le₂(0, y) -> true
le₂(s₁(x), 0) -> false
le₂(s₁(x), s₁(y)) -> le₂(x, y)
minus₂(x, 0) -> x
minus₂(s₁(x), s₁(y)) -> minus₂(x, y)
gcd₂(0, y) -> y
gcd₂(s₁(x), 0) -> s₁(x)
gcd₂(s₁(x), s₁(y)) -> if_gcd₃(le₂(y, x), s₁(x), s₁(y))
if_gcd₃(true, s₁(x), s₁(y)) -> gcd₂(minus₂(x, y), s₁(y))
if_gcd₃(false, s₁(x), s₁(y)) -> gcd₂(minus₂(y, x), s₁(x))

↳ QTRS

  ↳ Non-Overlap Check

le₂(0, y) -> true
le₂(s₁(x), 0) -> false
le₂(s₁(x), s₁(y)) -> le₂(x, y)
minus₂(x, 0) -> x
minus₂(s₁(x), s₁(y)) -> minus₂(x, y)
gcd₂(0, y) -> y
gcd₂(s₁(x), 0) -> s₁(x)
gcd₂(s₁(x), s₁(y)) -> if_gcd₃(le₂(y, x), s₁(x), s₁(y))
if_gcd₃(true, s₁(x), s₁(y)) -> gcd₂(minus₂(x, y), s₁(y))
if_gcd₃(false, s₁(x), s₁(y)) -> gcd₂(minus₂(y, x), s₁(x))

↳ QTRS

  ↳ Non-Overlap Check

    ↳ QTRS

      ↳ DependencyPairsProof

le₂(0, y) -> true
le₂(s₁(x), 0) -> false
le₂(s₁(x), s₁(y)) -> le₂(x, y)
minus₂(x, 0) -> x
minus₂(s₁(x), s₁(y)) -> minus₂(x, y)
gcd₂(0, y) -> y
gcd₂(s₁(x), 0) -> s₁(x)
gcd₂(s₁(x), s₁(y)) -> if_gcd₃(le₂(y, x), s₁(x), s₁(y))
if_gcd₃(true, s₁(x), s₁(y)) -> gcd₂(minus₂(x, y), s₁(y))
if_gcd₃(false, s₁(x), s₁(y)) -> gcd₂(minus₂(y, x), s₁(x))

le₂(0, x0)
le₂(s₁(x0), 0)
le₂(s₁(x0), s₁(x1))
minus₂(x0, 0)
minus₂(s₁(x0), s₁(x1))
gcd₂(0, x0)
gcd₂(s₁(x0), 0)
gcd₂(s₁(x0), s₁(x1))
if_gcd₃(true, s₁(x0), s₁(x1))
if_gcd₃(false, s₁(x0), s₁(x1))

IF_GCD₃(false, s₁(x), s₁(y)) -> GCD₂(minus₂(y, x), s₁(x))
IF_GCD₃(true, s₁(x), s₁(y)) -> MINUS₂(x, y)
LE₂(s₁(x), s₁(y)) -> LE₂(x, y)
GCD₂(s₁(x), s₁(y)) -> LE₂(y, x)
MINUS₂(s₁(x), s₁(y)) -> MINUS₂(x, y)
IF_GCD₃(true, s₁(x), s₁(y)) -> GCD₂(minus₂(x, y), s₁(y))
GCD₂(s₁(x), s₁(y)) -> IF_GCD₃(le₂(y, x), s₁(x), s₁(y))
IF_GCD₃(false, s₁(x), s₁(y)) -> MINUS₂(y, x)

le₂(0, y) -> true
le₂(s₁(x), 0) -> false
le₂(s₁(x), s₁(y)) -> le₂(x, y)
minus₂(x, 0) -> x
minus₂(s₁(x), s₁(y)) -> minus₂(x, y)
gcd₂(0, y) -> y
gcd₂(s₁(x), 0) -> s₁(x)
gcd₂(s₁(x), s₁(y)) -> if_gcd₃(le₂(y, x), s₁(x), s₁(y))
if_gcd₃(true, s₁(x), s₁(y)) -> gcd₂(minus₂(x, y), s₁(y))
if_gcd₃(false, s₁(x), s₁(y)) -> gcd₂(minus₂(y, x), s₁(x))

le₂(0, x0)
le₂(s₁(x0), 0)
le₂(s₁(x0), s₁(x1))
minus₂(x0, 0)
minus₂(s₁(x0), s₁(x1))
gcd₂(0, x0)
gcd₂(s₁(x0), 0)
gcd₂(s₁(x0), s₁(x1))
if_gcd₃(true, s₁(x0), s₁(x1))
if_gcd₃(false, s₁(x0), s₁(x1))

↳ QTRS

  ↳ Non-Overlap Check

    ↳ QTRS

      ↳ DependencyPairsProof

        ↳ QDP

          ↳ DependencyGraphProof

IF_GCD₃(false, s₁(x), s₁(y)) -> GCD₂(minus₂(y, x), s₁(x))
IF_GCD₃(true, s₁(x), s₁(y)) -> MINUS₂(x, y)
LE₂(s₁(x), s₁(y)) -> LE₂(x, y)
GCD₂(s₁(x), s₁(y)) -> LE₂(y, x)
MINUS₂(s₁(x), s₁(y)) -> MINUS₂(x, y)
IF_GCD₃(true, s₁(x), s₁(y)) -> GCD₂(minus₂(x, y), s₁(y))
GCD₂(s₁(x), s₁(y)) -> IF_GCD₃(le₂(y, x), s₁(x), s₁(y))
IF_GCD₃(false, s₁(x), s₁(y)) -> MINUS₂(y, x)

le₂(0, y) -> true
le₂(s₁(x), 0) -> false
le₂(s₁(x), s₁(y)) -> le₂(x, y)
minus₂(x, 0) -> x
minus₂(s₁(x), s₁(y)) -> minus₂(x, y)
gcd₂(0, y) -> y
gcd₂(s₁(x), 0) -> s₁(x)
gcd₂(s₁(x), s₁(y)) -> if_gcd₃(le₂(y, x), s₁(x), s₁(y))
if_gcd₃(true, s₁(x), s₁(y)) -> gcd₂(minus₂(x, y), s₁(y))
if_gcd₃(false, s₁(x), s₁(y)) -> gcd₂(minus₂(y, x), s₁(x))

le₂(0, x0)
le₂(s₁(x0), 0)
le₂(s₁(x0), s₁(x1))
minus₂(x0, 0)
minus₂(s₁(x0), s₁(x1))
gcd₂(0, x0)
gcd₂(s₁(x0), 0)
gcd₂(s₁(x0), s₁(x1))
if_gcd₃(true, s₁(x0), s₁(x1))
if_gcd₃(false, s₁(x0), s₁(x1))

↳ QTRS

  ↳ Non-Overlap Check

    ↳ QTRS

      ↳ DependencyPairsProof

        ↳ QDP

          ↳ DependencyGraphProof

            ↳ AND

              ↳ QDP

                ↳ QDPOrderProof

              ↳ QDP

              ↳ QDP

MINUS₂(s₁(x), s₁(y)) -> MINUS₂(x, y)

le₂(0, y) -> true
le₂(s₁(x), 0) -> false
le₂(s₁(x), s₁(y)) -> le₂(x, y)
minus₂(x, 0) -> x
minus₂(s₁(x), s₁(y)) -> minus₂(x, y)
gcd₂(0, y) -> y
gcd₂(s₁(x), 0) -> s₁(x)
gcd₂(s₁(x), s₁(y)) -> if_gcd₃(le₂(y, x), s₁(x), s₁(y))
if_gcd₃(true, s₁(x), s₁(y)) -> gcd₂(minus₂(x, y), s₁(y))
if_gcd₃(false, s₁(x), s₁(y)) -> gcd₂(minus₂(y, x), s₁(x))

le₂(0, x0)
le₂(s₁(x0), 0)
le₂(s₁(x0), s₁(x1))
minus₂(x0, 0)
minus₂(s₁(x0), s₁(x1))
gcd₂(0, x0)
gcd₂(s₁(x0), 0)
gcd₂(s₁(x0), s₁(x1))
if_gcd₃(true, s₁(x0), s₁(x1))
if_gcd₃(false, s₁(x0), s₁(x1))

The following pairs can be strictly oriented and are deleted.

MINUS₂(s₁(x), s₁(y)) -> MINUS₂(x, y)

trivial

↳ QTRS

  ↳ Non-Overlap Check

    ↳ QTRS

      ↳ DependencyPairsProof

        ↳ QDP

          ↳ DependencyGraphProof

            ↳ AND

              ↳ QDP

                ↳ QDPOrderProof

                  ↳ QDP

                    ↳ PisEmptyProof

              ↳ QDP

              ↳ QDP

le₂(0, y) -> true
le₂(s₁(x), 0) -> false
le₂(s₁(x), s₁(y)) -> le₂(x, y)
minus₂(x, 0) -> x
minus₂(s₁(x), s₁(y)) -> minus₂(x, y)
gcd₂(0, y) -> y
gcd₂(s₁(x), 0) -> s₁(x)
gcd₂(s₁(x), s₁(y)) -> if_gcd₃(le₂(y, x), s₁(x), s₁(y))
if_gcd₃(true, s₁(x), s₁(y)) -> gcd₂(minus₂(x, y), s₁(y))
if_gcd₃(false, s₁(x), s₁(y)) -> gcd₂(minus₂(y, x), s₁(x))

le₂(0, x0)
le₂(s₁(x0), 0)
le₂(s₁(x0), s₁(x1))
minus₂(x0, 0)
minus₂(s₁(x0), s₁(x1))
gcd₂(0, x0)
gcd₂(s₁(x0), 0)
gcd₂(s₁(x0), s₁(x1))
if_gcd₃(true, s₁(x0), s₁(x1))
if_gcd₃(false, s₁(x0), s₁(x1))

↳ QTRS

  ↳ Non-Overlap Check

    ↳ QTRS

      ↳ DependencyPairsProof

        ↳ QDP

          ↳ DependencyGraphProof

            ↳ AND

              ↳ QDP

              ↳ QDP

                ↳ QDPOrderProof

              ↳ QDP

LE₂(s₁(x), s₁(y)) -> LE₂(x, y)

le₂(0, y) -> true
le₂(s₁(x), 0) -> false
le₂(s₁(x), s₁(y)) -> le₂(x, y)
minus₂(x, 0) -> x
minus₂(s₁(x), s₁(y)) -> minus₂(x, y)
gcd₂(0, y) -> y
gcd₂(s₁(x), 0) -> s₁(x)
gcd₂(s₁(x), s₁(y)) -> if_gcd₃(le₂(y, x), s₁(x), s₁(y))
if_gcd₃(true, s₁(x), s₁(y)) -> gcd₂(minus₂(x, y), s₁(y))
if_gcd₃(false, s₁(x), s₁(y)) -> gcd₂(minus₂(y, x), s₁(x))

le₂(0, x0)
le₂(s₁(x0), 0)
le₂(s₁(x0), s₁(x1))
minus₂(x0, 0)
minus₂(s₁(x0), s₁(x1))
gcd₂(0, x0)
gcd₂(s₁(x0), 0)
gcd₂(s₁(x0), s₁(x1))
if_gcd₃(true, s₁(x0), s₁(x1))
if_gcd₃(false, s₁(x0), s₁(x1))

The following pairs can be strictly oriented and are deleted.

LE₂(s₁(x), s₁(y)) -> LE₂(x, y)

trivial

↳ QTRS

  ↳ Non-Overlap Check

    ↳ QTRS

      ↳ DependencyPairsProof

        ↳ QDP

          ↳ DependencyGraphProof

            ↳ AND

              ↳ QDP

              ↳ QDP

                ↳ QDPOrderProof

                  ↳ QDP

                    ↳ PisEmptyProof

              ↳ QDP

le₂(0, y) -> true
le₂(s₁(x), 0) -> false
le₂(s₁(x), s₁(y)) -> le₂(x, y)
minus₂(x, 0) -> x
minus₂(s₁(x), s₁(y)) -> minus₂(x, y)
gcd₂(0, y) -> y
gcd₂(s₁(x), 0) -> s₁(x)
gcd₂(s₁(x), s₁(y)) -> if_gcd₃(le₂(y, x), s₁(x), s₁(y))
if_gcd₃(true, s₁(x), s₁(y)) -> gcd₂(minus₂(x, y), s₁(y))
if_gcd₃(false, s₁(x), s₁(y)) -> gcd₂(minus₂(y, x), s₁(x))

le₂(0, x0)
le₂(s₁(x0), 0)
le₂(s₁(x0), s₁(x1))
minus₂(x0, 0)
minus₂(s₁(x0), s₁(x1))
gcd₂(0, x0)
gcd₂(s₁(x0), 0)
gcd₂(s₁(x0), s₁(x1))
if_gcd₃(true, s₁(x0), s₁(x1))
if_gcd₃(false, s₁(x0), s₁(x1))

↳ QTRS

  ↳ Non-Overlap Check

    ↳ QTRS

      ↳ DependencyPairsProof

        ↳ QDP

          ↳ DependencyGraphProof

            ↳ AND

              ↳ QDP

              ↳ QDP

              ↳ QDP

IF_GCD₃(false, s₁(x), s₁(y)) -> GCD₂(minus₂(y, x), s₁(x))
IF_GCD₃(true, s₁(x), s₁(y)) -> GCD₂(minus₂(x, y), s₁(y))
GCD₂(s₁(x), s₁(y)) -> IF_GCD₃(le₂(y, x), s₁(x), s₁(y))

le₂(0, y) -> true
le₂(s₁(x), 0) -> false
le₂(s₁(x), s₁(y)) -> le₂(x, y)
minus₂(x, 0) -> x
minus₂(s₁(x), s₁(y)) -> minus₂(x, y)
gcd₂(0, y) -> y
gcd₂(s₁(x), 0) -> s₁(x)
gcd₂(s₁(x), s₁(y)) -> if_gcd₃(le₂(y, x), s₁(x), s₁(y))
if_gcd₃(true, s₁(x), s₁(y)) -> gcd₂(minus₂(x, y), s₁(y))
if_gcd₃(false, s₁(x), s₁(y)) -> gcd₂(minus₂(y, x), s₁(x))

le₂(0, x0)
le₂(s₁(x0), 0)
le₂(s₁(x0), s₁(x1))
minus₂(x0, 0)
minus₂(s₁(x0), s₁(x1))
gcd₂(0, x0)
gcd₂(s₁(x0), 0)
gcd₂(s₁(x0), s₁(x1))
if_gcd₃(true, s₁(x0), s₁(x1))
if_gcd₃(false, s₁(x0), s₁(x1))