active1(f3(b, c, x)) -> mark1(f3(x, x, x))
active1(f3(x, y, z)) -> f3(x, y, active1(z))
active1(d) -> m1(b)
f3(x, y, mark1(z)) -> mark1(f3(x, y, z))
active1(d) -> mark1(c)
proper1(b) -> ok1(b)
proper1(c) -> ok1(c)
proper1(d) -> ok1(d)
proper1(f3(x, y, z)) -> f3(proper1(x), proper1(y), proper1(z))
f3(ok1(x), ok1(y), ok1(z)) -> ok1(f3(x, y, z))
top1(mark1(x)) -> top1(proper1(x))
top1(ok1(x)) -> top1(active1(x))
↳ QTRS
↳ DependencyPairsProof
active1(f3(b, c, x)) -> mark1(f3(x, x, x))
active1(f3(x, y, z)) -> f3(x, y, active1(z))
active1(d) -> m1(b)
f3(x, y, mark1(z)) -> mark1(f3(x, y, z))
active1(d) -> mark1(c)
proper1(b) -> ok1(b)
proper1(c) -> ok1(c)
proper1(d) -> ok1(d)
proper1(f3(x, y, z)) -> f3(proper1(x), proper1(y), proper1(z))
f3(ok1(x), ok1(y), ok1(z)) -> ok1(f3(x, y, z))
top1(mark1(x)) -> top1(proper1(x))
top1(ok1(x)) -> top1(active1(x))
ACTIVE1(f3(x, y, z)) -> ACTIVE1(z)
PROPER1(f3(x, y, z)) -> PROPER1(x)
TOP1(mark1(x)) -> PROPER1(x)
PROPER1(f3(x, y, z)) -> PROPER1(z)
TOP1(ok1(x)) -> ACTIVE1(x)
ACTIVE1(f3(x, y, z)) -> F3(x, y, active1(z))
ACTIVE1(f3(b, c, x)) -> F3(x, x, x)
TOP1(ok1(x)) -> TOP1(active1(x))
TOP1(mark1(x)) -> TOP1(proper1(x))
PROPER1(f3(x, y, z)) -> PROPER1(y)
PROPER1(f3(x, y, z)) -> F3(proper1(x), proper1(y), proper1(z))
F3(x, y, mark1(z)) -> F3(x, y, z)
F3(ok1(x), ok1(y), ok1(z)) -> F3(x, y, z)
active1(f3(b, c, x)) -> mark1(f3(x, x, x))
active1(f3(x, y, z)) -> f3(x, y, active1(z))
active1(d) -> m1(b)
f3(x, y, mark1(z)) -> mark1(f3(x, y, z))
active1(d) -> mark1(c)
proper1(b) -> ok1(b)
proper1(c) -> ok1(c)
proper1(d) -> ok1(d)
proper1(f3(x, y, z)) -> f3(proper1(x), proper1(y), proper1(z))
f3(ok1(x), ok1(y), ok1(z)) -> ok1(f3(x, y, z))
top1(mark1(x)) -> top1(proper1(x))
top1(ok1(x)) -> top1(active1(x))
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
ACTIVE1(f3(x, y, z)) -> ACTIVE1(z)
PROPER1(f3(x, y, z)) -> PROPER1(x)
TOP1(mark1(x)) -> PROPER1(x)
PROPER1(f3(x, y, z)) -> PROPER1(z)
TOP1(ok1(x)) -> ACTIVE1(x)
ACTIVE1(f3(x, y, z)) -> F3(x, y, active1(z))
ACTIVE1(f3(b, c, x)) -> F3(x, x, x)
TOP1(ok1(x)) -> TOP1(active1(x))
TOP1(mark1(x)) -> TOP1(proper1(x))
PROPER1(f3(x, y, z)) -> PROPER1(y)
PROPER1(f3(x, y, z)) -> F3(proper1(x), proper1(y), proper1(z))
F3(x, y, mark1(z)) -> F3(x, y, z)
F3(ok1(x), ok1(y), ok1(z)) -> F3(x, y, z)
active1(f3(b, c, x)) -> mark1(f3(x, x, x))
active1(f3(x, y, z)) -> f3(x, y, active1(z))
active1(d) -> m1(b)
f3(x, y, mark1(z)) -> mark1(f3(x, y, z))
active1(d) -> mark1(c)
proper1(b) -> ok1(b)
proper1(c) -> ok1(c)
proper1(d) -> ok1(d)
proper1(f3(x, y, z)) -> f3(proper1(x), proper1(y), proper1(z))
f3(ok1(x), ok1(y), ok1(z)) -> ok1(f3(x, y, z))
top1(mark1(x)) -> top1(proper1(x))
top1(ok1(x)) -> top1(active1(x))
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ QDP
↳ QDP
F3(x, y, mark1(z)) -> F3(x, y, z)
F3(ok1(x), ok1(y), ok1(z)) -> F3(x, y, z)
active1(f3(b, c, x)) -> mark1(f3(x, x, x))
active1(f3(x, y, z)) -> f3(x, y, active1(z))
active1(d) -> m1(b)
f3(x, y, mark1(z)) -> mark1(f3(x, y, z))
active1(d) -> mark1(c)
proper1(b) -> ok1(b)
proper1(c) -> ok1(c)
proper1(d) -> ok1(d)
proper1(f3(x, y, z)) -> f3(proper1(x), proper1(y), proper1(z))
f3(ok1(x), ok1(y), ok1(z)) -> ok1(f3(x, y, z))
top1(mark1(x)) -> top1(proper1(x))
top1(ok1(x)) -> top1(active1(x))
The following pairs can be strictly oriented and are deleted.
The remaining pairs can at least by weakly be oriented.
F3(ok1(x), ok1(y), ok1(z)) -> F3(x, y, z)
Used ordering: Combined order from the following AFS and order.
F3(x, y, mark1(z)) -> F3(x, y, z)
ok1 > F3
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ QDP
↳ QDP
F3(x, y, mark1(z)) -> F3(x, y, z)
active1(f3(b, c, x)) -> mark1(f3(x, x, x))
active1(f3(x, y, z)) -> f3(x, y, active1(z))
active1(d) -> m1(b)
f3(x, y, mark1(z)) -> mark1(f3(x, y, z))
active1(d) -> mark1(c)
proper1(b) -> ok1(b)
proper1(c) -> ok1(c)
proper1(d) -> ok1(d)
proper1(f3(x, y, z)) -> f3(proper1(x), proper1(y), proper1(z))
f3(ok1(x), ok1(y), ok1(z)) -> ok1(f3(x, y, z))
top1(mark1(x)) -> top1(proper1(x))
top1(ok1(x)) -> top1(active1(x))
The following pairs can be strictly oriented and are deleted.
The remaining pairs can at least by weakly be oriented.
F3(x, y, mark1(z)) -> F3(x, y, z)
mark1 > F1
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ PisEmptyProof
↳ QDP
↳ QDP
↳ QDP
active1(f3(b, c, x)) -> mark1(f3(x, x, x))
active1(f3(x, y, z)) -> f3(x, y, active1(z))
active1(d) -> m1(b)
f3(x, y, mark1(z)) -> mark1(f3(x, y, z))
active1(d) -> mark1(c)
proper1(b) -> ok1(b)
proper1(c) -> ok1(c)
proper1(d) -> ok1(d)
proper1(f3(x, y, z)) -> f3(proper1(x), proper1(y), proper1(z))
f3(ok1(x), ok1(y), ok1(z)) -> ok1(f3(x, y, z))
top1(mark1(x)) -> top1(proper1(x))
top1(ok1(x)) -> top1(active1(x))
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ QDP
PROPER1(f3(x, y, z)) -> PROPER1(x)
PROPER1(f3(x, y, z)) -> PROPER1(z)
PROPER1(f3(x, y, z)) -> PROPER1(y)
active1(f3(b, c, x)) -> mark1(f3(x, x, x))
active1(f3(x, y, z)) -> f3(x, y, active1(z))
active1(d) -> m1(b)
f3(x, y, mark1(z)) -> mark1(f3(x, y, z))
active1(d) -> mark1(c)
proper1(b) -> ok1(b)
proper1(c) -> ok1(c)
proper1(d) -> ok1(d)
proper1(f3(x, y, z)) -> f3(proper1(x), proper1(y), proper1(z))
f3(ok1(x), ok1(y), ok1(z)) -> ok1(f3(x, y, z))
top1(mark1(x)) -> top1(proper1(x))
top1(ok1(x)) -> top1(active1(x))
The following pairs can be strictly oriented and are deleted.
The remaining pairs can at least by weakly be oriented.
PROPER1(f3(x, y, z)) -> PROPER1(x)
PROPER1(f3(x, y, z)) -> PROPER1(z)
PROPER1(f3(x, y, z)) -> PROPER1(y)
trivial
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ PisEmptyProof
↳ QDP
↳ QDP
active1(f3(b, c, x)) -> mark1(f3(x, x, x))
active1(f3(x, y, z)) -> f3(x, y, active1(z))
active1(d) -> m1(b)
f3(x, y, mark1(z)) -> mark1(f3(x, y, z))
active1(d) -> mark1(c)
proper1(b) -> ok1(b)
proper1(c) -> ok1(c)
proper1(d) -> ok1(d)
proper1(f3(x, y, z)) -> f3(proper1(x), proper1(y), proper1(z))
f3(ok1(x), ok1(y), ok1(z)) -> ok1(f3(x, y, z))
top1(mark1(x)) -> top1(proper1(x))
top1(ok1(x)) -> top1(active1(x))
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDP
↳ QDP
↳ QDPOrderProof
↳ QDP
ACTIVE1(f3(x, y, z)) -> ACTIVE1(z)
active1(f3(b, c, x)) -> mark1(f3(x, x, x))
active1(f3(x, y, z)) -> f3(x, y, active1(z))
active1(d) -> m1(b)
f3(x, y, mark1(z)) -> mark1(f3(x, y, z))
active1(d) -> mark1(c)
proper1(b) -> ok1(b)
proper1(c) -> ok1(c)
proper1(d) -> ok1(d)
proper1(f3(x, y, z)) -> f3(proper1(x), proper1(y), proper1(z))
f3(ok1(x), ok1(y), ok1(z)) -> ok1(f3(x, y, z))
top1(mark1(x)) -> top1(proper1(x))
top1(ok1(x)) -> top1(active1(x))
The following pairs can be strictly oriented and are deleted.
The remaining pairs can at least by weakly be oriented.
ACTIVE1(f3(x, y, z)) -> ACTIVE1(z)
f2 > ACTIVE1
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDP
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ PisEmptyProof
↳ QDP
active1(f3(b, c, x)) -> mark1(f3(x, x, x))
active1(f3(x, y, z)) -> f3(x, y, active1(z))
active1(d) -> m1(b)
f3(x, y, mark1(z)) -> mark1(f3(x, y, z))
active1(d) -> mark1(c)
proper1(b) -> ok1(b)
proper1(c) -> ok1(c)
proper1(d) -> ok1(d)
proper1(f3(x, y, z)) -> f3(proper1(x), proper1(y), proper1(z))
f3(ok1(x), ok1(y), ok1(z)) -> ok1(f3(x, y, z))
top1(mark1(x)) -> top1(proper1(x))
top1(ok1(x)) -> top1(active1(x))
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDP
↳ QDP
↳ QDP
TOP1(ok1(x)) -> TOP1(active1(x))
TOP1(mark1(x)) -> TOP1(proper1(x))
active1(f3(b, c, x)) -> mark1(f3(x, x, x))
active1(f3(x, y, z)) -> f3(x, y, active1(z))
active1(d) -> m1(b)
f3(x, y, mark1(z)) -> mark1(f3(x, y, z))
active1(d) -> mark1(c)
proper1(b) -> ok1(b)
proper1(c) -> ok1(c)
proper1(d) -> ok1(d)
proper1(f3(x, y, z)) -> f3(proper1(x), proper1(y), proper1(z))
f3(ok1(x), ok1(y), ok1(z)) -> ok1(f3(x, y, z))
top1(mark1(x)) -> top1(proper1(x))
top1(ok1(x)) -> top1(active1(x))