Termination w.r.t. Q proof of TRS/higher-order/BirdHamming.trs

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(if, true), xs), ys) -> xs
app₂(app₂(app₂(if, false), xs), ys) -> ys
app₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> app₂(app₂(lt, x), y)
app₂(app₂(lt, 0), app₂(s, y)) -> true
app₂(app₂(lt, y), 0) -> false
app₂(app₂(eq, x), x) -> true
app₂(app₂(eq, app₂(s, x)), 0) -> false
app₂(app₂(eq, 0), app₂(s, x)) -> false
app₂(app₂(merge, xs), nil) -> xs
app₂(app₂(merge, nil), ys) -> ys
app₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> app₂(app₂(app₂(if, app₂(app₂(lt, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys)))), app₂(app₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys))), app₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys))))
app₂(app₂(map, f), nil) -> nil
app₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> app₂(app₂(cons, app₂(f, x)), app₂(app₂(map, f), xs))
app₂(app₂(mult, 0), x) -> 0
app₂(app₂(mult, app₂(s, x)), y) -> app₂(app₂(plus, y), app₂(app₂(mult, x), y))
app₂(app₂(plus, 0), x) -> 0
app₂(app₂(plus, app₂(s, x)), y) -> app₂(s, app₂(app₂(plus, x), y))
list1 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, 0)))), hamming)
list2 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, 0))))), hamming)
list3 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0))))))), hamming)
hamming -> app₂(app₂(cons, app₂(s, 0)), app₂(app₂(merge, list1), app₂(app₂(merge, list2), list3)))

Q is empty.

↳ QTRS

  ↳ DependencyPairsProof

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

app₂(app₂(app₂(if, true), xs), ys) -> xs
app₂(app₂(app₂(if, false), xs), ys) -> ys
app₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> app₂(app₂(lt, x), y)
app₂(app₂(lt, 0), app₂(s, y)) -> true
app₂(app₂(lt, y), 0) -> false
app₂(app₂(eq, x), x) -> true
app₂(app₂(eq, app₂(s, x)), 0) -> false
app₂(app₂(eq, 0), app₂(s, x)) -> false
app₂(app₂(merge, xs), nil) -> xs
app₂(app₂(merge, nil), ys) -> ys
app₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> app₂(app₂(app₂(if, app₂(app₂(lt, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys)))), app₂(app₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys))), app₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys))))
app₂(app₂(map, f), nil) -> nil
app₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> app₂(app₂(cons, app₂(f, x)), app₂(app₂(map, f), xs))
app₂(app₂(mult, 0), x) -> 0
app₂(app₂(mult, app₂(s, x)), y) -> app₂(app₂(plus, y), app₂(app₂(mult, x), y))
app₂(app₂(plus, 0), x) -> 0
app₂(app₂(plus, app₂(s, x)), y) -> app₂(s, app₂(app₂(plus, x), y))
list1 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, 0)))), hamming)
list2 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, 0))))), hamming)
list3 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0))))))), hamming)
hamming -> app₂(app₂(cons, app₂(s, 0)), app₂(app₂(merge, list1), app₂(app₂(merge, list2), list3)))

Q is empty.

Using Dependency Pairs [1,13] we result in the following initial DP problem:
Q DP problem:
The TRS P consists of the following rules:

APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(merge, xs), app₂(app₂(cons, y), ys))
LIST2 -> APP₂(s, 0)
APP₂(app₂(plus, app₂(s, x)), y) -> APP₂(s, app₂(app₂(plus, x), y))
APP₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> APP₂(app₂(cons, app₂(f, x)), app₂(app₂(map, f), xs))
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(if, app₂(app₂(lt, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys))))
LIST3 -> HAMMING
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(lt, x)
HAMMING -> APP₂(app₂(cons, app₂(s, 0)), app₂(app₂(merge, list1), app₂(app₂(merge, list2), list3)))
HAMMING -> LIST3
LIST3 -> APP₂(s, 0)
LIST1 -> HAMMING
APP₂(app₂(mult, app₂(s, x)), y) -> APP₂(app₂(plus, y), app₂(app₂(mult, x), y))
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys))), app₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys)))
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(eq, x)
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys)))
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys))
LIST1 -> APP₂(map, app₂(mult, app₂(s, app₂(s, 0))))
APP₂(app₂(plus, app₂(s, x)), y) -> APP₂(app₂(plus, x), y)
APP₂(app₂(mult, app₂(s, x)), y) -> APP₂(plus, y)
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(lt, x), y)
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(merge, app₂(app₂(cons, x), xs)), ys)
HAMMING -> APP₂(merge, list2)
APP₂(app₂(mult, app₂(s, x)), y) -> APP₂(mult, x)
LIST3 -> APP₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0)))))
APP₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> APP₂(cons, app₂(f, x))
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(merge, xs)
LIST2 -> APP₂(s, app₂(s, app₂(s, 0)))
HAMMING -> APP₂(s, 0)
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(eq, x), y)
LIST2 -> APP₂(s, app₂(s, 0))
LIST1 -> APP₂(mult, app₂(s, app₂(s, 0)))
LIST2 -> APP₂(mult, app₂(s, app₂(s, app₂(s, 0))))
HAMMING -> APP₂(app₂(merge, list1), app₂(app₂(merge, list2), list3))
HAMMING -> LIST2
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys)))
LIST1 -> APP₂(app₂(map, app₂(mult, app₂(s, app₂(s, 0)))), hamming)
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(merge, xs), ys)
APP₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> APP₂(lt, x)
HAMMING -> APP₂(cons, app₂(s, 0))
APP₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> APP₂(f, x)
APP₂(app₂(mult, app₂(s, x)), y) -> APP₂(app₂(mult, x), y)
LIST2 -> HAMMING
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(if, app₂(app₂(eq, x), y))
APP₂(app₂(plus, app₂(s, x)), y) -> APP₂(plus, x)
LIST3 -> APP₂(s, app₂(s, 0))
APP₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> APP₂(app₂(lt, x), y)
LIST1 -> APP₂(s, app₂(s, 0))
LIST3 -> APP₂(s, app₂(s, app₂(s, app₂(s, 0))))
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(if, app₂(app₂(lt, x), y))
HAMMING -> APP₂(app₂(merge, list2), list3)
HAMMING -> LIST1
LIST2 -> APP₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, 0))))), hamming)
LIST3 -> APP₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0)))))))
APP₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> APP₂(app₂(map, f), xs)
LIST3 -> APP₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0))))))
HAMMING -> APP₂(merge, list1)
LIST3 -> APP₂(s, app₂(s, app₂(s, 0)))
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(app₂(if, app₂(app₂(lt, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys)))), app₂(app₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys))), app₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys))))
LIST3 -> APP₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0))))))), hamming)
LIST2 -> APP₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, 0)))))
LIST1 -> APP₂(s, 0)
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(cons, x), app₂(app₂(merge, xs), ys))

The TRS R consists of the following rules:

app₂(app₂(app₂(if, true), xs), ys) -> xs
app₂(app₂(app₂(if, false), xs), ys) -> ys
app₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> app₂(app₂(lt, x), y)
app₂(app₂(lt, 0), app₂(s, y)) -> true
app₂(app₂(lt, y), 0) -> false
app₂(app₂(eq, x), x) -> true
app₂(app₂(eq, app₂(s, x)), 0) -> false
app₂(app₂(eq, 0), app₂(s, x)) -> false
app₂(app₂(merge, xs), nil) -> xs
app₂(app₂(merge, nil), ys) -> ys
app₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> app₂(app₂(app₂(if, app₂(app₂(lt, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys)))), app₂(app₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys))), app₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys))))
app₂(app₂(map, f), nil) -> nil
app₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> app₂(app₂(cons, app₂(f, x)), app₂(app₂(map, f), xs))
app₂(app₂(mult, 0), x) -> 0
app₂(app₂(mult, app₂(s, x)), y) -> app₂(app₂(plus, y), app₂(app₂(mult, x), y))
app₂(app₂(plus, 0), x) -> 0
app₂(app₂(plus, app₂(s, x)), y) -> app₂(s, app₂(app₂(plus, x), y))
list1 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, 0)))), hamming)
list2 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, 0))))), hamming)
list3 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0))))))), hamming)
hamming -> app₂(app₂(cons, app₂(s, 0)), app₂(app₂(merge, list1), app₂(app₂(merge, list2), list3)))

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(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(merge, xs), app₂(app₂(cons, y), ys))
LIST2 -> APP₂(s, 0)
APP₂(app₂(plus, app₂(s, x)), y) -> APP₂(s, app₂(app₂(plus, x), y))
APP₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> APP₂(app₂(cons, app₂(f, x)), app₂(app₂(map, f), xs))
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(if, app₂(app₂(lt, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys))))
LIST3 -> HAMMING
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(lt, x)
HAMMING -> APP₂(app₂(cons, app₂(s, 0)), app₂(app₂(merge, list1), app₂(app₂(merge, list2), list3)))
HAMMING -> LIST3
LIST3 -> APP₂(s, 0)
LIST1 -> HAMMING
APP₂(app₂(mult, app₂(s, x)), y) -> APP₂(app₂(plus, y), app₂(app₂(mult, x), y))
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys))), app₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys)))
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(eq, x)
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys)))
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys))
LIST1 -> APP₂(map, app₂(mult, app₂(s, app₂(s, 0))))
APP₂(app₂(plus, app₂(s, x)), y) -> APP₂(app₂(plus, x), y)
APP₂(app₂(mult, app₂(s, x)), y) -> APP₂(plus, y)
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(lt, x), y)
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(merge, app₂(app₂(cons, x), xs)), ys)
HAMMING -> APP₂(merge, list2)
APP₂(app₂(mult, app₂(s, x)), y) -> APP₂(mult, x)
LIST3 -> APP₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0)))))
APP₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> APP₂(cons, app₂(f, x))
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(merge, xs)
LIST2 -> APP₂(s, app₂(s, app₂(s, 0)))
HAMMING -> APP₂(s, 0)
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(eq, x), y)
LIST2 -> APP₂(s, app₂(s, 0))
LIST1 -> APP₂(mult, app₂(s, app₂(s, 0)))
LIST2 -> APP₂(mult, app₂(s, app₂(s, app₂(s, 0))))
HAMMING -> APP₂(app₂(merge, list1), app₂(app₂(merge, list2), list3))
HAMMING -> LIST2
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys)))
LIST1 -> APP₂(app₂(map, app₂(mult, app₂(s, app₂(s, 0)))), hamming)
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(merge, xs), ys)
APP₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> APP₂(lt, x)
HAMMING -> APP₂(cons, app₂(s, 0))
APP₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> APP₂(f, x)
APP₂(app₂(mult, app₂(s, x)), y) -> APP₂(app₂(mult, x), y)
LIST2 -> HAMMING
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(if, app₂(app₂(eq, x), y))
APP₂(app₂(plus, app₂(s, x)), y) -> APP₂(plus, x)
LIST3 -> APP₂(s, app₂(s, 0))
APP₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> APP₂(app₂(lt, x), y)
LIST1 -> APP₂(s, app₂(s, 0))
LIST3 -> APP₂(s, app₂(s, app₂(s, app₂(s, 0))))
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(if, app₂(app₂(lt, x), y))
HAMMING -> APP₂(app₂(merge, list2), list3)
HAMMING -> LIST1
LIST2 -> APP₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, 0))))), hamming)
LIST3 -> APP₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0)))))))
APP₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> APP₂(app₂(map, f), xs)
LIST3 -> APP₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0))))))
HAMMING -> APP₂(merge, list1)
LIST3 -> APP₂(s, app₂(s, app₂(s, 0)))
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(app₂(if, app₂(app₂(lt, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys)))), app₂(app₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys))), app₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys))))
LIST3 -> APP₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0))))))), hamming)
LIST2 -> APP₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, 0)))))
LIST1 -> APP₂(s, 0)
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(cons, x), app₂(app₂(merge, xs), ys))

The TRS R consists of the following rules:

app₂(app₂(app₂(if, true), xs), ys) -> xs
app₂(app₂(app₂(if, false), xs), ys) -> ys
app₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> app₂(app₂(lt, x), y)
app₂(app₂(lt, 0), app₂(s, y)) -> true
app₂(app₂(lt, y), 0) -> false
app₂(app₂(eq, x), x) -> true
app₂(app₂(eq, app₂(s, x)), 0) -> false
app₂(app₂(eq, 0), app₂(s, x)) -> false
app₂(app₂(merge, xs), nil) -> xs
app₂(app₂(merge, nil), ys) -> ys
app₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> app₂(app₂(app₂(if, app₂(app₂(lt, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys)))), app₂(app₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys))), app₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys))))
app₂(app₂(map, f), nil) -> nil
app₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> app₂(app₂(cons, app₂(f, x)), app₂(app₂(map, f), xs))
app₂(app₂(mult, 0), x) -> 0
app₂(app₂(mult, app₂(s, x)), y) -> app₂(app₂(plus, y), app₂(app₂(mult, x), y))
app₂(app₂(plus, 0), x) -> 0
app₂(app₂(plus, app₂(s, x)), y) -> app₂(s, app₂(app₂(plus, x), y))
list1 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, 0)))), hamming)
list2 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, 0))))), hamming)
list3 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0))))))), hamming)
hamming -> app₂(app₂(cons, app₂(s, 0)), app₂(app₂(merge, list1), app₂(app₂(merge, list2), list3)))

Q is empty.
We have to consider all minimal (P,Q,R)-chains.
The approximation of the Dependency Graph [13,14,18] contains 6 SCCs with 48 less nodes.

↳ QTRS

  ↳ DependencyPairsProof

    ↳ QDP

      ↳ DependencyGraphProof

        ↳ AND

          ↳ QDP

            ↳ QDPOrderProof

          ↳ QDP

          ↳ QDP

          ↳ QDP

          ↳ QDP

          ↳ QDP

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

APP₂(app₂(plus, app₂(s, x)), y) -> APP₂(app₂(plus, x), y)

The TRS R consists of the following rules:

app₂(app₂(app₂(if, true), xs), ys) -> xs
app₂(app₂(app₂(if, false), xs), ys) -> ys
app₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> app₂(app₂(lt, x), y)
app₂(app₂(lt, 0), app₂(s, y)) -> true
app₂(app₂(lt, y), 0) -> false
app₂(app₂(eq, x), x) -> true
app₂(app₂(eq, app₂(s, x)), 0) -> false
app₂(app₂(eq, 0), app₂(s, x)) -> false
app₂(app₂(merge, xs), nil) -> xs
app₂(app₂(merge, nil), ys) -> ys
app₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> app₂(app₂(app₂(if, app₂(app₂(lt, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys)))), app₂(app₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys))), app₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys))))
app₂(app₂(map, f), nil) -> nil
app₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> app₂(app₂(cons, app₂(f, x)), app₂(app₂(map, f), xs))
app₂(app₂(mult, 0), x) -> 0
app₂(app₂(mult, app₂(s, x)), y) -> app₂(app₂(plus, y), app₂(app₂(mult, x), y))
app₂(app₂(plus, 0), x) -> 0
app₂(app₂(plus, app₂(s, x)), y) -> app₂(s, app₂(app₂(plus, x), y))
list1 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, 0)))), hamming)
list2 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, 0))))), hamming)
list3 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0))))))), hamming)
hamming -> app₂(app₂(cons, app₂(s, 0)), app₂(app₂(merge, list1), app₂(app₂(merge, list2), list3)))

Q is empty.
We have to consider all minimal (P,Q,R)-chains.
We use the reduction pair processor [13].

The following pairs can be oriented strictly and are deleted.

APP₂(app₂(plus, app₂(s, x)), y) -> APP₂(app₂(plus, x), y)

The remaining pairs can at least be oriented weakly.
none
Used ordering: Polynomial interpretation [21]:

POL(APP₂(x₁, x₂)) = x₁
POL(app₂(x₁, x₂)) = x₁ + x₂
POL(plus) = 0
POL(s) = 1

The following usable rules [14] were oriented: none

↳ QTRS

  ↳ DependencyPairsProof

    ↳ QDP

      ↳ DependencyGraphProof

        ↳ AND

          ↳ QDP

            ↳ QDPOrderProof

              ↳ QDP

                ↳ PisEmptyProof

          ↳ QDP

          ↳ QDP

          ↳ QDP

          ↳ QDP

          ↳ QDP

Q DP problem:
P is empty.
The TRS R consists of the following rules:

app₂(app₂(app₂(if, true), xs), ys) -> xs
app₂(app₂(app₂(if, false), xs), ys) -> ys
app₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> app₂(app₂(lt, x), y)
app₂(app₂(lt, 0), app₂(s, y)) -> true
app₂(app₂(lt, y), 0) -> false
app₂(app₂(eq, x), x) -> true
app₂(app₂(eq, app₂(s, x)), 0) -> false
app₂(app₂(eq, 0), app₂(s, x)) -> false
app₂(app₂(merge, xs), nil) -> xs
app₂(app₂(merge, nil), ys) -> ys
app₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> app₂(app₂(app₂(if, app₂(app₂(lt, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys)))), app₂(app₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys))), app₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys))))
app₂(app₂(map, f), nil) -> nil
app₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> app₂(app₂(cons, app₂(f, x)), app₂(app₂(map, f), xs))
app₂(app₂(mult, 0), x) -> 0
app₂(app₂(mult, app₂(s, x)), y) -> app₂(app₂(plus, y), app₂(app₂(mult, x), y))
app₂(app₂(plus, 0), x) -> 0
app₂(app₂(plus, app₂(s, x)), y) -> app₂(s, app₂(app₂(plus, x), y))
list1 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, 0)))), hamming)
list2 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, 0))))), hamming)
list3 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0))))))), hamming)
hamming -> app₂(app₂(cons, app₂(s, 0)), app₂(app₂(merge, list1), app₂(app₂(merge, list2), list3)))

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

            ↳ QDPOrderProof

          ↳ QDP

          ↳ QDP

          ↳ QDP

          ↳ QDP

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

APP₂(app₂(mult, app₂(s, x)), y) -> APP₂(app₂(mult, x), y)

The TRS R consists of the following rules:

app₂(app₂(app₂(if, true), xs), ys) -> xs
app₂(app₂(app₂(if, false), xs), ys) -> ys
app₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> app₂(app₂(lt, x), y)
app₂(app₂(lt, 0), app₂(s, y)) -> true
app₂(app₂(lt, y), 0) -> false
app₂(app₂(eq, x), x) -> true
app₂(app₂(eq, app₂(s, x)), 0) -> false
app₂(app₂(eq, 0), app₂(s, x)) -> false
app₂(app₂(merge, xs), nil) -> xs
app₂(app₂(merge, nil), ys) -> ys
app₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> app₂(app₂(app₂(if, app₂(app₂(lt, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys)))), app₂(app₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys))), app₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys))))
app₂(app₂(map, f), nil) -> nil
app₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> app₂(app₂(cons, app₂(f, x)), app₂(app₂(map, f), xs))
app₂(app₂(mult, 0), x) -> 0
app₂(app₂(mult, app₂(s, x)), y) -> app₂(app₂(plus, y), app₂(app₂(mult, x), y))
app₂(app₂(plus, 0), x) -> 0
app₂(app₂(plus, app₂(s, x)), y) -> app₂(s, app₂(app₂(plus, x), y))
list1 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, 0)))), hamming)
list2 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, 0))))), hamming)
list3 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0))))))), hamming)
hamming -> app₂(app₂(cons, app₂(s, 0)), app₂(app₂(merge, list1), app₂(app₂(merge, list2), list3)))

Q is empty.
We have to consider all minimal (P,Q,R)-chains.
We use the reduction pair processor [13].

The following pairs can be oriented strictly and are deleted.

APP₂(app₂(mult, app₂(s, x)), y) -> APP₂(app₂(mult, x), y)

The remaining pairs can at least be oriented weakly.
none
Used ordering: Polynomial interpretation [21]:

POL(APP₂(x₁, x₂)) = x₁
POL(app₂(x₁, x₂)) = x₁ + x₂
POL(mult) = 0
POL(s) = 1

The following usable rules [14] were oriented: none

↳ QTRS

  ↳ DependencyPairsProof

    ↳ QDP

      ↳ DependencyGraphProof

        ↳ AND

          ↳ QDP

          ↳ QDP

            ↳ QDPOrderProof

              ↳ QDP

                ↳ PisEmptyProof

          ↳ QDP

          ↳ QDP

          ↳ QDP

          ↳ QDP

Q DP problem:
P is empty.
The TRS R consists of the following rules:

app₂(app₂(app₂(if, true), xs), ys) -> xs
app₂(app₂(app₂(if, false), xs), ys) -> ys
app₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> app₂(app₂(lt, x), y)
app₂(app₂(lt, 0), app₂(s, y)) -> true
app₂(app₂(lt, y), 0) -> false
app₂(app₂(eq, x), x) -> true
app₂(app₂(eq, app₂(s, x)), 0) -> false
app₂(app₂(eq, 0), app₂(s, x)) -> false
app₂(app₂(merge, xs), nil) -> xs
app₂(app₂(merge, nil), ys) -> ys
app₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> app₂(app₂(app₂(if, app₂(app₂(lt, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys)))), app₂(app₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys))), app₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys))))
app₂(app₂(map, f), nil) -> nil
app₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> app₂(app₂(cons, app₂(f, x)), app₂(app₂(map, f), xs))
app₂(app₂(mult, 0), x) -> 0
app₂(app₂(mult, app₂(s, x)), y) -> app₂(app₂(plus, y), app₂(app₂(mult, x), y))
app₂(app₂(plus, 0), x) -> 0
app₂(app₂(plus, app₂(s, x)), y) -> app₂(s, app₂(app₂(plus, x), y))
list1 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, 0)))), hamming)
list2 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, 0))))), hamming)
list3 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0))))))), hamming)
hamming -> app₂(app₂(cons, app₂(s, 0)), app₂(app₂(merge, list1), app₂(app₂(merge, list2), list3)))

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

            ↳ QDPOrderProof

          ↳ QDP

          ↳ QDP

          ↳ QDP

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

APP₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> APP₂(app₂(lt, x), y)

The TRS R consists of the following rules:

app₂(app₂(app₂(if, true), xs), ys) -> xs
app₂(app₂(app₂(if, false), xs), ys) -> ys
app₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> app₂(app₂(lt, x), y)
app₂(app₂(lt, 0), app₂(s, y)) -> true
app₂(app₂(lt, y), 0) -> false
app₂(app₂(eq, x), x) -> true
app₂(app₂(eq, app₂(s, x)), 0) -> false
app₂(app₂(eq, 0), app₂(s, x)) -> false
app₂(app₂(merge, xs), nil) -> xs
app₂(app₂(merge, nil), ys) -> ys
app₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> app₂(app₂(app₂(if, app₂(app₂(lt, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys)))), app₂(app₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys))), app₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys))))
app₂(app₂(map, f), nil) -> nil
app₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> app₂(app₂(cons, app₂(f, x)), app₂(app₂(map, f), xs))
app₂(app₂(mult, 0), x) -> 0
app₂(app₂(mult, app₂(s, x)), y) -> app₂(app₂(plus, y), app₂(app₂(mult, x), y))
app₂(app₂(plus, 0), x) -> 0
app₂(app₂(plus, app₂(s, x)), y) -> app₂(s, app₂(app₂(plus, x), y))
list1 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, 0)))), hamming)
list2 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, 0))))), hamming)
list3 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0))))))), hamming)
hamming -> app₂(app₂(cons, app₂(s, 0)), app₂(app₂(merge, list1), app₂(app₂(merge, list2), list3)))

Q is empty.
We have to consider all minimal (P,Q,R)-chains.
We use the reduction pair processor [13].

The following pairs can be oriented strictly and are deleted.

APP₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> APP₂(app₂(lt, x), y)

The remaining pairs can at least be oriented weakly.
none
Used ordering: Polynomial interpretation [21]:

POL(APP₂(x₁, x₂)) = x₂
POL(app₂(x₁, x₂)) = x₁ + x₂
POL(lt) = 0
POL(s) = 1

The following usable rules [14] were oriented: none

↳ QTRS

  ↳ DependencyPairsProof

    ↳ QDP

      ↳ DependencyGraphProof

        ↳ AND

          ↳ QDP

          ↳ QDP

          ↳ QDP

            ↳ QDPOrderProof

              ↳ QDP

                ↳ PisEmptyProof

          ↳ QDP

          ↳ QDP

          ↳ QDP

Q DP problem:
P is empty.
The TRS R consists of the following rules:

app₂(app₂(app₂(if, true), xs), ys) -> xs
app₂(app₂(app₂(if, false), xs), ys) -> ys
app₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> app₂(app₂(lt, x), y)
app₂(app₂(lt, 0), app₂(s, y)) -> true
app₂(app₂(lt, y), 0) -> false
app₂(app₂(eq, x), x) -> true
app₂(app₂(eq, app₂(s, x)), 0) -> false
app₂(app₂(eq, 0), app₂(s, x)) -> false
app₂(app₂(merge, xs), nil) -> xs
app₂(app₂(merge, nil), ys) -> ys
app₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> app₂(app₂(app₂(if, app₂(app₂(lt, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys)))), app₂(app₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys))), app₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys))))
app₂(app₂(map, f), nil) -> nil
app₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> app₂(app₂(cons, app₂(f, x)), app₂(app₂(map, f), xs))
app₂(app₂(mult, 0), x) -> 0
app₂(app₂(mult, app₂(s, x)), y) -> app₂(app₂(plus, y), app₂(app₂(mult, x), y))
app₂(app₂(plus, 0), x) -> 0
app₂(app₂(plus, app₂(s, x)), y) -> app₂(s, app₂(app₂(plus, x), y))
list1 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, 0)))), hamming)
list2 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, 0))))), hamming)
list3 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0))))))), hamming)
hamming -> app₂(app₂(cons, app₂(s, 0)), app₂(app₂(merge, list1), app₂(app₂(merge, list2), list3)))

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

          ↳ QDP

            ↳ QDPOrderProof

          ↳ QDP

          ↳ QDP

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

APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(merge, xs), ys)
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(merge, xs), app₂(app₂(cons, y), ys))
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(merge, app₂(app₂(cons, x), xs)), ys)

The TRS R consists of the following rules:

app₂(app₂(app₂(if, true), xs), ys) -> xs
app₂(app₂(app₂(if, false), xs), ys) -> ys
app₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> app₂(app₂(lt, x), y)
app₂(app₂(lt, 0), app₂(s, y)) -> true
app₂(app₂(lt, y), 0) -> false
app₂(app₂(eq, x), x) -> true
app₂(app₂(eq, app₂(s, x)), 0) -> false
app₂(app₂(eq, 0), app₂(s, x)) -> false
app₂(app₂(merge, xs), nil) -> xs
app₂(app₂(merge, nil), ys) -> ys
app₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> app₂(app₂(app₂(if, app₂(app₂(lt, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys)))), app₂(app₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys))), app₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys))))
app₂(app₂(map, f), nil) -> nil
app₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> app₂(app₂(cons, app₂(f, x)), app₂(app₂(map, f), xs))
app₂(app₂(mult, 0), x) -> 0
app₂(app₂(mult, app₂(s, x)), y) -> app₂(app₂(plus, y), app₂(app₂(mult, x), y))
app₂(app₂(plus, 0), x) -> 0
app₂(app₂(plus, app₂(s, x)), y) -> app₂(s, app₂(app₂(plus, x), y))
list1 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, 0)))), hamming)
list2 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, 0))))), hamming)
list3 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0))))))), hamming)
hamming -> app₂(app₂(cons, app₂(s, 0)), app₂(app₂(merge, list1), app₂(app₂(merge, list2), list3)))

Q is empty.
We have to consider all minimal (P,Q,R)-chains.
We use the reduction pair processor [13].

The following pairs can be oriented strictly and are deleted.

APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(merge, xs), ys)
APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(merge, app₂(app₂(cons, x), xs)), ys)

The remaining pairs can at least be oriented weakly.

APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(merge, xs), app₂(app₂(cons, y), ys))

Used ordering: Polynomial interpretation [21]:

POL(APP₂(x₁, x₂)) = x₂
POL(app₂(x₁, x₂)) = x₁ + x₂
POL(cons) = 1
POL(merge) = 0

The following usable rules [14] were oriented: none

↳ QTRS

  ↳ DependencyPairsProof

    ↳ QDP

      ↳ DependencyGraphProof

        ↳ AND

          ↳ QDP

          ↳ QDP

          ↳ QDP

          ↳ QDP

            ↳ QDPOrderProof

              ↳ QDP

                ↳ QDPOrderProof

          ↳ QDP

          ↳ QDP

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

APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(merge, xs), app₂(app₂(cons, y), ys))

The TRS R consists of the following rules:

app₂(app₂(app₂(if, true), xs), ys) -> xs
app₂(app₂(app₂(if, false), xs), ys) -> ys
app₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> app₂(app₂(lt, x), y)
app₂(app₂(lt, 0), app₂(s, y)) -> true
app₂(app₂(lt, y), 0) -> false
app₂(app₂(eq, x), x) -> true
app₂(app₂(eq, app₂(s, x)), 0) -> false
app₂(app₂(eq, 0), app₂(s, x)) -> false
app₂(app₂(merge, xs), nil) -> xs
app₂(app₂(merge, nil), ys) -> ys
app₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> app₂(app₂(app₂(if, app₂(app₂(lt, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys)))), app₂(app₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys))), app₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys))))
app₂(app₂(map, f), nil) -> nil
app₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> app₂(app₂(cons, app₂(f, x)), app₂(app₂(map, f), xs))
app₂(app₂(mult, 0), x) -> 0
app₂(app₂(mult, app₂(s, x)), y) -> app₂(app₂(plus, y), app₂(app₂(mult, x), y))
app₂(app₂(plus, 0), x) -> 0
app₂(app₂(plus, app₂(s, x)), y) -> app₂(s, app₂(app₂(plus, x), y))
list1 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, 0)))), hamming)
list2 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, 0))))), hamming)
list3 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0))))))), hamming)
hamming -> app₂(app₂(cons, app₂(s, 0)), app₂(app₂(merge, list1), app₂(app₂(merge, list2), list3)))

Q is empty.
We have to consider all minimal (P,Q,R)-chains.
We use the reduction pair processor [13].

The following pairs can be oriented strictly and are deleted.

APP₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> APP₂(app₂(merge, xs), app₂(app₂(cons, y), ys))

The remaining pairs can at least be oriented weakly.
none
Used ordering: Polynomial interpretation [21]:

POL(APP₂(x₁, x₂)) = x₁
POL(app₂(x₁, x₂)) = x₁ + x₂
POL(cons) = 1
POL(merge) = 0

The following usable rules [14] were oriented: none

↳ QTRS

  ↳ DependencyPairsProof

    ↳ QDP

      ↳ DependencyGraphProof

        ↳ AND

          ↳ QDP

          ↳ QDP

          ↳ QDP

          ↳ QDP

            ↳ QDPOrderProof

              ↳ QDP

                ↳ QDPOrderProof

                  ↳ QDP

                    ↳ PisEmptyProof

          ↳ QDP

          ↳ QDP

Q DP problem:
P is empty.
The TRS R consists of the following rules:

app₂(app₂(app₂(if, true), xs), ys) -> xs
app₂(app₂(app₂(if, false), xs), ys) -> ys
app₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> app₂(app₂(lt, x), y)
app₂(app₂(lt, 0), app₂(s, y)) -> true
app₂(app₂(lt, y), 0) -> false
app₂(app₂(eq, x), x) -> true
app₂(app₂(eq, app₂(s, x)), 0) -> false
app₂(app₂(eq, 0), app₂(s, x)) -> false
app₂(app₂(merge, xs), nil) -> xs
app₂(app₂(merge, nil), ys) -> ys
app₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> app₂(app₂(app₂(if, app₂(app₂(lt, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys)))), app₂(app₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys))), app₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys))))
app₂(app₂(map, f), nil) -> nil
app₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> app₂(app₂(cons, app₂(f, x)), app₂(app₂(map, f), xs))
app₂(app₂(mult, 0), x) -> 0
app₂(app₂(mult, app₂(s, x)), y) -> app₂(app₂(plus, y), app₂(app₂(mult, x), y))
app₂(app₂(plus, 0), x) -> 0
app₂(app₂(plus, app₂(s, x)), y) -> app₂(s, app₂(app₂(plus, x), y))
list1 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, 0)))), hamming)
list2 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, 0))))), hamming)
list3 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0))))))), hamming)
hamming -> app₂(app₂(cons, app₂(s, 0)), app₂(app₂(merge, list1), app₂(app₂(merge, list2), list3)))

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

          ↳ QDP

          ↳ QDP

            ↳ QDPOrderProof

          ↳ QDP

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

APP₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> APP₂(f, x)
APP₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> APP₂(app₂(map, f), xs)

The TRS R consists of the following rules:

app₂(app₂(app₂(if, true), xs), ys) -> xs
app₂(app₂(app₂(if, false), xs), ys) -> ys
app₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> app₂(app₂(lt, x), y)
app₂(app₂(lt, 0), app₂(s, y)) -> true
app₂(app₂(lt, y), 0) -> false
app₂(app₂(eq, x), x) -> true
app₂(app₂(eq, app₂(s, x)), 0) -> false
app₂(app₂(eq, 0), app₂(s, x)) -> false
app₂(app₂(merge, xs), nil) -> xs
app₂(app₂(merge, nil), ys) -> ys
app₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> app₂(app₂(app₂(if, app₂(app₂(lt, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys)))), app₂(app₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys))), app₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys))))
app₂(app₂(map, f), nil) -> nil
app₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> app₂(app₂(cons, app₂(f, x)), app₂(app₂(map, f), xs))
app₂(app₂(mult, 0), x) -> 0
app₂(app₂(mult, app₂(s, x)), y) -> app₂(app₂(plus, y), app₂(app₂(mult, x), y))
app₂(app₂(plus, 0), x) -> 0
app₂(app₂(plus, app₂(s, x)), y) -> app₂(s, app₂(app₂(plus, x), y))
list1 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, 0)))), hamming)
list2 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, 0))))), hamming)
list3 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0))))))), hamming)
hamming -> app₂(app₂(cons, app₂(s, 0)), app₂(app₂(merge, list1), app₂(app₂(merge, list2), list3)))

Q is empty.
We have to consider all minimal (P,Q,R)-chains.
We use the reduction pair processor [13].

The following pairs can be oriented strictly and are deleted.

APP₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> APP₂(f, x)
APP₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> APP₂(app₂(map, f), xs)

The remaining pairs can at least be oriented weakly.
none
Used ordering: Polynomial interpretation [21]:

POL(APP₂(x₁, x₂)) = x₂
POL(app₂(x₁, x₂)) = x₁ + x₂
POL(cons) = 1
POL(map) = 0

The following usable rules [14] were oriented: none

↳ QTRS

  ↳ DependencyPairsProof

    ↳ QDP

      ↳ DependencyGraphProof

        ↳ AND

          ↳ QDP

          ↳ QDP

          ↳ QDP

          ↳ QDP

          ↳ QDP

            ↳ QDPOrderProof

              ↳ QDP

                ↳ PisEmptyProof

          ↳ QDP

Q DP problem:
P is empty.
The TRS R consists of the following rules:

app₂(app₂(app₂(if, true), xs), ys) -> xs
app₂(app₂(app₂(if, false), xs), ys) -> ys
app₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> app₂(app₂(lt, x), y)
app₂(app₂(lt, 0), app₂(s, y)) -> true
app₂(app₂(lt, y), 0) -> false
app₂(app₂(eq, x), x) -> true
app₂(app₂(eq, app₂(s, x)), 0) -> false
app₂(app₂(eq, 0), app₂(s, x)) -> false
app₂(app₂(merge, xs), nil) -> xs
app₂(app₂(merge, nil), ys) -> ys
app₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> app₂(app₂(app₂(if, app₂(app₂(lt, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys)))), app₂(app₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys))), app₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys))))
app₂(app₂(map, f), nil) -> nil
app₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> app₂(app₂(cons, app₂(f, x)), app₂(app₂(map, f), xs))
app₂(app₂(mult, 0), x) -> 0
app₂(app₂(mult, app₂(s, x)), y) -> app₂(app₂(plus, y), app₂(app₂(mult, x), y))
app₂(app₂(plus, 0), x) -> 0
app₂(app₂(plus, app₂(s, x)), y) -> app₂(s, app₂(app₂(plus, x), y))
list1 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, 0)))), hamming)
list2 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, 0))))), hamming)
list3 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0))))))), hamming)
hamming -> app₂(app₂(cons, app₂(s, 0)), app₂(app₂(merge, list1), app₂(app₂(merge, list2), list3)))

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

          ↳ QDP

          ↳ QDP

          ↳ QDP

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

HAMMING -> LIST3
LIST2 -> HAMMING
HAMMING -> LIST1
HAMMING -> LIST2
LIST1 -> HAMMING
LIST3 -> HAMMING

The TRS R consists of the following rules:

app₂(app₂(app₂(if, true), xs), ys) -> xs
app₂(app₂(app₂(if, false), xs), ys) -> ys
app₂(app₂(lt, app₂(s, x)), app₂(s, y)) -> app₂(app₂(lt, x), y)
app₂(app₂(lt, 0), app₂(s, y)) -> true
app₂(app₂(lt, y), 0) -> false
app₂(app₂(eq, x), x) -> true
app₂(app₂(eq, app₂(s, x)), 0) -> false
app₂(app₂(eq, 0), app₂(s, x)) -> false
app₂(app₂(merge, xs), nil) -> xs
app₂(app₂(merge, nil), ys) -> ys
app₂(app₂(merge, app₂(app₂(cons, x), xs)), app₂(app₂(cons, y), ys)) -> app₂(app₂(app₂(if, app₂(app₂(lt, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), app₂(app₂(cons, y), ys)))), app₂(app₂(app₂(if, app₂(app₂(eq, x), y)), app₂(app₂(cons, x), app₂(app₂(merge, xs), ys))), app₂(app₂(cons, y), app₂(app₂(merge, app₂(app₂(cons, x), xs)), ys))))
app₂(app₂(map, f), nil) -> nil
app₂(app₂(map, f), app₂(app₂(cons, x), xs)) -> app₂(app₂(cons, app₂(f, x)), app₂(app₂(map, f), xs))
app₂(app₂(mult, 0), x) -> 0
app₂(app₂(mult, app₂(s, x)), y) -> app₂(app₂(plus, y), app₂(app₂(mult, x), y))
app₂(app₂(plus, 0), x) -> 0
app₂(app₂(plus, app₂(s, x)), y) -> app₂(s, app₂(app₂(plus, x), y))
list1 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, 0)))), hamming)
list2 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, 0))))), hamming)
list3 -> app₂(app₂(map, app₂(mult, app₂(s, app₂(s, app₂(s, app₂(s, app₂(s, 0))))))), hamming)
hamming -> app₂(app₂(cons, app₂(s, 0)), app₂(app₂(merge, list1), app₂(app₂(merge, list2), list3)))

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