ackin2(0, X) -> ackout1(s1(X))
ackin2(s1(X), 0) -> u111(ackin2(X, s1(0)))
u111(ackout1(X)) -> ackout1(X)
ackin2(s1(X), s1(Y)) -> u212(ackin2(s1(X), Y), X)
u212(ackout1(X), Y) -> u221(ackin2(Y, X))
u221(ackout1(X)) -> ackout1(X)
↳ QTRS
↳ Non-Overlap Check
ackin2(0, X) -> ackout1(s1(X))
ackin2(s1(X), 0) -> u111(ackin2(X, s1(0)))
u111(ackout1(X)) -> ackout1(X)
ackin2(s1(X), s1(Y)) -> u212(ackin2(s1(X), Y), X)
u212(ackout1(X), Y) -> u221(ackin2(Y, X))
u221(ackout1(X)) -> ackout1(X)
↳ QTRS
↳ Non-Overlap Check
↳ QTRS
↳ DependencyPairsProof
ackin2(0, X) -> ackout1(s1(X))
ackin2(s1(X), 0) -> u111(ackin2(X, s1(0)))
u111(ackout1(X)) -> ackout1(X)
ackin2(s1(X), s1(Y)) -> u212(ackin2(s1(X), Y), X)
u212(ackout1(X), Y) -> u221(ackin2(Y, X))
u221(ackout1(X)) -> ackout1(X)
ackin2(0, x0)
ackin2(s1(x0), 0)
u111(ackout1(x0))
ackin2(s1(x0), s1(x1))
u212(ackout1(x0), x1)
u221(ackout1(x0))
U212(ackout1(X), Y) -> ACKIN2(Y, X)
ACKIN2(s1(X), s1(Y)) -> ACKIN2(s1(X), Y)
ACKIN2(s1(X), 0) -> U111(ackin2(X, s1(0)))
ACKIN2(s1(X), s1(Y)) -> U212(ackin2(s1(X), Y), X)
ACKIN2(s1(X), 0) -> ACKIN2(X, s1(0))
U212(ackout1(X), Y) -> U221(ackin2(Y, X))
ackin2(0, X) -> ackout1(s1(X))
ackin2(s1(X), 0) -> u111(ackin2(X, s1(0)))
u111(ackout1(X)) -> ackout1(X)
ackin2(s1(X), s1(Y)) -> u212(ackin2(s1(X), Y), X)
u212(ackout1(X), Y) -> u221(ackin2(Y, X))
u221(ackout1(X)) -> ackout1(X)
ackin2(0, x0)
ackin2(s1(x0), 0)
u111(ackout1(x0))
ackin2(s1(x0), s1(x1))
u212(ackout1(x0), x1)
u221(ackout1(x0))
↳ QTRS
↳ Non-Overlap Check
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
U212(ackout1(X), Y) -> ACKIN2(Y, X)
ACKIN2(s1(X), s1(Y)) -> ACKIN2(s1(X), Y)
ACKIN2(s1(X), 0) -> U111(ackin2(X, s1(0)))
ACKIN2(s1(X), s1(Y)) -> U212(ackin2(s1(X), Y), X)
ACKIN2(s1(X), 0) -> ACKIN2(X, s1(0))
U212(ackout1(X), Y) -> U221(ackin2(Y, X))
ackin2(0, X) -> ackout1(s1(X))
ackin2(s1(X), 0) -> u111(ackin2(X, s1(0)))
u111(ackout1(X)) -> ackout1(X)
ackin2(s1(X), s1(Y)) -> u212(ackin2(s1(X), Y), X)
u212(ackout1(X), Y) -> u221(ackin2(Y, X))
u221(ackout1(X)) -> ackout1(X)
ackin2(0, x0)
ackin2(s1(x0), 0)
u111(ackout1(x0))
ackin2(s1(x0), s1(x1))
u212(ackout1(x0), x1)
u221(ackout1(x0))
↳ QTRS
↳ Non-Overlap Check
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ QDP
↳ QDPOrderProof
ACKIN2(s1(X), s1(Y)) -> ACKIN2(s1(X), Y)
U212(ackout1(X), Y) -> ACKIN2(Y, X)
ACKIN2(s1(X), s1(Y)) -> U212(ackin2(s1(X), Y), X)
ACKIN2(s1(X), 0) -> ACKIN2(X, s1(0))
ackin2(0, X) -> ackout1(s1(X))
ackin2(s1(X), 0) -> u111(ackin2(X, s1(0)))
u111(ackout1(X)) -> ackout1(X)
ackin2(s1(X), s1(Y)) -> u212(ackin2(s1(X), Y), X)
u212(ackout1(X), Y) -> u221(ackin2(Y, X))
u221(ackout1(X)) -> ackout1(X)
ackin2(0, x0)
ackin2(s1(x0), 0)
u111(ackout1(x0))
ackin2(s1(x0), s1(x1))
u212(ackout1(x0), x1)
u221(ackout1(x0))
The following pairs can be strictly oriented and are deleted.
The remaining pairs can at least by weakly be oriented.
ACKIN2(s1(X), s1(Y)) -> U212(ackin2(s1(X), Y), X)
ACKIN2(s1(X), 0) -> ACKIN2(X, s1(0))
Used ordering: Combined order from the following AFS and order.
ACKIN2(s1(X), s1(Y)) -> ACKIN2(s1(X), Y)
U212(ackout1(X), Y) -> ACKIN2(Y, X)
[s1, ackout, ackin, u11, u22] > 0
ackin2(s1(X), 0) -> u111(ackin2(X, s1(0)))
ackin2(s1(X), s1(Y)) -> u212(ackin2(s1(X), Y), X)
u212(ackout1(X), Y) -> u221(ackin2(Y, X))
ackin2(0, X) -> ackout1(s1(X))
u221(ackout1(X)) -> ackout1(X)
u111(ackout1(X)) -> ackout1(X)
↳ QTRS
↳ Non-Overlap Check
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ DependencyGraphProof
U212(ackout1(X), Y) -> ACKIN2(Y, X)
ACKIN2(s1(X), s1(Y)) -> ACKIN2(s1(X), Y)
ackin2(0, X) -> ackout1(s1(X))
ackin2(s1(X), 0) -> u111(ackin2(X, s1(0)))
u111(ackout1(X)) -> ackout1(X)
ackin2(s1(X), s1(Y)) -> u212(ackin2(s1(X), Y), X)
u212(ackout1(X), Y) -> u221(ackin2(Y, X))
u221(ackout1(X)) -> ackout1(X)
ackin2(0, x0)
ackin2(s1(x0), 0)
u111(ackout1(x0))
ackin2(s1(x0), s1(x1))
u212(ackout1(x0), x1)
u221(ackout1(x0))
↳ QTRS
↳ Non-Overlap Check
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ DependencyGraphProof
↳ QDP
↳ QDPOrderProof
ACKIN2(s1(X), s1(Y)) -> ACKIN2(s1(X), Y)
ackin2(0, X) -> ackout1(s1(X))
ackin2(s1(X), 0) -> u111(ackin2(X, s1(0)))
u111(ackout1(X)) -> ackout1(X)
ackin2(s1(X), s1(Y)) -> u212(ackin2(s1(X), Y), X)
u212(ackout1(X), Y) -> u221(ackin2(Y, X))
u221(ackout1(X)) -> ackout1(X)
ackin2(0, x0)
ackin2(s1(x0), 0)
u111(ackout1(x0))
ackin2(s1(x0), s1(x1))
u212(ackout1(x0), x1)
u221(ackout1(x0))
The following pairs can be strictly oriented and are deleted.
The remaining pairs can at least by weakly be oriented.
ACKIN2(s1(X), s1(Y)) -> ACKIN2(s1(X), Y)
[ACKIN1, s1]
↳ QTRS
↳ Non-Overlap Check
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ DependencyGraphProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ PisEmptyProof
ackin2(0, X) -> ackout1(s1(X))
ackin2(s1(X), 0) -> u111(ackin2(X, s1(0)))
u111(ackout1(X)) -> ackout1(X)
ackin2(s1(X), s1(Y)) -> u212(ackin2(s1(X), Y), X)
u212(ackout1(X), Y) -> u221(ackin2(Y, X))
u221(ackout1(X)) -> ackout1(X)
ackin2(0, x0)
ackin2(s1(x0), 0)
u111(ackout1(x0))
ackin2(s1(x0), s1(x1))
u212(ackout1(x0), x1)
u221(ackout1(x0))