let s be State of SCM; for P being Instruction-Sequence of SCM st Euclid-Algorithm c= P holds
for k being Nat st IC (Comput (P,s,k)) = 2 holds
( IC (Comput (P,s,(k + 1))) = 3 & (Comput (P,s,(k + 1))) . (dl. 0) = (Comput (P,s,k)) . (dl. 2) & (Comput (P,s,(k + 1))) . (dl. 1) = (Comput (P,s,k)) . (dl. 1) & (Comput (P,s,(k + 1))) . (dl. 2) = (Comput (P,s,k)) . (dl. 2) )
let P be Instruction-Sequence of SCM; ( Euclid-Algorithm c= P implies for k being Nat st IC (Comput (P,s,k)) = 2 holds
( IC (Comput (P,s,(k + 1))) = 3 & (Comput (P,s,(k + 1))) . (dl. 0) = (Comput (P,s,k)) . (dl. 2) & (Comput (P,s,(k + 1))) . (dl. 1) = (Comput (P,s,k)) . (dl. 1) & (Comput (P,s,(k + 1))) . (dl. 2) = (Comput (P,s,k)) . (dl. 2) ) )
assume A1:
Euclid-Algorithm c= P
; for k being Nat st IC (Comput (P,s,k)) = 2 holds
( IC (Comput (P,s,(k + 1))) = 3 & (Comput (P,s,(k + 1))) . (dl. 0) = (Comput (P,s,k)) . (dl. 2) & (Comput (P,s,(k + 1))) . (dl. 1) = (Comput (P,s,k)) . (dl. 1) & (Comput (P,s,(k + 1))) . (dl. 2) = (Comput (P,s,k)) . (dl. 2) )
let k be Nat; ( IC (Comput (P,s,k)) = 2 implies ( IC (Comput (P,s,(k + 1))) = 3 & (Comput (P,s,(k + 1))) . (dl. 0) = (Comput (P,s,k)) . (dl. 2) & (Comput (P,s,(k + 1))) . (dl. 1) = (Comput (P,s,k)) . (dl. 1) & (Comput (P,s,(k + 1))) . (dl. 2) = (Comput (P,s,k)) . (dl. 2) ) )
assume A2:
IC (Comput (P,s,k)) = 2
; ( IC (Comput (P,s,(k + 1))) = 3 & (Comput (P,s,(k + 1))) . (dl. 0) = (Comput (P,s,k)) . (dl. 2) & (Comput (P,s,(k + 1))) . (dl. 1) = (Comput (P,s,k)) . (dl. 1) & (Comput (P,s,(k + 1))) . (dl. 2) = (Comput (P,s,k)) . (dl. 2) )
A3: Comput (P,s,(k + 1)) =
Exec ((P . (IC (Comput (P,s,k)))),(Comput (P,s,k)))
by EXTPRO_1:6
.=
Exec (((dl. 0) := (dl. 2)),(Comput (P,s,k)))
by A1, A2, Lm3
;
hence IC (Comput (P,s,(k + 1))) =
(IC (Comput (P,s,k))) + 1
by AMI_3:2
.=
3
by A2
;
( (Comput (P,s,(k + 1))) . (dl. 0) = (Comput (P,s,k)) . (dl. 2) & (Comput (P,s,(k + 1))) . (dl. 1) = (Comput (P,s,k)) . (dl. 1) & (Comput (P,s,(k + 1))) . (dl. 2) = (Comput (P,s,k)) . (dl. 2) )
thus
(Comput (P,s,(k + 1))) . (dl. 0) = (Comput (P,s,k)) . (dl. 2)
by A3, AMI_3:2; ( (Comput (P,s,(k + 1))) . (dl. 1) = (Comput (P,s,k)) . (dl. 1) & (Comput (P,s,(k + 1))) . (dl. 2) = (Comput (P,s,k)) . (dl. 2) )
thus
( (Comput (P,s,(k + 1))) . (dl. 1) = (Comput (P,s,k)) . (dl. 1) & (Comput (P,s,(k + 1))) . (dl. 2) = (Comput (P,s,k)) . (dl. 2) )
by A3, AMI_3:2, AMI_3:10; verum