (n . (DataLoc (n . SBP ),3)) & ( for j being Element of NAT st 1 < b3 & b3 <= (n . SBP ) + 1 holds
n . (intpos b3) = (Comput (ProgramPart n),n,j) . (intpos b3) ) )hence
ex
n being
Element of
NAT st
(
CurInstr (ProgramPart (Comput (ProgramPart s),s,n)),
(Comput (ProgramPart s),s,n) = return SBP &
s . SBP = (Comput (ProgramPart s),s,n) . SBP &
(Comput (ProgramPart s),s,n) . (DataLoc (s . SBP ),2) = (s . (DataLoc (s . SBP ),2)) gcd (s . (DataLoc (s . SBP ),3)) & ( for
j being
Element of
NAT st 1
< j &
j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j) ) )
by A12, A13, A14, A15, A16, A18, A19;
verum end; suppose A21:
y = k + 1
;
ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart n),n,b2)),(Comput (ProgramPart n),n,b2) = return SBP & (Comput (ProgramPart n),n,b2) . SBP = n . SBP & (Comput (ProgramPart n),n,b2) . (DataLoc (n . SBP ),2) = (n . (DataLoc (n . SBP ),2)) gcd (n . (DataLoc (n . SBP ),3)) & ( for j being Element of NAT st 1 < b3 & b3 <= (n . SBP ) + 1 holds
n . (intpos b3) = (Comput (ProgramPart n),n,j) . (intpos b3) ) )then A22:
y > 0
by NAT_1:5;
reconsider pn =
s . SBP as
Element of
NAT by A15, INT_1:16;
A23:
pn = s . SBP
;
then A24:
IC (Comput (ProgramPart s),s,7) = 5
+ 7
by A13, A14, A16, A22, Lm4;
A25:
Comput (ProgramPart s),
s,8
= Exec (goto (- 7)),
(Comput (ProgramPart s),s,7)
by A13, A14, A16, A22, A23, Lm4;
A26:
(Comput (ProgramPart s),s,7) . SBP = pn + 4
by A13, A14, A16, A22, Lm4;
A27:
(Comput (ProgramPart s),s,7) . GBP = 0
by A13, A14, A16, A22, A23, Lm4;
A28:
(Comput (ProgramPart s),s,7) . (intpos (pn + 7)) = (s . (DataLoc (s . SBP ),2)) mod y
by A13, A14, A16, A22, Lm4;
A29:
(Comput (ProgramPart s),s,7) . (intpos (pn + 6)) = y
by A13, A14, A16, A22, Lm4;
A30:
(Comput (ProgramPart s),s,7) . (intpos (pn + 4)) = pn
by A13, A14, A16, A22, Lm4;
A31:
(Comput (ProgramPart s),s,7) . (intpos (pn + 5)) = 11
by A13, A14, A16, A22, Lm4;
set s8 =
Comput (ProgramPart s),
s,8;
A32:
IC (Comput (ProgramPart s),s,8) =
ICplusConst (Comput (ProgramPart s),s,7),
(- 7)
by A25, SCMPDS_2:66
.=
5
by A24, Th6
;
A33:
GCD-Algorithm c= Comput (ProgramPart s),
s,8
by A13, AMI_1:81;
A34:
(Comput (ProgramPart s),s,8) . SBP = pn + 4
by A25, A26, SCMPDS_2:66;
A35:
4
<= pn + 4
by NAT_1:11;
then A36:
(Comput (ProgramPart s),s,8) . SBP > 0
by A34, XXREAL_0:2;
A37:
(Comput (ProgramPart s),s,8) . GBP = 0
by A25, A27, SCMPDS_2:66;
set x1 =
(Comput (ProgramPart s),s,8) . (DataLoc ((Comput (ProgramPart s),s,8) . SBP ),2);
set y1 =
(Comput (ProgramPart s),s,8) . (DataLoc ((Comput (ProgramPart s),s,8) . SBP ),3);
A38:
(Comput (ProgramPart s),s,8) . (DataLoc ((Comput (ProgramPart s),s,8) . SBP ),2) =
(Comput (ProgramPart s),s,8) . (intpos ((pn + 4) + 2))
by A34, Th5
.=
y
by A25, A29, SCMPDS_2:66
;
A39:
(Comput (ProgramPart s),s,8) . (DataLoc ((Comput (ProgramPart s),s,8) . SBP ),3) =
(Comput (ProgramPart s),s,8) . (intpos ((pn + 4) + 3))
by A34, Th5
.=
(s . (DataLoc (s . SBP ),2)) mod y
by A25, A28, SCMPDS_2:66
;
then A40:
(Comput (ProgramPart s),s,8) . (DataLoc ((Comput (ProgramPart s),s,8) . SBP ),3) < y
by A21, NAT_1:5, NEWTON:79;
then
(Comput (ProgramPart s),s,8) . (DataLoc ((Comput (ProgramPart s),s,8) . SBP ),3) <= k
by A21, INT_1:20;
then consider m being
Element of
NAT such that A41:
CurInstr (ProgramPart (Comput (ProgramPart (Comput (ProgramPart s),s,8)),(Comput (ProgramPart s),s,8),m)),
(Comput (ProgramPart (Comput (ProgramPart s),s,8)),(Comput (ProgramPart s),s,8),m) = return SBP
and A42:
(Comput (ProgramPart s),s,8) . SBP = (Comput (ProgramPart (Comput (ProgramPart s),s,8)),(Comput (ProgramPart s),s,8),m) . SBP
and A43:
(Comput (ProgramPart (Comput (ProgramPart s),s,8)),(Comput (ProgramPart s),s,8),m) . (DataLoc ((Comput (ProgramPart s),s,8) . SBP ),2) = ((Comput (ProgramPart s),s,8) . (DataLoc ((Comput (ProgramPart s),s,8) . SBP ),2)) gcd ((Comput (ProgramPart s),s,8) . (DataLoc ((Comput (ProgramPart s),s,8) . SBP ),3))
and A44:
for
j being
Element of
NAT st 1
< j &
j <= ((Comput (ProgramPart s),s,8) . SBP ) + 1 holds
(Comput (ProgramPart s),s,8) . (intpos j) = (Comput (ProgramPart (Comput (ProgramPart s),s,8)),(Comput (ProgramPart s),s,8),m) . (intpos j)
by A12, A22, A32, A33, A36, A37, A38, A39, A40, NEWTON:78;
set s9 =
Comput (ProgramPart s),
s,
(m + 8);
T9:
ProgramPart s = ProgramPart (Comput (ProgramPart s),s,8)
by AMI_1:123;
then A45:
(Comput (ProgramPart s),s,8) . SBP = (Comput (ProgramPart s),s,(m + 8)) . SBP
by A42, AMI_1:51;
T:
ProgramPart s = ProgramPart (Comput (ProgramPart s),s,8)
by AMI_1:123;
x:
Comput (ProgramPart s),
s,
(m + 8) = Comput (ProgramPart s),
(Comput (ProgramPart s),s,8),
m
by AMI_1:51;
S:
ProgramPart s = ProgramPart (Comput (ProgramPart s),s,(m + 8))
by AMI_1:123;
A46:
Comput (ProgramPart s),
s,
(m + (8 + 1)) =
Comput (ProgramPart s),
s,
((m + 8) + 1)
.=
Following (ProgramPart s),
(Comput (ProgramPart s),s,(m + 8))
by AMI_1:14
.=
Exec (CurInstr (ProgramPart (Comput (ProgramPart s),s,(m + 8))),(Comput (ProgramPart s),s,(m + 8))),
(Comput (ProgramPart s),s,(m + 8))
by S
.=
Exec (CurInstr (ProgramPart (Comput (ProgramPart (Comput (ProgramPart s),s,8)),(Comput (ProgramPart s),s,8),m)),(Comput (ProgramPart (Comput (ProgramPart s),s,8)),(Comput (ProgramPart s),s,8),m)),
(Comput (ProgramPart s),s,(m + 8))
by x, T
.=
Exec (return SBP ),
(Comput (ProgramPart s),s,(m + 8))
by A41
;
A47:
1
< pn + 4
by A35, XXREAL_0:2;
pn + 4
< ((Comput (ProgramPart s),s,8) . SBP ) + 1
by A34, XREAL_1:31;
then A48:
(Comput (ProgramPart s),s,8) . (intpos (pn + 4)) =
(Comput (ProgramPart (Comput (ProgramPart s),s,8)),(Comput (ProgramPart s),s,8),m) . (intpos (pn + 4))
by A44, A47
.=
(Comput (ProgramPart s),s,(m + 8)) . (intpos (pn + 4))
by T9, AMI_1:51
;
5
<= pn + 5
by NAT_1:11;
then A49:
1
< pn + 5
by XXREAL_0:2;
A50: 11 =
(Comput (ProgramPart s),s,8) . (intpos (pn + 5))
by A25, A31, SCMPDS_2:66
.=
(Comput (ProgramPart (Comput (ProgramPart s),s,8)),(Comput (ProgramPart s),s,8),m) . (intpos (pn + 5))
by A34, A44, A49
.=
(Comput (ProgramPart s),s,(m + 8)) . (intpos ((pn + 4) + 1))
by T9, AMI_1:51
.=
(Comput (ProgramPart s),s,(m + 8)) . (DataLoc ((Comput (ProgramPart s),s,(m + 8)) . SBP ),RetIC )
by A34, A45, Th5, SCMPDS_1:def 23
;
Y:
(ProgramPart (Comput (ProgramPart s),s,(m + 9))) /. (IC (Comput (ProgramPart s),s,(m + 9))) = (Comput (ProgramPart s),s,(m + 9)) . (IC (Comput (ProgramPart s),s,(m + 9)))
by COMPOS_1:38;
A51:
IC (Comput (ProgramPart s),s,(m + 9)) =
(abs ((Comput (ProgramPart s),s,(m + 8)) . (DataLoc ((Comput (ProgramPart s),s,(m + 8)) . SBP ),RetIC ))) + 2
by A46, SCMPDS_2:70
.=
11
+ 2
by A50, Th3
;
then A52:
CurInstr (ProgramPart (Comput (ProgramPart s),s,(m + 9))),
(Comput (ProgramPart s),s,(m + 9)) =
s . 13
by Y, AMI_1:54
.=
SBP ,2
:= SBP ,6
by A13, Lm1
;
T:
ProgramPart s = ProgramPart (Comput (ProgramPart s),s,(m + 9))
by AMI_1:123;
A53:
Comput (ProgramPart s),
s,
(m + (9 + 1)) =
Comput (ProgramPart s),
s,
((m + 9) + 1)
.=
Following (ProgramPart s),
(Comput (ProgramPart s),s,(m + 9))
by AMI_1:14
.=
Exec (SBP ,2 := SBP ,6),
(Comput (ProgramPart s),s,(m + 9))
by A52, T
;
A54:
(Comput (ProgramPart s),s,(m + 9)) . SBP =
(Comput (ProgramPart s),s,(m + 8)) . (DataLoc (pn + 4),RetSP )
by A34, A45, A46, SCMPDS_2:70
.=
(Comput (ProgramPart s),s,(m + 8)) . (intpos ((pn + 4) + 0 ))
by Th5, SCMPDS_1:def 22
.=
pn
by A25, A30, A48, SCMPDS_2:66
;
A55:
(Comput (ProgramPart s),s,(m + 9)) . (intpos (pn + 6)) =
(Comput (ProgramPart s),s,(m + 8)) . (intpos ((pn + 4) + 2))
by A46, Lm3, SCMPDS_2:70
.=
(Comput (ProgramPart s),s,(m + 8)) . (DataLoc ((Comput (ProgramPart s),s,8) . SBP ),2)
by A34, Th5
.=
((Comput (ProgramPart s),s,8) . (DataLoc ((Comput (ProgramPart s),s,8) . SBP ),2)) gcd ((Comput (ProgramPart s),s,8) . (DataLoc ((Comput (ProgramPart s),s,8) . SBP ),3))
by A43, T9, AMI_1:51
;
Y:
(ProgramPart (Comput (ProgramPart s),s,(m + 10))) /. (IC (Comput (ProgramPart s),s,(m + 10))) = (Comput (ProgramPart s),s,(m + 10)) . (IC (Comput (ProgramPart s),s,(m + 10)))
by COMPOS_1:38;
IC (Comput (ProgramPart s),s,(m + 10)) =
succ (IC (Comput (ProgramPart s),s,(m + 9)))
by A53, SCMPDS_2:59
.=
13
+ 1
by A51
;
then A56:
CurInstr (ProgramPart (Comput (ProgramPart s),s,(m + 10))),
(Comput (ProgramPart s),s,(m + 10)) =
s . 14
by Y, AMI_1:54
.=
return SBP
by A13, Lm1
;
hereby verum
take n =
m + 10;
( CurInstr (ProgramPart (Comput (ProgramPart s),s,n)),(Comput (ProgramPart s),s,n) = return SBP & (Comput (ProgramPart s),s,n) . SBP = s . SBP & (Comput (ProgramPart s),s,n) . (DataLoc (s . SBP ),2) = (s . (DataLoc (s . SBP ),2)) gcd (s . (DataLoc (s . SBP ),3)) & ( for j being Element of NAT st 1 < j & j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j) ) )thus
CurInstr (ProgramPart (Comput (ProgramPart s),s,n)),
(Comput (ProgramPart s),s,n) = return SBP
by A56;
( (Comput (ProgramPart s),s,n) . SBP = s . SBP & (Comput (ProgramPart s),s,n) . (DataLoc (s . SBP ),2) = (s . (DataLoc (s . SBP ),2)) gcd (s . (DataLoc (s . SBP ),3)) & ( for j being Element of NAT st 1 < j & j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j) ) )A57:
DataLoc ((Comput (ProgramPart s),s,(m + 9)) . SBP ),2
= intpos (pn + 2)
by A54, Th5;
hence
(Comput (ProgramPart s),s,n) . SBP = s . SBP
by A53, A54, Lm3, SCMPDS_2:59;
( (Comput (ProgramPart s),s,n) . (DataLoc (s . SBP ),2) = (s . (DataLoc (s . SBP ),2)) gcd (s . (DataLoc (s . SBP ),3)) & ( for j being Element of NAT st 1 < j & j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j) ) )thus (Comput (ProgramPart s),s,n) . (DataLoc (s . SBP ),2) =
(Comput (ProgramPart s),s,(m + 9)) . (DataLoc pn,6)
by A53, A54, SCMPDS_2:59
.=
(s . (DataLoc (s . SBP ),3)) gcd ((s . (DataLoc (s . SBP ),2)) mod (s . (DataLoc (s . SBP ),3)))
by A38, A39, A55, Th5
.=
(s . (DataLoc (s . SBP ),2)) gcd (s . (DataLoc (s . SBP ),3))
by A20, A21, NAT_1:5, NAT_D:30
;
for j being Element of NAT st 1 < j & j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j)hereby verum
let j be
Element of
NAT ;
( 1 < j & j <= (s . SBP ) + 1 implies s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j) )assume that A58:
1
< j
and A59:
j <= (s . SBP ) + 1
;
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j)
s . SBP <= (Comput (ProgramPart s),s,8) . SBP
by A34, NAT_1:11;
then
(s . SBP ) + 1
<= ((Comput (ProgramPart s),s,8) . SBP ) + 1
by XREAL_1:8;
then A60:
j <= ((Comput (ProgramPart s),s,8) . SBP ) + 1
by A59, XXREAL_0:2;
A61:
(Comput (ProgramPart s),s,(m + 9)) . (intpos j) =
(Comput (ProgramPart s),s,(m + 8)) . (intpos j)
by A46, A58, AMI_3:52, SCMPDS_2:70
.=
(Comput (ProgramPart (Comput (ProgramPart s),s,8)),(Comput (ProgramPart s),s,8),m) . (intpos j)
by T9, AMI_1:51
.=
(Comput (ProgramPart s),s,8) . (intpos j)
by A44, A58, A60
;
A62:
pn + 1
< pn + 2
by XREAL_1:8;
(Comput (ProgramPart s),s,7) . (intpos j) = s . (intpos j)
by A13, A14, A16, A21, A23, A58, A59, Lm5, NAT_1:5;
hence s . (intpos j) =
(Comput (ProgramPart s),s,8) . (intpos j)
by A25, SCMPDS_2:66
.=
(Comput (ProgramPart s),s,n) . (intpos j)
by A53, A57, A59, A61, A62, AMI_3:52, SCMPDS_2:59
;
verum
end;
end; end; end; hence
S1[
k + 1]
;
verum end;
A63:
for n being Element of NAT holds S1[n]
from NAT_1:sch 1(A10, A11);
let s be State of SCMPDS ; ( GCD-Algorithm c= s & IC s = 5 & s . SBP > 0 & s . GBP = 0 & s . (DataLoc (s . SBP ),3) >= 0 & s . (DataLoc (s . SBP ),2) >= s . (DataLoc (s . SBP ),3) implies ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart s),s,n)),(Comput (ProgramPart s),s,n) = return SBP & s . SBP = (Comput (ProgramPart s),s,n) . SBP & (Comput (ProgramPart s),s,n) . (DataLoc (s . SBP ),2) = (s . (DataLoc (s . SBP ),2)) gcd (s . (DataLoc (s . SBP ),3)) & ( for j being Element of NAT st 1 < j & j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j) ) ) )
assume that
A64:
GCD-Algorithm c= s
and
A65:
IC s = 5
and
A66:
s . SBP > 0
and
A67:
s . GBP = 0
and
A68:
s . (DataLoc (s . SBP ),3) >= 0
and
A69:
s . (DataLoc (s . SBP ),2) >= s . (DataLoc (s . SBP ),3)
; ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart s),s,n)),(Comput (ProgramPart s),s,n) = return SBP & s . SBP = (Comput (ProgramPart s),s,n) . SBP & (Comput (ProgramPart s),s,n) . (DataLoc (s . SBP ),2) = (s . (DataLoc (s . SBP ),2)) gcd (s . (DataLoc (s . SBP ),3)) & ( for j being Element of NAT st 1 < j & j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j) ) )
reconsider m = s . (DataLoc (s . SBP ),3) as Element of NAT by A68, INT_1:16;
S1[m]
by A63;
hence
ex n being Element of NAT st
( CurInstr (ProgramPart (Comput (ProgramPart s),s,n)),(Comput (ProgramPart s),s,n) = return SBP & s . SBP = (Comput (ProgramPart s),s,n) . SBP & (Comput (ProgramPart s),s,n) . (DataLoc (s . SBP ),2) = (s . (DataLoc (s . SBP ),2)) gcd (s . (DataLoc (s . SBP ),3)) & ( for j being Element of NAT st 1 < j & j <= (s . SBP ) + 1 holds
s . (intpos j) = (Comput (ProgramPart s),s,n) . (intpos j) ) )
by A64, A65, A66, A67, A68, A69; verum