YES Termination w.r.t. Q proof of /home/cern_httpd/provide/research/cycsrs/tpdb/TPDB-d9b80194f163/SRS_Standard/Waldmann_07_size12/size-12-alpha-3-num-221.srs

(0) Obligation:

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

a(x) → x
a(b(x)) → b(b(c(a(x))))
b(b(x)) → a(x)
c(c(x)) → x

Q is empty.

(1) QTRS Reverse (EQUIVALENT transformation)

We applied the QTRS Reverse Processor [REVERSE].

(2) Obligation:

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

a(x) → x
b(a(x)) → a(c(b(b(x))))
b(b(x)) → a(x)
c(c(x)) → x

Q is empty.

(3) FlatCCProof (EQUIVALENT transformation)

We used flat context closure [ROOTLAB] As Q is empty the flat context closure was sound AND complete.

(4) Obligation:

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

a(a(x)) → a(x)
b(a(x)) → b(x)
c(a(x)) → c(x)
a(b(a(x))) → a(a(c(b(b(x)))))
b(b(a(x))) → b(a(c(b(b(x)))))
c(b(a(x))) → c(a(c(b(b(x)))))
a(b(b(x))) → a(a(x))
b(b(b(x))) → b(a(x))
c(b(b(x))) → c(a(x))
a(c(c(x))) → a(x)
b(c(c(x))) → b(x)
c(c(c(x))) → c(x)

Q is empty.

(5) RootLabelingProof (EQUIVALENT transformation)

We used plain root labeling [ROOTLAB] with the following heuristic: LabelAll: All function symbols get labeled
As Q is empty the root labeling was sound AND complete.

(6) Obligation:

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

a_{a_1}(a_{a_1}(x)) → a_{a_1}(x)
a_{a_1}(a_{b_1}(x)) → a_{b_1}(x)
a_{a_1}(a_{c_1}(x)) → a_{c_1}(x)
b_{a_1}(a_{a_1}(x)) → b_{a_1}(x)
b_{a_1}(a_{b_1}(x)) → b_{b_1}(x)
b_{a_1}(a_{c_1}(x)) → b_{c_1}(x)
c_{a_1}(a_{a_1}(x)) → c_{a_1}(x)
c_{a_1}(a_{b_1}(x)) → c_{b_1}(x)
c_{a_1}(a_{c_1}(x)) → c_{c_1}(x)
a_{b_1}(b_{a_1}(a_{a_1}(x))) → a_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{a_1}(x)))))
a_{b_1}(b_{a_1}(a_{b_1}(x))) → a_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{b_1}(x)))))
a_{b_1}(b_{a_1}(a_{c_1}(x))) → a_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{c_1}(x)))))
b_{b_1}(b_{a_1}(a_{a_1}(x))) → b_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{a_1}(x)))))
b_{b_1}(b_{a_1}(a_{b_1}(x))) → b_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{b_1}(x)))))
b_{b_1}(b_{a_1}(a_{c_1}(x))) → b_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{c_1}(x)))))
c_{b_1}(b_{a_1}(a_{a_1}(x))) → c_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{a_1}(x)))))
c_{b_1}(b_{a_1}(a_{b_1}(x))) → c_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{b_1}(x)))))
c_{b_1}(b_{a_1}(a_{c_1}(x))) → c_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{c_1}(x)))))
a_{b_1}(b_{b_1}(b_{a_1}(x))) → a_{a_1}(a_{a_1}(x))
a_{b_1}(b_{b_1}(b_{b_1}(x))) → a_{a_1}(a_{b_1}(x))
a_{b_1}(b_{b_1}(b_{c_1}(x))) → a_{a_1}(a_{c_1}(x))
b_{b_1}(b_{b_1}(b_{a_1}(x))) → b_{a_1}(a_{a_1}(x))
b_{b_1}(b_{b_1}(b_{b_1}(x))) → b_{a_1}(a_{b_1}(x))
b_{b_1}(b_{b_1}(b_{c_1}(x))) → b_{a_1}(a_{c_1}(x))
c_{b_1}(b_{b_1}(b_{a_1}(x))) → c_{a_1}(a_{a_1}(x))
c_{b_1}(b_{b_1}(b_{b_1}(x))) → c_{a_1}(a_{b_1}(x))
c_{b_1}(b_{b_1}(b_{c_1}(x))) → c_{a_1}(a_{c_1}(x))
a_{c_1}(c_{c_1}(c_{a_1}(x))) → a_{a_1}(x)
a_{c_1}(c_{c_1}(c_{b_1}(x))) → a_{b_1}(x)
a_{c_1}(c_{c_1}(c_{c_1}(x))) → a_{c_1}(x)
b_{c_1}(c_{c_1}(c_{a_1}(x))) → b_{a_1}(x)
b_{c_1}(c_{c_1}(c_{b_1}(x))) → b_{b_1}(x)
b_{c_1}(c_{c_1}(c_{c_1}(x))) → b_{c_1}(x)
c_{c_1}(c_{c_1}(c_{a_1}(x))) → c_{a_1}(x)
c_{c_1}(c_{c_1}(c_{b_1}(x))) → c_{b_1}(x)
c_{c_1}(c_{c_1}(c_{c_1}(x))) → c_{c_1}(x)

Q is empty.

(7) QTRSRRRProof (EQUIVALENT transformation)

Used ordering:
Polynomial interpretation [POLO]:

POL(a_{a_1}(x1)) = 2 + x1   
POL(a_{b_1}(x1)) = 2 + x1   
POL(a_{c_1}(x1)) = 1 + x1   
POL(b_{a_1}(x1)) = 1 + x1   
POL(b_{b_1}(x1)) = 1 + x1   
POL(b_{c_1}(x1)) = x1   
POL(c_{a_1}(x1)) = x1   
POL(c_{b_1}(x1)) = x1   
POL(c_{c_1}(x1)) = 1 + x1   
With this ordering the following rules can be removed by the rule removal processor [LPAR04] because they are oriented strictly:

a_{a_1}(a_{a_1}(x)) → a_{a_1}(x)
a_{a_1}(a_{b_1}(x)) → a_{b_1}(x)
a_{a_1}(a_{c_1}(x)) → a_{c_1}(x)
b_{a_1}(a_{a_1}(x)) → b_{a_1}(x)
b_{a_1}(a_{b_1}(x)) → b_{b_1}(x)
b_{a_1}(a_{c_1}(x)) → b_{c_1}(x)
c_{a_1}(a_{a_1}(x)) → c_{a_1}(x)
c_{a_1}(a_{b_1}(x)) → c_{b_1}(x)
a_{c_1}(c_{c_1}(c_{c_1}(x))) → a_{c_1}(x)
b_{c_1}(c_{c_1}(c_{c_1}(x))) → b_{c_1}(x)
c_{c_1}(c_{c_1}(c_{a_1}(x))) → c_{a_1}(x)
c_{c_1}(c_{c_1}(c_{b_1}(x))) → c_{b_1}(x)
c_{c_1}(c_{c_1}(c_{c_1}(x))) → c_{c_1}(x)


(8) Obligation:

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

c_{a_1}(a_{c_1}(x)) → c_{c_1}(x)
a_{b_1}(b_{a_1}(a_{a_1}(x))) → a_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{a_1}(x)))))
a_{b_1}(b_{a_1}(a_{b_1}(x))) → a_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{b_1}(x)))))
a_{b_1}(b_{a_1}(a_{c_1}(x))) → a_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{c_1}(x)))))
b_{b_1}(b_{a_1}(a_{a_1}(x))) → b_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{a_1}(x)))))
b_{b_1}(b_{a_1}(a_{b_1}(x))) → b_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{b_1}(x)))))
b_{b_1}(b_{a_1}(a_{c_1}(x))) → b_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{c_1}(x)))))
c_{b_1}(b_{a_1}(a_{a_1}(x))) → c_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{a_1}(x)))))
c_{b_1}(b_{a_1}(a_{b_1}(x))) → c_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{b_1}(x)))))
c_{b_1}(b_{a_1}(a_{c_1}(x))) → c_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{c_1}(x)))))
a_{b_1}(b_{b_1}(b_{a_1}(x))) → a_{a_1}(a_{a_1}(x))
a_{b_1}(b_{b_1}(b_{b_1}(x))) → a_{a_1}(a_{b_1}(x))
a_{b_1}(b_{b_1}(b_{c_1}(x))) → a_{a_1}(a_{c_1}(x))
b_{b_1}(b_{b_1}(b_{a_1}(x))) → b_{a_1}(a_{a_1}(x))
b_{b_1}(b_{b_1}(b_{b_1}(x))) → b_{a_1}(a_{b_1}(x))
b_{b_1}(b_{b_1}(b_{c_1}(x))) → b_{a_1}(a_{c_1}(x))
c_{b_1}(b_{b_1}(b_{a_1}(x))) → c_{a_1}(a_{a_1}(x))
c_{b_1}(b_{b_1}(b_{b_1}(x))) → c_{a_1}(a_{b_1}(x))
c_{b_1}(b_{b_1}(b_{c_1}(x))) → c_{a_1}(a_{c_1}(x))
a_{c_1}(c_{c_1}(c_{a_1}(x))) → a_{a_1}(x)
a_{c_1}(c_{c_1}(c_{b_1}(x))) → a_{b_1}(x)
b_{c_1}(c_{c_1}(c_{a_1}(x))) → b_{a_1}(x)
b_{c_1}(c_{c_1}(c_{b_1}(x))) → b_{b_1}(x)

Q is empty.

(9) DependencyPairsProof (EQUIVALENT transformation)

Using Dependency Pairs [AG00,LPAR04] we result in the following initial DP problem.

(10) Obligation:

Q DP problem:
The TRS P consists of the following rules:

A_{B_1}(b_{a_1}(a_{a_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{a_1}(x))))
A_{B_1}(b_{a_1}(a_{a_1}(x))) → C_{B_1}(b_{b_1}(b_{a_1}(x)))
A_{B_1}(b_{a_1}(a_{a_1}(x))) → B_{B_1}(b_{a_1}(x))
A_{B_1}(b_{a_1}(a_{b_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{b_1}(x))))
A_{B_1}(b_{a_1}(a_{b_1}(x))) → C_{B_1}(b_{b_1}(b_{b_1}(x)))
A_{B_1}(b_{a_1}(a_{b_1}(x))) → B_{B_1}(b_{b_1}(x))
A_{B_1}(b_{a_1}(a_{b_1}(x))) → B_{B_1}(x)
A_{B_1}(b_{a_1}(a_{c_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{c_1}(x))))
A_{B_1}(b_{a_1}(a_{c_1}(x))) → C_{B_1}(b_{b_1}(b_{c_1}(x)))
A_{B_1}(b_{a_1}(a_{c_1}(x))) → B_{B_1}(b_{c_1}(x))
A_{B_1}(b_{a_1}(a_{c_1}(x))) → B_{C_1}(x)
B_{B_1}(b_{a_1}(a_{a_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{a_1}(x))))
B_{B_1}(b_{a_1}(a_{a_1}(x))) → C_{B_1}(b_{b_1}(b_{a_1}(x)))
B_{B_1}(b_{a_1}(a_{a_1}(x))) → B_{B_1}(b_{a_1}(x))
B_{B_1}(b_{a_1}(a_{b_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{b_1}(x))))
B_{B_1}(b_{a_1}(a_{b_1}(x))) → C_{B_1}(b_{b_1}(b_{b_1}(x)))
B_{B_1}(b_{a_1}(a_{b_1}(x))) → B_{B_1}(b_{b_1}(x))
B_{B_1}(b_{a_1}(a_{b_1}(x))) → B_{B_1}(x)
B_{B_1}(b_{a_1}(a_{c_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{c_1}(x))))
B_{B_1}(b_{a_1}(a_{c_1}(x))) → C_{B_1}(b_{b_1}(b_{c_1}(x)))
B_{B_1}(b_{a_1}(a_{c_1}(x))) → B_{B_1}(b_{c_1}(x))
B_{B_1}(b_{a_1}(a_{c_1}(x))) → B_{C_1}(x)
C_{B_1}(b_{a_1}(a_{a_1}(x))) → C_{A_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{a_1}(x)))))
C_{B_1}(b_{a_1}(a_{a_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{a_1}(x))))
C_{B_1}(b_{a_1}(a_{a_1}(x))) → C_{B_1}(b_{b_1}(b_{a_1}(x)))
C_{B_1}(b_{a_1}(a_{a_1}(x))) → B_{B_1}(b_{a_1}(x))
C_{B_1}(b_{a_1}(a_{b_1}(x))) → C_{A_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{b_1}(x)))))
C_{B_1}(b_{a_1}(a_{b_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{b_1}(x))))
C_{B_1}(b_{a_1}(a_{b_1}(x))) → C_{B_1}(b_{b_1}(b_{b_1}(x)))
C_{B_1}(b_{a_1}(a_{b_1}(x))) → B_{B_1}(b_{b_1}(x))
C_{B_1}(b_{a_1}(a_{b_1}(x))) → B_{B_1}(x)
C_{B_1}(b_{a_1}(a_{c_1}(x))) → C_{A_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{c_1}(x)))))
C_{B_1}(b_{a_1}(a_{c_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{c_1}(x))))
C_{B_1}(b_{a_1}(a_{c_1}(x))) → C_{B_1}(b_{b_1}(b_{c_1}(x)))
C_{B_1}(b_{a_1}(a_{c_1}(x))) → B_{B_1}(b_{c_1}(x))
C_{B_1}(b_{a_1}(a_{c_1}(x))) → B_{C_1}(x)
A_{B_1}(b_{b_1}(b_{b_1}(x))) → A_{B_1}(x)
A_{B_1}(b_{b_1}(b_{c_1}(x))) → A_{C_1}(x)
B_{B_1}(b_{b_1}(b_{b_1}(x))) → A_{B_1}(x)
B_{B_1}(b_{b_1}(b_{c_1}(x))) → A_{C_1}(x)
C_{B_1}(b_{b_1}(b_{a_1}(x))) → C_{A_1}(a_{a_1}(x))
C_{B_1}(b_{b_1}(b_{b_1}(x))) → C_{A_1}(a_{b_1}(x))
C_{B_1}(b_{b_1}(b_{b_1}(x))) → A_{B_1}(x)
C_{B_1}(b_{b_1}(b_{c_1}(x))) → C_{A_1}(a_{c_1}(x))
C_{B_1}(b_{b_1}(b_{c_1}(x))) → A_{C_1}(x)
A_{C_1}(c_{c_1}(c_{b_1}(x))) → A_{B_1}(x)
B_{C_1}(c_{c_1}(c_{b_1}(x))) → B_{B_1}(x)

The TRS R consists of the following rules:

c_{a_1}(a_{c_1}(x)) → c_{c_1}(x)
a_{b_1}(b_{a_1}(a_{a_1}(x))) → a_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{a_1}(x)))))
a_{b_1}(b_{a_1}(a_{b_1}(x))) → a_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{b_1}(x)))))
a_{b_1}(b_{a_1}(a_{c_1}(x))) → a_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{c_1}(x)))))
b_{b_1}(b_{a_1}(a_{a_1}(x))) → b_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{a_1}(x)))))
b_{b_1}(b_{a_1}(a_{b_1}(x))) → b_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{b_1}(x)))))
b_{b_1}(b_{a_1}(a_{c_1}(x))) → b_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{c_1}(x)))))
c_{b_1}(b_{a_1}(a_{a_1}(x))) → c_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{a_1}(x)))))
c_{b_1}(b_{a_1}(a_{b_1}(x))) → c_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{b_1}(x)))))
c_{b_1}(b_{a_1}(a_{c_1}(x))) → c_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{c_1}(x)))))
a_{b_1}(b_{b_1}(b_{a_1}(x))) → a_{a_1}(a_{a_1}(x))
a_{b_1}(b_{b_1}(b_{b_1}(x))) → a_{a_1}(a_{b_1}(x))
a_{b_1}(b_{b_1}(b_{c_1}(x))) → a_{a_1}(a_{c_1}(x))
b_{b_1}(b_{b_1}(b_{a_1}(x))) → b_{a_1}(a_{a_1}(x))
b_{b_1}(b_{b_1}(b_{b_1}(x))) → b_{a_1}(a_{b_1}(x))
b_{b_1}(b_{b_1}(b_{c_1}(x))) → b_{a_1}(a_{c_1}(x))
c_{b_1}(b_{b_1}(b_{a_1}(x))) → c_{a_1}(a_{a_1}(x))
c_{b_1}(b_{b_1}(b_{b_1}(x))) → c_{a_1}(a_{b_1}(x))
c_{b_1}(b_{b_1}(b_{c_1}(x))) → c_{a_1}(a_{c_1}(x))
a_{c_1}(c_{c_1}(c_{a_1}(x))) → a_{a_1}(x)
a_{c_1}(c_{c_1}(c_{b_1}(x))) → a_{b_1}(x)
b_{c_1}(c_{c_1}(c_{a_1}(x))) → b_{a_1}(x)
b_{c_1}(c_{c_1}(c_{b_1}(x))) → b_{b_1}(x)

Q is empty.
We have to consider all minimal (P,Q,R)-chains.

(11) DependencyGraphProof (EQUIVALENT transformation)

The approximation of the Dependency Graph [LPAR04,FROCOS05,EDGSTAR] contains 1 SCC with 6 less nodes.

(12) Obligation:

Q DP problem:
The TRS P consists of the following rules:

A_{C_1}(c_{c_1}(c_{b_1}(x))) → A_{B_1}(x)
A_{B_1}(b_{a_1}(a_{a_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{a_1}(x))))
A_{B_1}(b_{a_1}(a_{a_1}(x))) → C_{B_1}(b_{b_1}(b_{a_1}(x)))
C_{B_1}(b_{a_1}(a_{a_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{a_1}(x))))
C_{B_1}(b_{a_1}(a_{a_1}(x))) → C_{B_1}(b_{b_1}(b_{a_1}(x)))
C_{B_1}(b_{a_1}(a_{a_1}(x))) → B_{B_1}(b_{a_1}(x))
B_{B_1}(b_{a_1}(a_{a_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{a_1}(x))))
B_{B_1}(b_{a_1}(a_{a_1}(x))) → C_{B_1}(b_{b_1}(b_{a_1}(x)))
C_{B_1}(b_{a_1}(a_{b_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{b_1}(x))))
C_{B_1}(b_{a_1}(a_{b_1}(x))) → C_{B_1}(b_{b_1}(b_{b_1}(x)))
C_{B_1}(b_{a_1}(a_{b_1}(x))) → B_{B_1}(b_{b_1}(x))
B_{B_1}(b_{a_1}(a_{a_1}(x))) → B_{B_1}(b_{a_1}(x))
B_{B_1}(b_{a_1}(a_{b_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{b_1}(x))))
B_{B_1}(b_{a_1}(a_{b_1}(x))) → C_{B_1}(b_{b_1}(b_{b_1}(x)))
C_{B_1}(b_{a_1}(a_{b_1}(x))) → B_{B_1}(x)
B_{B_1}(b_{a_1}(a_{b_1}(x))) → B_{B_1}(b_{b_1}(x))
B_{B_1}(b_{a_1}(a_{b_1}(x))) → B_{B_1}(x)
B_{B_1}(b_{a_1}(a_{c_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{c_1}(x))))
B_{B_1}(b_{a_1}(a_{c_1}(x))) → C_{B_1}(b_{b_1}(b_{c_1}(x)))
C_{B_1}(b_{a_1}(a_{c_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{c_1}(x))))
C_{B_1}(b_{a_1}(a_{c_1}(x))) → C_{B_1}(b_{b_1}(b_{c_1}(x)))
C_{B_1}(b_{a_1}(a_{c_1}(x))) → B_{B_1}(b_{c_1}(x))
B_{B_1}(b_{a_1}(a_{c_1}(x))) → B_{B_1}(b_{c_1}(x))
B_{B_1}(b_{a_1}(a_{c_1}(x))) → B_{C_1}(x)
B_{C_1}(c_{c_1}(c_{b_1}(x))) → B_{B_1}(x)
B_{B_1}(b_{b_1}(b_{b_1}(x))) → A_{B_1}(x)
A_{B_1}(b_{a_1}(a_{a_1}(x))) → B_{B_1}(b_{a_1}(x))
A_{B_1}(b_{a_1}(a_{b_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{b_1}(x))))
A_{B_1}(b_{a_1}(a_{b_1}(x))) → C_{B_1}(b_{b_1}(b_{b_1}(x)))
C_{B_1}(b_{a_1}(a_{c_1}(x))) → B_{C_1}(x)
C_{B_1}(b_{b_1}(b_{b_1}(x))) → A_{B_1}(x)
A_{B_1}(b_{a_1}(a_{b_1}(x))) → B_{B_1}(b_{b_1}(x))
B_{B_1}(b_{b_1}(b_{c_1}(x))) → A_{C_1}(x)
A_{B_1}(b_{a_1}(a_{b_1}(x))) → B_{B_1}(x)
A_{B_1}(b_{a_1}(a_{c_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{c_1}(x))))
A_{B_1}(b_{a_1}(a_{c_1}(x))) → C_{B_1}(b_{b_1}(b_{c_1}(x)))
C_{B_1}(b_{b_1}(b_{c_1}(x))) → A_{C_1}(x)
A_{B_1}(b_{a_1}(a_{c_1}(x))) → B_{B_1}(b_{c_1}(x))
A_{B_1}(b_{a_1}(a_{c_1}(x))) → B_{C_1}(x)
A_{B_1}(b_{b_1}(b_{b_1}(x))) → A_{B_1}(x)
A_{B_1}(b_{b_1}(b_{c_1}(x))) → A_{C_1}(x)

The TRS R consists of the following rules:

c_{a_1}(a_{c_1}(x)) → c_{c_1}(x)
a_{b_1}(b_{a_1}(a_{a_1}(x))) → a_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{a_1}(x)))))
a_{b_1}(b_{a_1}(a_{b_1}(x))) → a_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{b_1}(x)))))
a_{b_1}(b_{a_1}(a_{c_1}(x))) → a_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{c_1}(x)))))
b_{b_1}(b_{a_1}(a_{a_1}(x))) → b_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{a_1}(x)))))
b_{b_1}(b_{a_1}(a_{b_1}(x))) → b_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{b_1}(x)))))
b_{b_1}(b_{a_1}(a_{c_1}(x))) → b_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{c_1}(x)))))
c_{b_1}(b_{a_1}(a_{a_1}(x))) → c_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{a_1}(x)))))
c_{b_1}(b_{a_1}(a_{b_1}(x))) → c_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{b_1}(x)))))
c_{b_1}(b_{a_1}(a_{c_1}(x))) → c_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{c_1}(x)))))
a_{b_1}(b_{b_1}(b_{a_1}(x))) → a_{a_1}(a_{a_1}(x))
a_{b_1}(b_{b_1}(b_{b_1}(x))) → a_{a_1}(a_{b_1}(x))
a_{b_1}(b_{b_1}(b_{c_1}(x))) → a_{a_1}(a_{c_1}(x))
b_{b_1}(b_{b_1}(b_{a_1}(x))) → b_{a_1}(a_{a_1}(x))
b_{b_1}(b_{b_1}(b_{b_1}(x))) → b_{a_1}(a_{b_1}(x))
b_{b_1}(b_{b_1}(b_{c_1}(x))) → b_{a_1}(a_{c_1}(x))
c_{b_1}(b_{b_1}(b_{a_1}(x))) → c_{a_1}(a_{a_1}(x))
c_{b_1}(b_{b_1}(b_{b_1}(x))) → c_{a_1}(a_{b_1}(x))
c_{b_1}(b_{b_1}(b_{c_1}(x))) → c_{a_1}(a_{c_1}(x))
a_{c_1}(c_{c_1}(c_{a_1}(x))) → a_{a_1}(x)
a_{c_1}(c_{c_1}(c_{b_1}(x))) → a_{b_1}(x)
b_{c_1}(c_{c_1}(c_{a_1}(x))) → b_{a_1}(x)
b_{c_1}(c_{c_1}(c_{b_1}(x))) → b_{b_1}(x)

Q is empty.
We have to consider all minimal (P,Q,R)-chains.

(13) QDPOrderProof (EQUIVALENT transformation)

We use the reduction pair processor [LPAR04,JAR06].


The following pairs can be oriented strictly and are deleted.


A_{B_1}(b_{a_1}(a_{a_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{a_1}(x))))
A_{B_1}(b_{a_1}(a_{a_1}(x))) → C_{B_1}(b_{b_1}(b_{a_1}(x)))
C_{B_1}(b_{a_1}(a_{a_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{a_1}(x))))
C_{B_1}(b_{a_1}(a_{a_1}(x))) → C_{B_1}(b_{b_1}(b_{a_1}(x)))
C_{B_1}(b_{a_1}(a_{a_1}(x))) → B_{B_1}(b_{a_1}(x))
B_{B_1}(b_{a_1}(a_{a_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{a_1}(x))))
B_{B_1}(b_{a_1}(a_{a_1}(x))) → C_{B_1}(b_{b_1}(b_{a_1}(x)))
C_{B_1}(b_{a_1}(a_{b_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{b_1}(x))))
C_{B_1}(b_{a_1}(a_{b_1}(x))) → C_{B_1}(b_{b_1}(b_{b_1}(x)))
C_{B_1}(b_{a_1}(a_{b_1}(x))) → B_{B_1}(b_{b_1}(x))
B_{B_1}(b_{a_1}(a_{a_1}(x))) → B_{B_1}(b_{a_1}(x))
B_{B_1}(b_{a_1}(a_{b_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{b_1}(x))))
B_{B_1}(b_{a_1}(a_{b_1}(x))) → C_{B_1}(b_{b_1}(b_{b_1}(x)))
C_{B_1}(b_{a_1}(a_{b_1}(x))) → B_{B_1}(x)
B_{B_1}(b_{a_1}(a_{b_1}(x))) → B_{B_1}(b_{b_1}(x))
B_{B_1}(b_{a_1}(a_{b_1}(x))) → B_{B_1}(x)
B_{B_1}(b_{a_1}(a_{c_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{c_1}(x))))
B_{B_1}(b_{a_1}(a_{c_1}(x))) → C_{B_1}(b_{b_1}(b_{c_1}(x)))
C_{B_1}(b_{a_1}(a_{c_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{c_1}(x))))
C_{B_1}(b_{a_1}(a_{c_1}(x))) → C_{B_1}(b_{b_1}(b_{c_1}(x)))
C_{B_1}(b_{a_1}(a_{c_1}(x))) → B_{B_1}(b_{c_1}(x))
B_{B_1}(b_{a_1}(a_{c_1}(x))) → B_{B_1}(b_{c_1}(x))
B_{B_1}(b_{a_1}(a_{c_1}(x))) → B_{C_1}(x)
B_{C_1}(c_{c_1}(c_{b_1}(x))) → B_{B_1}(x)
B_{B_1}(b_{b_1}(b_{b_1}(x))) → A_{B_1}(x)
A_{B_1}(b_{a_1}(a_{a_1}(x))) → B_{B_1}(b_{a_1}(x))
A_{B_1}(b_{a_1}(a_{b_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{b_1}(x))))
A_{B_1}(b_{a_1}(a_{b_1}(x))) → C_{B_1}(b_{b_1}(b_{b_1}(x)))
C_{B_1}(b_{a_1}(a_{c_1}(x))) → B_{C_1}(x)
C_{B_1}(b_{b_1}(b_{b_1}(x))) → A_{B_1}(x)
A_{B_1}(b_{a_1}(a_{b_1}(x))) → B_{B_1}(b_{b_1}(x))
B_{B_1}(b_{b_1}(b_{c_1}(x))) → A_{C_1}(x)
A_{B_1}(b_{a_1}(a_{b_1}(x))) → B_{B_1}(x)
A_{B_1}(b_{a_1}(a_{c_1}(x))) → A_{C_1}(c_{b_1}(b_{b_1}(b_{c_1}(x))))
A_{B_1}(b_{a_1}(a_{c_1}(x))) → C_{B_1}(b_{b_1}(b_{c_1}(x)))
C_{B_1}(b_{b_1}(b_{c_1}(x))) → A_{C_1}(x)
A_{B_1}(b_{a_1}(a_{c_1}(x))) → B_{B_1}(b_{c_1}(x))
A_{B_1}(b_{a_1}(a_{c_1}(x))) → B_{C_1}(x)
A_{B_1}(b_{b_1}(b_{b_1}(x))) → A_{B_1}(x)
A_{B_1}(b_{b_1}(b_{c_1}(x))) → A_{C_1}(x)
The remaining pairs can at least be oriented weakly.
Used ordering: Polynomial Order [NEGPOLO,POLO] with Interpretation:
POL( B_{B_1}(x1) ) = max{0, 2x1 - 2}

POL( C_{B_1}(x1) ) = max{0, 2x1 - 2}

POL( A_{C_1}(x1) ) = 2x1

POL( c_{b_1}(x1) ) = max{0, x1 - 1}

POL( b_{b_1}(x1) ) = x1 + 1

POL( b_{a_1}(x1) ) = x1 + 1

POL( a_{a_1}(x1) ) = x1 + 2

POL( a_{c_1}(x1) ) = x1 + 2

POL( a_{b_1}(x1) ) = x1 + 2

POL( b_{c_1}(x1) ) = x1 + 1

POL( c_{a_1}(x1) ) = max{0, x1 - 1}

POL( c_{c_1}(x1) ) = x1 + 1

POL( A_{B_1}(x1) ) = 2x1

POL( B_{C_1}(x1) ) = 2x1 + 2


The following usable rules [FROCOS05] with respect to the argument filtering of the ordering [JAR06] were oriented:

b_{b_1}(b_{a_1}(a_{a_1}(x))) → b_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{a_1}(x)))))
b_{b_1}(b_{a_1}(a_{b_1}(x))) → b_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{b_1}(x)))))
b_{b_1}(b_{a_1}(a_{c_1}(x))) → b_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{c_1}(x)))))
c_{b_1}(b_{a_1}(a_{a_1}(x))) → c_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{a_1}(x)))))
c_{b_1}(b_{a_1}(a_{b_1}(x))) → c_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{b_1}(x)))))
c_{b_1}(b_{a_1}(a_{c_1}(x))) → c_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{c_1}(x)))))
c_{b_1}(b_{b_1}(b_{a_1}(x))) → c_{a_1}(a_{a_1}(x))
c_{b_1}(b_{b_1}(b_{b_1}(x))) → c_{a_1}(a_{b_1}(x))
c_{b_1}(b_{b_1}(b_{c_1}(x))) → c_{a_1}(a_{c_1}(x))
b_{b_1}(b_{b_1}(b_{a_1}(x))) → b_{a_1}(a_{a_1}(x))
b_{b_1}(b_{b_1}(b_{b_1}(x))) → b_{a_1}(a_{b_1}(x))
b_{b_1}(b_{b_1}(b_{c_1}(x))) → b_{a_1}(a_{c_1}(x))
b_{c_1}(c_{c_1}(c_{a_1}(x))) → b_{a_1}(x)
b_{c_1}(c_{c_1}(c_{b_1}(x))) → b_{b_1}(x)
a_{c_1}(c_{c_1}(c_{b_1}(x))) → a_{b_1}(x)
a_{b_1}(b_{a_1}(a_{a_1}(x))) → a_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{a_1}(x)))))
a_{b_1}(b_{a_1}(a_{b_1}(x))) → a_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{b_1}(x)))))
a_{b_1}(b_{a_1}(a_{c_1}(x))) → a_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{c_1}(x)))))
a_{b_1}(b_{b_1}(b_{b_1}(x))) → a_{a_1}(a_{b_1}(x))
a_{b_1}(b_{b_1}(b_{c_1}(x))) → a_{a_1}(a_{c_1}(x))
a_{c_1}(c_{c_1}(c_{a_1}(x))) → a_{a_1}(x)
a_{b_1}(b_{b_1}(b_{a_1}(x))) → a_{a_1}(a_{a_1}(x))
c_{a_1}(a_{c_1}(x)) → c_{c_1}(x)

(14) Obligation:

Q DP problem:
The TRS P consists of the following rules:

A_{C_1}(c_{c_1}(c_{b_1}(x))) → A_{B_1}(x)

The TRS R consists of the following rules:

c_{a_1}(a_{c_1}(x)) → c_{c_1}(x)
a_{b_1}(b_{a_1}(a_{a_1}(x))) → a_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{a_1}(x)))))
a_{b_1}(b_{a_1}(a_{b_1}(x))) → a_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{b_1}(x)))))
a_{b_1}(b_{a_1}(a_{c_1}(x))) → a_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{c_1}(x)))))
b_{b_1}(b_{a_1}(a_{a_1}(x))) → b_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{a_1}(x)))))
b_{b_1}(b_{a_1}(a_{b_1}(x))) → b_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{b_1}(x)))))
b_{b_1}(b_{a_1}(a_{c_1}(x))) → b_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{c_1}(x)))))
c_{b_1}(b_{a_1}(a_{a_1}(x))) → c_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{a_1}(x)))))
c_{b_1}(b_{a_1}(a_{b_1}(x))) → c_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{b_1}(x)))))
c_{b_1}(b_{a_1}(a_{c_1}(x))) → c_{a_1}(a_{c_1}(c_{b_1}(b_{b_1}(b_{c_1}(x)))))
a_{b_1}(b_{b_1}(b_{a_1}(x))) → a_{a_1}(a_{a_1}(x))
a_{b_1}(b_{b_1}(b_{b_1}(x))) → a_{a_1}(a_{b_1}(x))
a_{b_1}(b_{b_1}(b_{c_1}(x))) → a_{a_1}(a_{c_1}(x))
b_{b_1}(b_{b_1}(b_{a_1}(x))) → b_{a_1}(a_{a_1}(x))
b_{b_1}(b_{b_1}(b_{b_1}(x))) → b_{a_1}(a_{b_1}(x))
b_{b_1}(b_{b_1}(b_{c_1}(x))) → b_{a_1}(a_{c_1}(x))
c_{b_1}(b_{b_1}(b_{a_1}(x))) → c_{a_1}(a_{a_1}(x))
c_{b_1}(b_{b_1}(b_{b_1}(x))) → c_{a_1}(a_{b_1}(x))
c_{b_1}(b_{b_1}(b_{c_1}(x))) → c_{a_1}(a_{c_1}(x))
a_{c_1}(c_{c_1}(c_{a_1}(x))) → a_{a_1}(x)
a_{c_1}(c_{c_1}(c_{b_1}(x))) → a_{b_1}(x)
b_{c_1}(c_{c_1}(c_{a_1}(x))) → b_{a_1}(x)
b_{c_1}(c_{c_1}(c_{b_1}(x))) → b_{b_1}(x)

Q is empty.
We have to consider all minimal (P,Q,R)-chains.

(15) DependencyGraphProof (EQUIVALENT transformation)

The approximation of the Dependency Graph [LPAR04,FROCOS05,EDGSTAR] contains 0 SCCs with 1 less node.

(16) TRUE