Termination w.r.t. Q of the following Term Rewriting System could not be shown:
Q restricted rewrite system:
The TRS R consists of the following rules:
app2(app2(app2(sort, f), g), nil) -> nil
app2(app2(app2(sort, f), g), app2(app2(cons, x), y)) -> app2(app2(app2(app2(insert, f), g), app2(app2(app2(sort, f), g), y)), x)
app2(app2(app2(app2(insert, f), g), nil), y) -> app2(app2(cons, y), nil)
app2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> app2(app2(cons, app2(app2(f, x), y)), app2(app2(app2(app2(insert, f), g), z), app2(app2(g, x), y)))
app2(app2(max, 0), y) -> y
app2(app2(max, x), 0) -> x
app2(app2(max, app2(s, x)), app2(s, y)) -> app2(app2(max, x), y)
app2(app2(min, 0), y) -> 0
app2(app2(min, x), 0) -> 0
app2(app2(min, app2(s, x)), app2(s, y)) -> app2(app2(min, x), y)
app2(asort, z) -> app2(app2(app2(sort, min), max), z)
app2(dsort, z) -> app2(app2(app2(sort, max), min), z)
Q is empty.
↳ QTRS
↳ DependencyPairsProof
Q restricted rewrite system:
The TRS R consists of the following rules:
app2(app2(app2(sort, f), g), nil) -> nil
app2(app2(app2(sort, f), g), app2(app2(cons, x), y)) -> app2(app2(app2(app2(insert, f), g), app2(app2(app2(sort, f), g), y)), x)
app2(app2(app2(app2(insert, f), g), nil), y) -> app2(app2(cons, y), nil)
app2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> app2(app2(cons, app2(app2(f, x), y)), app2(app2(app2(app2(insert, f), g), z), app2(app2(g, x), y)))
app2(app2(max, 0), y) -> y
app2(app2(max, x), 0) -> x
app2(app2(max, app2(s, x)), app2(s, y)) -> app2(app2(max, x), y)
app2(app2(min, 0), y) -> 0
app2(app2(min, x), 0) -> 0
app2(app2(min, app2(s, x)), app2(s, y)) -> app2(app2(min, x), y)
app2(asort, z) -> app2(app2(app2(sort, min), max), z)
app2(dsort, z) -> app2(app2(app2(sort, max), min), z)
Q is empty.
Q DP problem:
The TRS P consists of the following rules:
APP2(asort, z) -> APP2(sort, min)
APP2(app2(app2(sort, f), g), app2(app2(cons, x), y)) -> APP2(app2(app2(sort, f), g), y)
APP2(dsort, z) -> APP2(sort, max)
APP2(app2(app2(sort, f), g), app2(app2(cons, x), y)) -> APP2(app2(app2(app2(insert, f), g), app2(app2(app2(sort, f), g), y)), x)
APP2(dsort, z) -> APP2(app2(sort, max), min)
APP2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> APP2(app2(app2(insert, f), g), z)
APP2(app2(app2(app2(insert, f), g), nil), y) -> APP2(cons, y)
APP2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> APP2(app2(cons, app2(app2(f, x), y)), app2(app2(app2(app2(insert, f), g), z), app2(app2(g, x), y)))
APP2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> APP2(app2(g, x), y)
APP2(app2(min, app2(s, x)), app2(s, y)) -> APP2(app2(min, x), y)
APP2(app2(max, app2(s, x)), app2(s, y)) -> APP2(app2(max, x), y)
APP2(asort, z) -> APP2(app2(app2(sort, min), max), z)
APP2(app2(app2(app2(insert, f), g), nil), y) -> APP2(app2(cons, y), nil)
APP2(app2(app2(sort, f), g), app2(app2(cons, x), y)) -> APP2(app2(insert, f), g)
APP2(app2(max, app2(s, x)), app2(s, y)) -> APP2(max, x)
APP2(asort, z) -> APP2(app2(sort, min), max)
APP2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> APP2(app2(f, x), y)
APP2(app2(min, app2(s, x)), app2(s, y)) -> APP2(min, x)
APP2(dsort, z) -> APP2(app2(app2(sort, max), min), z)
APP2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> APP2(f, x)
APP2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> APP2(app2(app2(app2(insert, f), g), z), app2(app2(g, x), y))
APP2(app2(app2(sort, f), g), app2(app2(cons, x), y)) -> APP2(app2(app2(insert, f), g), app2(app2(app2(sort, f), g), y))
APP2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> APP2(g, x)
APP2(app2(app2(sort, f), g), app2(app2(cons, x), y)) -> APP2(insert, f)
APP2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> APP2(cons, app2(app2(f, x), y))
The TRS R consists of the following rules:
app2(app2(app2(sort, f), g), nil) -> nil
app2(app2(app2(sort, f), g), app2(app2(cons, x), y)) -> app2(app2(app2(app2(insert, f), g), app2(app2(app2(sort, f), g), y)), x)
app2(app2(app2(app2(insert, f), g), nil), y) -> app2(app2(cons, y), nil)
app2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> app2(app2(cons, app2(app2(f, x), y)), app2(app2(app2(app2(insert, f), g), z), app2(app2(g, x), y)))
app2(app2(max, 0), y) -> y
app2(app2(max, x), 0) -> x
app2(app2(max, app2(s, x)), app2(s, y)) -> app2(app2(max, x), y)
app2(app2(min, 0), y) -> 0
app2(app2(min, x), 0) -> 0
app2(app2(min, app2(s, x)), app2(s, y)) -> app2(app2(min, x), y)
app2(asort, z) -> app2(app2(app2(sort, min), max), z)
app2(dsort, z) -> app2(app2(app2(sort, max), min), z)
Q is empty.
We have to consider all minimal (P,Q,R)-chains.
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
Q DP problem:
The TRS P consists of the following rules:
APP2(asort, z) -> APP2(sort, min)
APP2(app2(app2(sort, f), g), app2(app2(cons, x), y)) -> APP2(app2(app2(sort, f), g), y)
APP2(dsort, z) -> APP2(sort, max)
APP2(app2(app2(sort, f), g), app2(app2(cons, x), y)) -> APP2(app2(app2(app2(insert, f), g), app2(app2(app2(sort, f), g), y)), x)
APP2(dsort, z) -> APP2(app2(sort, max), min)
APP2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> APP2(app2(app2(insert, f), g), z)
APP2(app2(app2(app2(insert, f), g), nil), y) -> APP2(cons, y)
APP2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> APP2(app2(cons, app2(app2(f, x), y)), app2(app2(app2(app2(insert, f), g), z), app2(app2(g, x), y)))
APP2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> APP2(app2(g, x), y)
APP2(app2(min, app2(s, x)), app2(s, y)) -> APP2(app2(min, x), y)
APP2(app2(max, app2(s, x)), app2(s, y)) -> APP2(app2(max, x), y)
APP2(asort, z) -> APP2(app2(app2(sort, min), max), z)
APP2(app2(app2(app2(insert, f), g), nil), y) -> APP2(app2(cons, y), nil)
APP2(app2(app2(sort, f), g), app2(app2(cons, x), y)) -> APP2(app2(insert, f), g)
APP2(app2(max, app2(s, x)), app2(s, y)) -> APP2(max, x)
APP2(asort, z) -> APP2(app2(sort, min), max)
APP2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> APP2(app2(f, x), y)
APP2(app2(min, app2(s, x)), app2(s, y)) -> APP2(min, x)
APP2(dsort, z) -> APP2(app2(app2(sort, max), min), z)
APP2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> APP2(f, x)
APP2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> APP2(app2(app2(app2(insert, f), g), z), app2(app2(g, x), y))
APP2(app2(app2(sort, f), g), app2(app2(cons, x), y)) -> APP2(app2(app2(insert, f), g), app2(app2(app2(sort, f), g), y))
APP2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> APP2(g, x)
APP2(app2(app2(sort, f), g), app2(app2(cons, x), y)) -> APP2(insert, f)
APP2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> APP2(cons, app2(app2(f, x), y))
The TRS R consists of the following rules:
app2(app2(app2(sort, f), g), nil) -> nil
app2(app2(app2(sort, f), g), app2(app2(cons, x), y)) -> app2(app2(app2(app2(insert, f), g), app2(app2(app2(sort, f), g), y)), x)
app2(app2(app2(app2(insert, f), g), nil), y) -> app2(app2(cons, y), nil)
app2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> app2(app2(cons, app2(app2(f, x), y)), app2(app2(app2(app2(insert, f), g), z), app2(app2(g, x), y)))
app2(app2(max, 0), y) -> y
app2(app2(max, x), 0) -> x
app2(app2(max, app2(s, x)), app2(s, y)) -> app2(app2(max, x), y)
app2(app2(min, 0), y) -> 0
app2(app2(min, x), 0) -> 0
app2(app2(min, app2(s, x)), app2(s, y)) -> app2(app2(min, x), y)
app2(asort, z) -> app2(app2(app2(sort, min), max), z)
app2(dsort, z) -> app2(app2(app2(sort, max), min), z)
Q is empty.
We have to consider all minimal (P,Q,R)-chains.
The approximation of the Dependency Graph contains 3 SCCs with 14 less nodes.
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDPAfsSolverProof
↳ QDP
↳ QDP
Q DP problem:
The TRS P consists of the following rules:
APP2(app2(min, app2(s, x)), app2(s, y)) -> APP2(app2(min, x), y)
The TRS R consists of the following rules:
app2(app2(app2(sort, f), g), nil) -> nil
app2(app2(app2(sort, f), g), app2(app2(cons, x), y)) -> app2(app2(app2(app2(insert, f), g), app2(app2(app2(sort, f), g), y)), x)
app2(app2(app2(app2(insert, f), g), nil), y) -> app2(app2(cons, y), nil)
app2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> app2(app2(cons, app2(app2(f, x), y)), app2(app2(app2(app2(insert, f), g), z), app2(app2(g, x), y)))
app2(app2(max, 0), y) -> y
app2(app2(max, x), 0) -> x
app2(app2(max, app2(s, x)), app2(s, y)) -> app2(app2(max, x), y)
app2(app2(min, 0), y) -> 0
app2(app2(min, x), 0) -> 0
app2(app2(min, app2(s, x)), app2(s, y)) -> app2(app2(min, x), y)
app2(asort, z) -> app2(app2(app2(sort, min), max), z)
app2(dsort, z) -> app2(app2(app2(sort, max), min), z)
Q is empty.
We have to consider all minimal (P,Q,R)-chains.
By using an argument filtering and a montonic ordering, at least one Dependency Pair of this SCC can be strictly oriented.
APP2(app2(min, app2(s, x)), app2(s, y)) -> APP2(app2(min, x), y)
Used argument filtering: APP2(x1, x2) = x2
app2(x1, x2) = app1(x2)
s = s
Used ordering: Precedence:
trivial
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDPAfsSolverProof
↳ QDP
↳ PisEmptyProof
↳ QDP
↳ QDP
Q DP problem:
P is empty.
The TRS R consists of the following rules:
app2(app2(app2(sort, f), g), nil) -> nil
app2(app2(app2(sort, f), g), app2(app2(cons, x), y)) -> app2(app2(app2(app2(insert, f), g), app2(app2(app2(sort, f), g), y)), x)
app2(app2(app2(app2(insert, f), g), nil), y) -> app2(app2(cons, y), nil)
app2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> app2(app2(cons, app2(app2(f, x), y)), app2(app2(app2(app2(insert, f), g), z), app2(app2(g, x), y)))
app2(app2(max, 0), y) -> y
app2(app2(max, x), 0) -> x
app2(app2(max, app2(s, x)), app2(s, y)) -> app2(app2(max, x), y)
app2(app2(min, 0), y) -> 0
app2(app2(min, x), 0) -> 0
app2(app2(min, app2(s, x)), app2(s, y)) -> app2(app2(min, x), y)
app2(asort, z) -> app2(app2(app2(sort, min), max), z)
app2(dsort, z) -> app2(app2(app2(sort, max), min), z)
Q is empty.
We have to consider all minimal (P,Q,R)-chains.
The TRS P is empty. Hence, there is no (P,Q,R) chain.
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDP
↳ QDPAfsSolverProof
↳ QDP
Q DP problem:
The TRS P consists of the following rules:
APP2(app2(max, app2(s, x)), app2(s, y)) -> APP2(app2(max, x), y)
The TRS R consists of the following rules:
app2(app2(app2(sort, f), g), nil) -> nil
app2(app2(app2(sort, f), g), app2(app2(cons, x), y)) -> app2(app2(app2(app2(insert, f), g), app2(app2(app2(sort, f), g), y)), x)
app2(app2(app2(app2(insert, f), g), nil), y) -> app2(app2(cons, y), nil)
app2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> app2(app2(cons, app2(app2(f, x), y)), app2(app2(app2(app2(insert, f), g), z), app2(app2(g, x), y)))
app2(app2(max, 0), y) -> y
app2(app2(max, x), 0) -> x
app2(app2(max, app2(s, x)), app2(s, y)) -> app2(app2(max, x), y)
app2(app2(min, 0), y) -> 0
app2(app2(min, x), 0) -> 0
app2(app2(min, app2(s, x)), app2(s, y)) -> app2(app2(min, x), y)
app2(asort, z) -> app2(app2(app2(sort, min), max), z)
app2(dsort, z) -> app2(app2(app2(sort, max), min), z)
Q is empty.
We have to consider all minimal (P,Q,R)-chains.
By using an argument filtering and a montonic ordering, at least one Dependency Pair of this SCC can be strictly oriented.
APP2(app2(max, app2(s, x)), app2(s, y)) -> APP2(app2(max, x), y)
Used argument filtering: APP2(x1, x2) = x2
app2(x1, x2) = app1(x2)
s = s
Used ordering: Precedence:
trivial
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDP
↳ QDPAfsSolverProof
↳ QDP
↳ PisEmptyProof
↳ QDP
Q DP problem:
P is empty.
The TRS R consists of the following rules:
app2(app2(app2(sort, f), g), nil) -> nil
app2(app2(app2(sort, f), g), app2(app2(cons, x), y)) -> app2(app2(app2(app2(insert, f), g), app2(app2(app2(sort, f), g), y)), x)
app2(app2(app2(app2(insert, f), g), nil), y) -> app2(app2(cons, y), nil)
app2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> app2(app2(cons, app2(app2(f, x), y)), app2(app2(app2(app2(insert, f), g), z), app2(app2(g, x), y)))
app2(app2(max, 0), y) -> y
app2(app2(max, x), 0) -> x
app2(app2(max, app2(s, x)), app2(s, y)) -> app2(app2(max, x), y)
app2(app2(min, 0), y) -> 0
app2(app2(min, x), 0) -> 0
app2(app2(min, app2(s, x)), app2(s, y)) -> app2(app2(min, x), y)
app2(asort, z) -> app2(app2(app2(sort, min), max), z)
app2(dsort, z) -> app2(app2(app2(sort, max), min), z)
Q is empty.
We have to consider all minimal (P,Q,R)-chains.
The TRS P is empty. Hence, there is no (P,Q,R) chain.
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDP
↳ QDP
Q DP problem:
The TRS P consists of the following rules:
APP2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> APP2(app2(g, x), y)
APP2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> APP2(app2(app2(app2(insert, f), g), z), app2(app2(g, x), y))
APP2(app2(app2(sort, f), g), app2(app2(cons, x), y)) -> APP2(app2(app2(sort, f), g), y)
APP2(asort, z) -> APP2(app2(app2(sort, min), max), z)
APP2(app2(app2(sort, f), g), app2(app2(cons, x), y)) -> APP2(app2(app2(app2(insert, f), g), app2(app2(app2(sort, f), g), y)), x)
APP2(dsort, z) -> APP2(app2(app2(sort, max), min), z)
APP2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> APP2(app2(f, x), y)
APP2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> APP2(g, x)
APP2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> APP2(f, x)
The TRS R consists of the following rules:
app2(app2(app2(sort, f), g), nil) -> nil
app2(app2(app2(sort, f), g), app2(app2(cons, x), y)) -> app2(app2(app2(app2(insert, f), g), app2(app2(app2(sort, f), g), y)), x)
app2(app2(app2(app2(insert, f), g), nil), y) -> app2(app2(cons, y), nil)
app2(app2(app2(app2(insert, f), g), app2(app2(cons, x), z)), y) -> app2(app2(cons, app2(app2(f, x), y)), app2(app2(app2(app2(insert, f), g), z), app2(app2(g, x), y)))
app2(app2(max, 0), y) -> y
app2(app2(max, x), 0) -> x
app2(app2(max, app2(s, x)), app2(s, y)) -> app2(app2(max, x), y)
app2(app2(min, 0), y) -> 0
app2(app2(min, x), 0) -> 0
app2(app2(min, app2(s, x)), app2(s, y)) -> app2(app2(min, x), y)
app2(asort, z) -> app2(app2(app2(sort, min), max), z)
app2(dsort, z) -> app2(app2(app2(sort, max), min), z)
Q is empty.
We have to consider all minimal (P,Q,R)-chains.