Termination w.r.t. Q proof of /home/cern_httpd/provide/research/cycsrs/tpdb/TPDB-d9b80194f163/SRS_Standard/Secret_06

Termination w.r.t. Q of the given QTRS could be disproven:

0 QTRS

↳1 NonTerminationProof (⇒, 8013 ms)

↳2 NO

(0) Obligation:

Q restricted rewrite system:
The TRS R consists of the following rules:

Begin(b(x)) → Wait(Right1(x))
Begin(c(x)) → Wait(Right2(x))
Begin(a(x)) → Wait(Right3(x))
Begin(c(x)) → Wait(Right4(x))
Right1(a(End(x))) → Left(b(b(b(End(x)))))
Right2(a(End(x))) → Left(c(b(b(End(x)))))
Right3(b(End(x))) → Left(a(a(a(End(x)))))
Right4(b(End(x))) → Left(c(c(c(End(x)))))
Right1(a(x)) → Aa(Right1(x))
Right2(a(x)) → Aa(Right2(x))
Right3(a(x)) → Aa(Right3(x))
Right4(a(x)) → Aa(Right4(x))
Right1(b(x)) → Ab(Right1(x))
Right2(b(x)) → Ab(Right2(x))
Right3(b(x)) → Ab(Right3(x))
Right4(b(x)) → Ab(Right4(x))
Right1(c(x)) → Ac(Right1(x))
Right2(c(x)) → Ac(Right2(x))
Right3(c(x)) → Ac(Right3(x))
Right4(c(x)) → Ac(Right4(x))
Aa(Left(x)) → Left(a(x))
Ab(Left(x)) → Left(b(x))
Ac(Left(x)) → Left(c(x))
Wait(Left(x)) → Begin(x)
a(b(x)) → b(b(b(x)))
a(c(x)) → c(b(b(x)))
b(a(x)) → a(a(a(x)))
b(c(x)) → c(c(c(x)))
a(x) → x
b(x) → x
c(x) → x

Q is empty.

(1) NonTerminationProof (COMPLETE transformation)

We used the non-termination processor [OPPELT08] to show that the SRS problem is infinite.

Found the self-embedding DerivationStructure:

Wait Left a c b End → Wait Left a c b End

Wait Left a c b End → Wait Left a c b End
by OverlapClosure OC 3

Wait Left a c b End → Wait Aa Left c b End
by OverlapClosure OC 2
Wait Left → Begin
by original rule (OC 1)
Begin a c b End → Wait Aa Left c b End
by OverlapClosure OC 3
Begin a c b End → Wait Aa Left c b b End
by OverlapClosure OC 2
Begin a c b End → Wait Aa Right2 a End
by OverlapClosure OC 3
Begin a c b End → Wait Right2 a a End
by OverlapClosure OC 3
Begin a c b End → Begin c a a End
by OverlapClosure OC 3
Begin a c b End → Wait Left c a a End
by OverlapClosure OC 3
Begin a c b End → Wait Ac Left a a End
by OverlapClosure OC 2
Begin a → Wait Right3
by original rule (OC 1)
Right3 c b End → Ac Left a a End
by OverlapClosure OC 2
Right3 c → Ac Right3
by original rule (OC 1)
Right3 b End → Left a a End
by OverlapClosure OC 3
Right3 b End → Left a a a End
by original rule (OC 1)
a →
by original rule (OC 1)
Ac Left → Left c
by original rule (OC 1)
Wait Left → Begin
by original rule (OC 1)
Begin c → Wait Right2
by original rule (OC 1)
Right2 a → Aa Right2
by original rule (OC 1)
Right2 a End → Left c b b End
by original rule (OC 1)
b →
by original rule (OC 1)

Aa Left → Left a
by original rule (OC 1)

(0) Obligation:

(1) NonTerminationProof (COMPLETE transformation)

(2) NO