+2(p1, p1) -> p2
+2(p1, +2(p2, p2)) -> p5
+2(p5, p5) -> p10
+2(+2(x, y), z) -> +2(x, +2(y, z))
+2(p1, +2(p1, x)) -> +2(p2, x)
+2(p1, +2(p2, +2(p2, x))) -> +2(p5, x)
+2(p2, p1) -> +2(p1, p2)
+2(p2, +2(p1, x)) -> +2(p1, +2(p2, x))
+2(p2, +2(p2, p2)) -> +2(p1, p5)
+2(p2, +2(p2, +2(p2, x))) -> +2(p1, +2(p5, x))
+2(p5, p1) -> +2(p1, p5)
+2(p5, +2(p1, x)) -> +2(p1, +2(p5, x))
+2(p5, p2) -> +2(p2, p5)
+2(p5, +2(p2, x)) -> +2(p2, +2(p5, x))
+2(p5, +2(p5, x)) -> +2(p10, x)
+2(p10, p1) -> +2(p1, p10)
+2(p10, +2(p1, x)) -> +2(p1, +2(p10, x))
+2(p10, p2) -> +2(p2, p10)
+2(p10, +2(p2, x)) -> +2(p2, +2(p10, x))
+2(p10, p5) -> +2(p5, p10)
+2(p10, +2(p5, x)) -> +2(p5, +2(p10, x))
↳ QTRS
↳ DependencyPairsProof
+2(p1, p1) -> p2
+2(p1, +2(p2, p2)) -> p5
+2(p5, p5) -> p10
+2(+2(x, y), z) -> +2(x, +2(y, z))
+2(p1, +2(p1, x)) -> +2(p2, x)
+2(p1, +2(p2, +2(p2, x))) -> +2(p5, x)
+2(p2, p1) -> +2(p1, p2)
+2(p2, +2(p1, x)) -> +2(p1, +2(p2, x))
+2(p2, +2(p2, p2)) -> +2(p1, p5)
+2(p2, +2(p2, +2(p2, x))) -> +2(p1, +2(p5, x))
+2(p5, p1) -> +2(p1, p5)
+2(p5, +2(p1, x)) -> +2(p1, +2(p5, x))
+2(p5, p2) -> +2(p2, p5)
+2(p5, +2(p2, x)) -> +2(p2, +2(p5, x))
+2(p5, +2(p5, x)) -> +2(p10, x)
+2(p10, p1) -> +2(p1, p10)
+2(p10, +2(p1, x)) -> +2(p1, +2(p10, x))
+2(p10, p2) -> +2(p2, p10)
+2(p10, +2(p2, x)) -> +2(p2, +2(p10, x))
+2(p10, p5) -> +2(p5, p10)
+2(p10, +2(p5, x)) -> +2(p5, +2(p10, x))
+12(p5, p2) -> +12(p2, p5)
+12(p10, +2(p5, x)) -> +12(p10, x)
+12(p5, p1) -> +12(p1, p5)
+12(p10, +2(p1, x)) -> +12(p1, +2(p10, x))
+12(p2, +2(p1, x)) -> +12(p2, x)
+12(p10, +2(p2, x)) -> +12(p2, +2(p10, x))
+12(p10, +2(p2, x)) -> +12(p10, x)
+12(p10, +2(p5, x)) -> +12(p5, +2(p10, x))
+12(p10, p5) -> +12(p5, p10)
+12(p2, p1) -> +12(p1, p2)
+12(p1, +2(p1, x)) -> +12(p2, x)
+12(+2(x, y), z) -> +12(y, z)
+12(p2, +2(p1, x)) -> +12(p1, +2(p2, x))
+12(p2, +2(p2, +2(p2, x))) -> +12(p5, x)
+12(p10, +2(p1, x)) -> +12(p10, x)
+12(p2, +2(p2, +2(p2, x))) -> +12(p1, +2(p5, x))
+12(p5, +2(p2, x)) -> +12(p2, +2(p5, x))
+12(p5, +2(p1, x)) -> +12(p5, x)
+12(p10, p2) -> +12(p2, p10)
+12(p1, +2(p2, +2(p2, x))) -> +12(p5, x)
+12(p5, +2(p5, x)) -> +12(p10, x)
+12(p10, p1) -> +12(p1, p10)
+12(+2(x, y), z) -> +12(x, +2(y, z))
+12(p5, +2(p1, x)) -> +12(p1, +2(p5, x))
+12(p2, +2(p2, p2)) -> +12(p1, p5)
+12(p5, +2(p2, x)) -> +12(p5, x)
+2(p1, p1) -> p2
+2(p1, +2(p2, p2)) -> p5
+2(p5, p5) -> p10
+2(+2(x, y), z) -> +2(x, +2(y, z))
+2(p1, +2(p1, x)) -> +2(p2, x)
+2(p1, +2(p2, +2(p2, x))) -> +2(p5, x)
+2(p2, p1) -> +2(p1, p2)
+2(p2, +2(p1, x)) -> +2(p1, +2(p2, x))
+2(p2, +2(p2, p2)) -> +2(p1, p5)
+2(p2, +2(p2, +2(p2, x))) -> +2(p1, +2(p5, x))
+2(p5, p1) -> +2(p1, p5)
+2(p5, +2(p1, x)) -> +2(p1, +2(p5, x))
+2(p5, p2) -> +2(p2, p5)
+2(p5, +2(p2, x)) -> +2(p2, +2(p5, x))
+2(p5, +2(p5, x)) -> +2(p10, x)
+2(p10, p1) -> +2(p1, p10)
+2(p10, +2(p1, x)) -> +2(p1, +2(p10, x))
+2(p10, p2) -> +2(p2, p10)
+2(p10, +2(p2, x)) -> +2(p2, +2(p10, x))
+2(p10, p5) -> +2(p5, p10)
+2(p10, +2(p5, x)) -> +2(p5, +2(p10, x))
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
+12(p5, p2) -> +12(p2, p5)
+12(p10, +2(p5, x)) -> +12(p10, x)
+12(p5, p1) -> +12(p1, p5)
+12(p10, +2(p1, x)) -> +12(p1, +2(p10, x))
+12(p2, +2(p1, x)) -> +12(p2, x)
+12(p10, +2(p2, x)) -> +12(p2, +2(p10, x))
+12(p10, +2(p2, x)) -> +12(p10, x)
+12(p10, +2(p5, x)) -> +12(p5, +2(p10, x))
+12(p10, p5) -> +12(p5, p10)
+12(p2, p1) -> +12(p1, p2)
+12(p1, +2(p1, x)) -> +12(p2, x)
+12(+2(x, y), z) -> +12(y, z)
+12(p2, +2(p1, x)) -> +12(p1, +2(p2, x))
+12(p2, +2(p2, +2(p2, x))) -> +12(p5, x)
+12(p10, +2(p1, x)) -> +12(p10, x)
+12(p2, +2(p2, +2(p2, x))) -> +12(p1, +2(p5, x))
+12(p5, +2(p2, x)) -> +12(p2, +2(p5, x))
+12(p5, +2(p1, x)) -> +12(p5, x)
+12(p10, p2) -> +12(p2, p10)
+12(p1, +2(p2, +2(p2, x))) -> +12(p5, x)
+12(p5, +2(p5, x)) -> +12(p10, x)
+12(p10, p1) -> +12(p1, p10)
+12(+2(x, y), z) -> +12(x, +2(y, z))
+12(p5, +2(p1, x)) -> +12(p1, +2(p5, x))
+12(p2, +2(p2, p2)) -> +12(p1, p5)
+12(p5, +2(p2, x)) -> +12(p5, x)
+2(p1, p1) -> p2
+2(p1, +2(p2, p2)) -> p5
+2(p5, p5) -> p10
+2(+2(x, y), z) -> +2(x, +2(y, z))
+2(p1, +2(p1, x)) -> +2(p2, x)
+2(p1, +2(p2, +2(p2, x))) -> +2(p5, x)
+2(p2, p1) -> +2(p1, p2)
+2(p2, +2(p1, x)) -> +2(p1, +2(p2, x))
+2(p2, +2(p2, p2)) -> +2(p1, p5)
+2(p2, +2(p2, +2(p2, x))) -> +2(p1, +2(p5, x))
+2(p5, p1) -> +2(p1, p5)
+2(p5, +2(p1, x)) -> +2(p1, +2(p5, x))
+2(p5, p2) -> +2(p2, p5)
+2(p5, +2(p2, x)) -> +2(p2, +2(p5, x))
+2(p5, +2(p5, x)) -> +2(p10, x)
+2(p10, p1) -> +2(p1, p10)
+2(p10, +2(p1, x)) -> +2(p1, +2(p10, x))
+2(p10, p2) -> +2(p2, p10)
+2(p10, +2(p2, x)) -> +2(p2, +2(p10, x))
+2(p10, p5) -> +2(p5, p10)
+2(p10, +2(p5, x)) -> +2(p5, +2(p10, x))
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ QDP
↳ QDPOrderProof
+12(p2, +2(p2, +2(p2, x))) -> +12(p5, x)
+12(p10, +2(p5, x)) -> +12(p10, x)
+12(p10, +2(p1, x)) -> +12(p1, +2(p10, x))
+12(p10, +2(p1, x)) -> +12(p10, x)
+12(p2, +2(p1, x)) -> +12(p2, x)
+12(p2, +2(p2, +2(p2, x))) -> +12(p1, +2(p5, x))
+12(p5, +2(p2, x)) -> +12(p2, +2(p5, x))
+12(p10, +2(p2, x)) -> +12(p2, +2(p10, x))
+12(p5, +2(p1, x)) -> +12(p5, x)
+12(p1, +2(p2, +2(p2, x))) -> +12(p5, x)
+12(p10, +2(p2, x)) -> +12(p10, x)
+12(p10, +2(p5, x)) -> +12(p5, +2(p10, x))
+12(p5, +2(p5, x)) -> +12(p10, x)
+12(p1, +2(p1, x)) -> +12(p2, x)
+12(p5, +2(p1, x)) -> +12(p1, +2(p5, x))
+12(p5, +2(p2, x)) -> +12(p5, x)
+12(p2, +2(p1, x)) -> +12(p1, +2(p2, x))
+2(p1, p1) -> p2
+2(p1, +2(p2, p2)) -> p5
+2(p5, p5) -> p10
+2(+2(x, y), z) -> +2(x, +2(y, z))
+2(p1, +2(p1, x)) -> +2(p2, x)
+2(p1, +2(p2, +2(p2, x))) -> +2(p5, x)
+2(p2, p1) -> +2(p1, p2)
+2(p2, +2(p1, x)) -> +2(p1, +2(p2, x))
+2(p2, +2(p2, p2)) -> +2(p1, p5)
+2(p2, +2(p2, +2(p2, x))) -> +2(p1, +2(p5, x))
+2(p5, p1) -> +2(p1, p5)
+2(p5, +2(p1, x)) -> +2(p1, +2(p5, x))
+2(p5, p2) -> +2(p2, p5)
+2(p5, +2(p2, x)) -> +2(p2, +2(p5, x))
+2(p5, +2(p5, x)) -> +2(p10, x)
+2(p10, p1) -> +2(p1, p10)
+2(p10, +2(p1, x)) -> +2(p1, +2(p10, x))
+2(p10, p2) -> +2(p2, p10)
+2(p10, +2(p2, x)) -> +2(p2, +2(p10, x))
+2(p10, p5) -> +2(p5, p10)
+2(p10, +2(p5, x)) -> +2(p5, +2(p10, x))
The following pairs can be oriented strictly and are deleted.
The remaining pairs can at least be oriented weakly.
+12(p2, +2(p2, +2(p2, x))) -> +12(p5, x)
+12(p2, +2(p2, +2(p2, x))) -> +12(p1, +2(p5, x))
+12(p1, +2(p2, +2(p2, x))) -> +12(p5, x)
Used ordering: Polynomial Order [17,21] with Interpretation:
+12(p10, +2(p5, x)) -> +12(p10, x)
+12(p10, +2(p1, x)) -> +12(p1, +2(p10, x))
+12(p10, +2(p1, x)) -> +12(p10, x)
+12(p2, +2(p1, x)) -> +12(p2, x)
+12(p5, +2(p2, x)) -> +12(p2, +2(p5, x))
+12(p10, +2(p2, x)) -> +12(p2, +2(p10, x))
+12(p5, +2(p1, x)) -> +12(p5, x)
+12(p10, +2(p2, x)) -> +12(p10, x)
+12(p10, +2(p5, x)) -> +12(p5, +2(p10, x))
+12(p5, +2(p5, x)) -> +12(p10, x)
+12(p1, +2(p1, x)) -> +12(p2, x)
+12(p5, +2(p1, x)) -> +12(p1, +2(p5, x))
+12(p5, +2(p2, x)) -> +12(p5, x)
+12(p2, +2(p1, x)) -> +12(p1, +2(p2, x))
POL( +12(x1, x2) ) = max{0, x2 - 3}
POL( +2(x1, x2) ) = x2 + 3
POL( p5 ) = 0
POL( p10 ) = 0
POL( p1 ) = 0
POL( p2 ) = 0
+2(p1, +2(p2, p2)) -> p5
+2(p2, p1) -> +2(p1, p2)
+2(p1, p1) -> p2
+2(p5, p1) -> +2(p1, p5)
+2(p5, +2(p1, x)) -> +2(p1, +2(p5, x))
+2(p2, +2(p1, x)) -> +2(p1, +2(p2, x))
+2(p10, +2(p1, x)) -> +2(p1, +2(p10, x))
+2(p5, +2(p2, x)) -> +2(p2, +2(p5, x))
+2(p1, +2(p2, +2(p2, x))) -> +2(p5, x)
+2(p1, +2(p1, x)) -> +2(p2, x)
+2(p2, +2(p2, +2(p2, x))) -> +2(p1, +2(p5, x))
+2(p10, +2(p5, x)) -> +2(p5, +2(p10, x))
+2(p10, +2(p2, x)) -> +2(p2, +2(p10, x))
+2(p5, +2(p5, x)) -> +2(p10, x)
+2(p10, p5) -> +2(p5, p10)
+2(p5, p2) -> +2(p2, p5)
+2(p2, +2(p2, p2)) -> +2(p1, p5)
+2(p10, p2) -> +2(p2, p10)
+2(p10, p1) -> +2(p1, p10)
+2(p5, p5) -> p10
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ DependencyGraphProof
+12(p10, +2(p5, x)) -> +12(p10, x)
+12(p10, +2(p1, x)) -> +12(p1, +2(p10, x))
+12(p10, +2(p1, x)) -> +12(p10, x)
+12(p2, +2(p1, x)) -> +12(p2, x)
+12(p5, +2(p2, x)) -> +12(p2, +2(p5, x))
+12(p10, +2(p2, x)) -> +12(p2, +2(p10, x))
+12(p5, +2(p1, x)) -> +12(p5, x)
+12(p10, +2(p2, x)) -> +12(p10, x)
+12(p10, +2(p5, x)) -> +12(p5, +2(p10, x))
+12(p5, +2(p5, x)) -> +12(p10, x)
+12(p1, +2(p1, x)) -> +12(p2, x)
+12(p5, +2(p1, x)) -> +12(p1, +2(p5, x))
+12(p5, +2(p2, x)) -> +12(p5, x)
+12(p2, +2(p1, x)) -> +12(p1, +2(p2, x))
+2(p1, p1) -> p2
+2(p1, +2(p2, p2)) -> p5
+2(p5, p5) -> p10
+2(+2(x, y), z) -> +2(x, +2(y, z))
+2(p1, +2(p1, x)) -> +2(p2, x)
+2(p1, +2(p2, +2(p2, x))) -> +2(p5, x)
+2(p2, p1) -> +2(p1, p2)
+2(p2, +2(p1, x)) -> +2(p1, +2(p2, x))
+2(p2, +2(p2, p2)) -> +2(p1, p5)
+2(p2, +2(p2, +2(p2, x))) -> +2(p1, +2(p5, x))
+2(p5, p1) -> +2(p1, p5)
+2(p5, +2(p1, x)) -> +2(p1, +2(p5, x))
+2(p5, p2) -> +2(p2, p5)
+2(p5, +2(p2, x)) -> +2(p2, +2(p5, x))
+2(p5, +2(p5, x)) -> +2(p10, x)
+2(p10, p1) -> +2(p1, p10)
+2(p10, +2(p1, x)) -> +2(p1, +2(p10, x))
+2(p10, p2) -> +2(p2, p10)
+2(p10, +2(p2, x)) -> +2(p2, +2(p10, x))
+2(p10, p5) -> +2(p5, p10)
+2(p10, +2(p5, x)) -> +2(p5, +2(p10, x))
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDPOrderProof
↳ QDP
+12(p2, +2(p1, x)) -> +12(p2, x)
+12(p1, +2(p1, x)) -> +12(p2, x)
+12(p2, +2(p1, x)) -> +12(p1, +2(p2, x))
+2(p1, p1) -> p2
+2(p1, +2(p2, p2)) -> p5
+2(p5, p5) -> p10
+2(+2(x, y), z) -> +2(x, +2(y, z))
+2(p1, +2(p1, x)) -> +2(p2, x)
+2(p1, +2(p2, +2(p2, x))) -> +2(p5, x)
+2(p2, p1) -> +2(p1, p2)
+2(p2, +2(p1, x)) -> +2(p1, +2(p2, x))
+2(p2, +2(p2, p2)) -> +2(p1, p5)
+2(p2, +2(p2, +2(p2, x))) -> +2(p1, +2(p5, x))
+2(p5, p1) -> +2(p1, p5)
+2(p5, +2(p1, x)) -> +2(p1, +2(p5, x))
+2(p5, p2) -> +2(p2, p5)
+2(p5, +2(p2, x)) -> +2(p2, +2(p5, x))
+2(p5, +2(p5, x)) -> +2(p10, x)
+2(p10, p1) -> +2(p1, p10)
+2(p10, +2(p1, x)) -> +2(p1, +2(p10, x))
+2(p10, p2) -> +2(p2, p10)
+2(p10, +2(p2, x)) -> +2(p2, +2(p10, x))
+2(p10, p5) -> +2(p5, p10)
+2(p10, +2(p5, x)) -> +2(p5, +2(p10, x))
The following pairs can be oriented strictly and are deleted.
The remaining pairs can at least be oriented weakly.
+12(p2, +2(p1, x)) -> +12(p2, x)
+12(p1, +2(p1, x)) -> +12(p2, x)
+12(p2, +2(p1, x)) -> +12(p1, +2(p2, x))
POL( +12(x1, x2) ) = max{0, x2 - 3}
POL( +2(x1, x2) ) = x1 + x2 + 1
POL( p1 ) = 3
POL( p2 ) = 1
POL( p5 ) = 0
POL( p10 ) = 0
+2(p1, +2(p2, p2)) -> p5
+2(p2, p1) -> +2(p1, p2)
+2(p5, +2(p1, x)) -> +2(p1, +2(p5, x))
+2(p2, +2(p1, x)) -> +2(p1, +2(p2, x))
+2(p10, +2(p1, x)) -> +2(p1, +2(p10, x))
+2(p5, +2(p2, x)) -> +2(p2, +2(p5, x))
+2(p1, +2(p2, +2(p2, x))) -> +2(p5, x)
+2(p1, +2(p1, x)) -> +2(p2, x)
+2(p2, +2(p2, +2(p2, x))) -> +2(p1, +2(p5, x))
+2(p10, +2(p5, x)) -> +2(p5, +2(p10, x))
+2(p10, +2(p2, x)) -> +2(p2, +2(p10, x))
+2(p5, +2(p5, x)) -> +2(p10, x)
+2(p10, p5) -> +2(p5, p10)
+2(p5, p2) -> +2(p2, p5)
+2(p2, +2(p2, p2)) -> +2(p1, p5)
+2(p10, p2) -> +2(p2, p10)
+2(p10, p1) -> +2(p1, p10)
+2(p5, p1) -> +2(p1, p5)
+2(p1, p1) -> p2
+2(p5, p5) -> p10
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ PisEmptyProof
↳ QDP
+2(p1, p1) -> p2
+2(p1, +2(p2, p2)) -> p5
+2(p5, p5) -> p10
+2(+2(x, y), z) -> +2(x, +2(y, z))
+2(p1, +2(p1, x)) -> +2(p2, x)
+2(p1, +2(p2, +2(p2, x))) -> +2(p5, x)
+2(p2, p1) -> +2(p1, p2)
+2(p2, +2(p1, x)) -> +2(p1, +2(p2, x))
+2(p2, +2(p2, p2)) -> +2(p1, p5)
+2(p2, +2(p2, +2(p2, x))) -> +2(p1, +2(p5, x))
+2(p5, p1) -> +2(p1, p5)
+2(p5, +2(p1, x)) -> +2(p1, +2(p5, x))
+2(p5, p2) -> +2(p2, p5)
+2(p5, +2(p2, x)) -> +2(p2, +2(p5, x))
+2(p5, +2(p5, x)) -> +2(p10, x)
+2(p10, p1) -> +2(p1, p10)
+2(p10, +2(p1, x)) -> +2(p1, +2(p10, x))
+2(p10, p2) -> +2(p2, p10)
+2(p10, +2(p2, x)) -> +2(p2, +2(p10, x))
+2(p10, p5) -> +2(p5, p10)
+2(p10, +2(p5, x)) -> +2(p5, +2(p10, x))
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDP
↳ QDPOrderProof
+12(p5, +2(p1, x)) -> +12(p5, x)
+12(p10, +2(p5, x)) -> +12(p10, x)
+12(p10, +2(p2, x)) -> +12(p10, x)
+12(p10, +2(p5, x)) -> +12(p5, +2(p10, x))
+12(p10, +2(p1, x)) -> +12(p10, x)
+12(p5, +2(p5, x)) -> +12(p10, x)
+12(p5, +2(p2, x)) -> +12(p5, x)
+2(p1, p1) -> p2
+2(p1, +2(p2, p2)) -> p5
+2(p5, p5) -> p10
+2(+2(x, y), z) -> +2(x, +2(y, z))
+2(p1, +2(p1, x)) -> +2(p2, x)
+2(p1, +2(p2, +2(p2, x))) -> +2(p5, x)
+2(p2, p1) -> +2(p1, p2)
+2(p2, +2(p1, x)) -> +2(p1, +2(p2, x))
+2(p2, +2(p2, p2)) -> +2(p1, p5)
+2(p2, +2(p2, +2(p2, x))) -> +2(p1, +2(p5, x))
+2(p5, p1) -> +2(p1, p5)
+2(p5, +2(p1, x)) -> +2(p1, +2(p5, x))
+2(p5, p2) -> +2(p2, p5)
+2(p5, +2(p2, x)) -> +2(p2, +2(p5, x))
+2(p5, +2(p5, x)) -> +2(p10, x)
+2(p10, p1) -> +2(p1, p10)
+2(p10, +2(p1, x)) -> +2(p1, +2(p10, x))
+2(p10, p2) -> +2(p2, p10)
+2(p10, +2(p2, x)) -> +2(p2, +2(p10, x))
+2(p10, p5) -> +2(p5, p10)
+2(p10, +2(p5, x)) -> +2(p5, +2(p10, x))
The following pairs can be oriented strictly and are deleted.
The remaining pairs can at least be oriented weakly.
+12(p5, +2(p1, x)) -> +12(p5, x)
+12(p10, +2(p1, x)) -> +12(p10, x)
Used ordering: Polynomial Order [17,21] with Interpretation:
+12(p10, +2(p5, x)) -> +12(p10, x)
+12(p10, +2(p2, x)) -> +12(p10, x)
+12(p10, +2(p5, x)) -> +12(p5, +2(p10, x))
+12(p5, +2(p5, x)) -> +12(p10, x)
+12(p5, +2(p2, x)) -> +12(p5, x)
POL( +12(x1, x2) ) = max{0, x2 - 3}
POL( +2(x1, x2) ) = x1 + x2 + 1
POL( p1 ) = 3
POL( p5 ) = 2
POL( p2 ) = 2
POL( p10 ) = 0
+2(p1, +2(p2, p2)) -> p5
+2(p2, p1) -> +2(p1, p2)
+2(p5, p1) -> +2(p1, p5)
+2(p1, p1) -> p2
+2(p5, +2(p1, x)) -> +2(p1, +2(p5, x))
+2(p2, +2(p1, x)) -> +2(p1, +2(p2, x))
+2(p10, +2(p1, x)) -> +2(p1, +2(p10, x))
+2(p5, +2(p2, x)) -> +2(p2, +2(p5, x))
+2(p1, +2(p2, +2(p2, x))) -> +2(p5, x)
+2(p1, +2(p1, x)) -> +2(p2, x)
+2(p2, +2(p2, +2(p2, x))) -> +2(p1, +2(p5, x))
+2(p10, +2(p5, x)) -> +2(p5, +2(p10, x))
+2(p10, +2(p2, x)) -> +2(p2, +2(p10, x))
+2(p5, +2(p5, x)) -> +2(p10, x)
+2(p10, p5) -> +2(p5, p10)
+2(p5, p2) -> +2(p2, p5)
+2(p2, +2(p2, p2)) -> +2(p1, p5)
+2(p10, p2) -> +2(p2, p10)
+2(p10, p1) -> +2(p1, p10)
+2(p5, p5) -> p10
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ QDPOrderProof
+12(p10, +2(p5, x)) -> +12(p10, x)
+12(p10, +2(p2, x)) -> +12(p10, x)
+12(p10, +2(p5, x)) -> +12(p5, +2(p10, x))
+12(p5, +2(p5, x)) -> +12(p10, x)
+12(p5, +2(p2, x)) -> +12(p5, x)
+2(p1, p1) -> p2
+2(p1, +2(p2, p2)) -> p5
+2(p5, p5) -> p10
+2(+2(x, y), z) -> +2(x, +2(y, z))
+2(p1, +2(p1, x)) -> +2(p2, x)
+2(p1, +2(p2, +2(p2, x))) -> +2(p5, x)
+2(p2, p1) -> +2(p1, p2)
+2(p2, +2(p1, x)) -> +2(p1, +2(p2, x))
+2(p2, +2(p2, p2)) -> +2(p1, p5)
+2(p2, +2(p2, +2(p2, x))) -> +2(p1, +2(p5, x))
+2(p5, p1) -> +2(p1, p5)
+2(p5, +2(p1, x)) -> +2(p1, +2(p5, x))
+2(p5, p2) -> +2(p2, p5)
+2(p5, +2(p2, x)) -> +2(p2, +2(p5, x))
+2(p5, +2(p5, x)) -> +2(p10, x)
+2(p10, p1) -> +2(p1, p10)
+2(p10, +2(p1, x)) -> +2(p1, +2(p10, x))
+2(p10, p2) -> +2(p2, p10)
+2(p10, +2(p2, x)) -> +2(p2, +2(p10, x))
+2(p10, p5) -> +2(p5, p10)
+2(p10, +2(p5, x)) -> +2(p5, +2(p10, x))
The following pairs can be oriented strictly and are deleted.
The remaining pairs can at least be oriented weakly.
+12(p10, +2(p5, x)) -> +12(p10, x)
+12(p10, +2(p5, x)) -> +12(p5, +2(p10, x))
+12(p5, +2(p5, x)) -> +12(p10, x)
Used ordering: Polynomial Order [17,21] with Interpretation:
+12(p10, +2(p2, x)) -> +12(p10, x)
+12(p5, +2(p2, x)) -> +12(p5, x)
POL( +12(x1, x2) ) = max{0, x2 - 3}
POL( +2(x1, x2) ) = x1 + x2 + 1
POL( p5 ) = 3
POL( p2 ) = 2
POL( p10 ) = 0
POL( p1 ) = 1
+2(p1, +2(p2, p2)) -> p5
+2(p2, p1) -> +2(p1, p2)
+2(p5, +2(p1, x)) -> +2(p1, +2(p5, x))
+2(p2, +2(p1, x)) -> +2(p1, +2(p2, x))
+2(p10, +2(p1, x)) -> +2(p1, +2(p10, x))
+2(p5, +2(p2, x)) -> +2(p2, +2(p5, x))
+2(p1, +2(p2, +2(p2, x))) -> +2(p5, x)
+2(p1, +2(p1, x)) -> +2(p2, x)
+2(p2, +2(p2, +2(p2, x))) -> +2(p1, +2(p5, x))
+2(p10, +2(p5, x)) -> +2(p5, +2(p10, x))
+2(p10, +2(p2, x)) -> +2(p2, +2(p10, x))
+2(p5, +2(p5, x)) -> +2(p10, x)
+2(p10, p5) -> +2(p5, p10)
+2(p5, p2) -> +2(p2, p5)
+2(p2, +2(p2, p2)) -> +2(p1, p5)
+2(p5, p1) -> +2(p1, p5)
+2(p1, p1) -> p2
+2(p10, p2) -> +2(p2, p10)
+2(p10, p1) -> +2(p1, p10)
+2(p5, p5) -> p10
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ DependencyGraphProof
+12(p10, +2(p2, x)) -> +12(p10, x)
+12(p5, +2(p2, x)) -> +12(p5, x)
+2(p1, p1) -> p2
+2(p1, +2(p2, p2)) -> p5
+2(p5, p5) -> p10
+2(+2(x, y), z) -> +2(x, +2(y, z))
+2(p1, +2(p1, x)) -> +2(p2, x)
+2(p1, +2(p2, +2(p2, x))) -> +2(p5, x)
+2(p2, p1) -> +2(p1, p2)
+2(p2, +2(p1, x)) -> +2(p1, +2(p2, x))
+2(p2, +2(p2, p2)) -> +2(p1, p5)
+2(p2, +2(p2, +2(p2, x))) -> +2(p1, +2(p5, x))
+2(p5, p1) -> +2(p1, p5)
+2(p5, +2(p1, x)) -> +2(p1, +2(p5, x))
+2(p5, p2) -> +2(p2, p5)
+2(p5, +2(p2, x)) -> +2(p2, +2(p5, x))
+2(p5, +2(p5, x)) -> +2(p10, x)
+2(p10, p1) -> +2(p1, p10)
+2(p10, +2(p1, x)) -> +2(p1, +2(p10, x))
+2(p10, p2) -> +2(p2, p10)
+2(p10, +2(p2, x)) -> +2(p2, +2(p10, x))
+2(p10, p5) -> +2(p5, p10)
+2(p10, +2(p5, x)) -> +2(p5, +2(p10, x))
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDPOrderProof
↳ QDP
+12(p5, +2(p2, x)) -> +12(p5, x)
+2(p1, p1) -> p2
+2(p1, +2(p2, p2)) -> p5
+2(p5, p5) -> p10
+2(+2(x, y), z) -> +2(x, +2(y, z))
+2(p1, +2(p1, x)) -> +2(p2, x)
+2(p1, +2(p2, +2(p2, x))) -> +2(p5, x)
+2(p2, p1) -> +2(p1, p2)
+2(p2, +2(p1, x)) -> +2(p1, +2(p2, x))
+2(p2, +2(p2, p2)) -> +2(p1, p5)
+2(p2, +2(p2, +2(p2, x))) -> +2(p1, +2(p5, x))
+2(p5, p1) -> +2(p1, p5)
+2(p5, +2(p1, x)) -> +2(p1, +2(p5, x))
+2(p5, p2) -> +2(p2, p5)
+2(p5, +2(p2, x)) -> +2(p2, +2(p5, x))
+2(p5, +2(p5, x)) -> +2(p10, x)
+2(p10, p1) -> +2(p1, p10)
+2(p10, +2(p1, x)) -> +2(p1, +2(p10, x))
+2(p10, p2) -> +2(p2, p10)
+2(p10, +2(p2, x)) -> +2(p2, +2(p10, x))
+2(p10, p5) -> +2(p5, p10)
+2(p10, +2(p5, x)) -> +2(p5, +2(p10, x))
The following pairs can be oriented strictly and are deleted.
The remaining pairs can at least be oriented weakly.
+12(p5, +2(p2, x)) -> +12(p5, x)
POL( +12(x1, x2) ) = max{0, x2 - 3}
POL( +2(x1, x2) ) = x1 + x2 + 1
POL( p2 ) = 3
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ PisEmptyProof
↳ QDP
+2(p1, p1) -> p2
+2(p1, +2(p2, p2)) -> p5
+2(p5, p5) -> p10
+2(+2(x, y), z) -> +2(x, +2(y, z))
+2(p1, +2(p1, x)) -> +2(p2, x)
+2(p1, +2(p2, +2(p2, x))) -> +2(p5, x)
+2(p2, p1) -> +2(p1, p2)
+2(p2, +2(p1, x)) -> +2(p1, +2(p2, x))
+2(p2, +2(p2, p2)) -> +2(p1, p5)
+2(p2, +2(p2, +2(p2, x))) -> +2(p1, +2(p5, x))
+2(p5, p1) -> +2(p1, p5)
+2(p5, +2(p1, x)) -> +2(p1, +2(p5, x))
+2(p5, p2) -> +2(p2, p5)
+2(p5, +2(p2, x)) -> +2(p2, +2(p5, x))
+2(p5, +2(p5, x)) -> +2(p10, x)
+2(p10, p1) -> +2(p1, p10)
+2(p10, +2(p1, x)) -> +2(p1, +2(p10, x))
+2(p10, p2) -> +2(p2, p10)
+2(p10, +2(p2, x)) -> +2(p2, +2(p10, x))
+2(p10, p5) -> +2(p5, p10)
+2(p10, +2(p5, x)) -> +2(p5, +2(p10, x))
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDP
↳ QDPOrderProof
+12(p10, +2(p2, x)) -> +12(p10, x)
+2(p1, p1) -> p2
+2(p1, +2(p2, p2)) -> p5
+2(p5, p5) -> p10
+2(+2(x, y), z) -> +2(x, +2(y, z))
+2(p1, +2(p1, x)) -> +2(p2, x)
+2(p1, +2(p2, +2(p2, x))) -> +2(p5, x)
+2(p2, p1) -> +2(p1, p2)
+2(p2, +2(p1, x)) -> +2(p1, +2(p2, x))
+2(p2, +2(p2, p2)) -> +2(p1, p5)
+2(p2, +2(p2, +2(p2, x))) -> +2(p1, +2(p5, x))
+2(p5, p1) -> +2(p1, p5)
+2(p5, +2(p1, x)) -> +2(p1, +2(p5, x))
+2(p5, p2) -> +2(p2, p5)
+2(p5, +2(p2, x)) -> +2(p2, +2(p5, x))
+2(p5, +2(p5, x)) -> +2(p10, x)
+2(p10, p1) -> +2(p1, p10)
+2(p10, +2(p1, x)) -> +2(p1, +2(p10, x))
+2(p10, p2) -> +2(p2, p10)
+2(p10, +2(p2, x)) -> +2(p2, +2(p10, x))
+2(p10, p5) -> +2(p5, p10)
+2(p10, +2(p5, x)) -> +2(p5, +2(p10, x))
The following pairs can be oriented strictly and are deleted.
The remaining pairs can at least be oriented weakly.
+12(p10, +2(p2, x)) -> +12(p10, x)
POL( +12(x1, x2) ) = max{0, x2 - 3}
POL( +2(x1, x2) ) = x1 + x2 + 1
POL( p2 ) = 3
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ PisEmptyProof
+2(p1, p1) -> p2
+2(p1, +2(p2, p2)) -> p5
+2(p5, p5) -> p10
+2(+2(x, y), z) -> +2(x, +2(y, z))
+2(p1, +2(p1, x)) -> +2(p2, x)
+2(p1, +2(p2, +2(p2, x))) -> +2(p5, x)
+2(p2, p1) -> +2(p1, p2)
+2(p2, +2(p1, x)) -> +2(p1, +2(p2, x))
+2(p2, +2(p2, p2)) -> +2(p1, p5)
+2(p2, +2(p2, +2(p2, x))) -> +2(p1, +2(p5, x))
+2(p5, p1) -> +2(p1, p5)
+2(p5, +2(p1, x)) -> +2(p1, +2(p5, x))
+2(p5, p2) -> +2(p2, p5)
+2(p5, +2(p2, x)) -> +2(p2, +2(p5, x))
+2(p5, +2(p5, x)) -> +2(p10, x)
+2(p10, p1) -> +2(p1, p10)
+2(p10, +2(p1, x)) -> +2(p1, +2(p10, x))
+2(p10, p2) -> +2(p2, p10)
+2(p10, +2(p2, x)) -> +2(p2, +2(p10, x))
+2(p10, p5) -> +2(p5, p10)
+2(p10, +2(p5, x)) -> +2(p5, +2(p10, x))