xor2(x, F) -> x
xor2(x, neg1(x)) -> F
and2(x, T) -> x
and2(x, F) -> F
and2(x, x) -> x
and2(xor2(x, y), z) -> xor2(and2(x, z), and2(y, z))
xor2(x, x) -> F
impl2(x, y) -> xor2(and2(x, y), xor2(x, T))
or2(x, y) -> xor2(and2(x, y), xor2(x, y))
equiv2(x, y) -> xor2(x, xor2(y, T))
neg1(x) -> xor2(x, T)
↳ QTRS
↳ DependencyPairsProof
xor2(x, F) -> x
xor2(x, neg1(x)) -> F
and2(x, T) -> x
and2(x, F) -> F
and2(x, x) -> x
and2(xor2(x, y), z) -> xor2(and2(x, z), and2(y, z))
xor2(x, x) -> F
impl2(x, y) -> xor2(and2(x, y), xor2(x, T))
or2(x, y) -> xor2(and2(x, y), xor2(x, y))
equiv2(x, y) -> xor2(x, xor2(y, T))
neg1(x) -> xor2(x, T)
IMPL2(x, y) -> XOR2(and2(x, y), xor2(x, T))
OR2(x, y) -> XOR2(x, y)
OR2(x, y) -> AND2(x, y)
IMPL2(x, y) -> AND2(x, y)
IMPL2(x, y) -> XOR2(x, T)
AND2(xor2(x, y), z) -> AND2(y, z)
AND2(xor2(x, y), z) -> AND2(x, z)
EQUIV2(x, y) -> XOR2(y, T)
OR2(x, y) -> XOR2(and2(x, y), xor2(x, y))
AND2(xor2(x, y), z) -> XOR2(and2(x, z), and2(y, z))
NEG1(x) -> XOR2(x, T)
EQUIV2(x, y) -> XOR2(x, xor2(y, T))
xor2(x, F) -> x
xor2(x, neg1(x)) -> F
and2(x, T) -> x
and2(x, F) -> F
and2(x, x) -> x
and2(xor2(x, y), z) -> xor2(and2(x, z), and2(y, z))
xor2(x, x) -> F
impl2(x, y) -> xor2(and2(x, y), xor2(x, T))
or2(x, y) -> xor2(and2(x, y), xor2(x, y))
equiv2(x, y) -> xor2(x, xor2(y, T))
neg1(x) -> xor2(x, T)
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
IMPL2(x, y) -> XOR2(and2(x, y), xor2(x, T))
OR2(x, y) -> XOR2(x, y)
OR2(x, y) -> AND2(x, y)
IMPL2(x, y) -> AND2(x, y)
IMPL2(x, y) -> XOR2(x, T)
AND2(xor2(x, y), z) -> AND2(y, z)
AND2(xor2(x, y), z) -> AND2(x, z)
EQUIV2(x, y) -> XOR2(y, T)
OR2(x, y) -> XOR2(and2(x, y), xor2(x, y))
AND2(xor2(x, y), z) -> XOR2(and2(x, z), and2(y, z))
NEG1(x) -> XOR2(x, T)
EQUIV2(x, y) -> XOR2(x, xor2(y, T))
xor2(x, F) -> x
xor2(x, neg1(x)) -> F
and2(x, T) -> x
and2(x, F) -> F
and2(x, x) -> x
and2(xor2(x, y), z) -> xor2(and2(x, z), and2(y, z))
xor2(x, x) -> F
impl2(x, y) -> xor2(and2(x, y), xor2(x, T))
or2(x, y) -> xor2(and2(x, y), xor2(x, y))
equiv2(x, y) -> xor2(x, xor2(y, T))
neg1(x) -> xor2(x, T)
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ QDP
↳ QDPOrderProof
AND2(xor2(x, y), z) -> AND2(y, z)
AND2(xor2(x, y), z) -> AND2(x, z)
xor2(x, F) -> x
xor2(x, neg1(x)) -> F
and2(x, T) -> x
and2(x, F) -> F
and2(x, x) -> x
and2(xor2(x, y), z) -> xor2(and2(x, z), and2(y, z))
xor2(x, x) -> F
impl2(x, y) -> xor2(and2(x, y), xor2(x, T))
or2(x, y) -> xor2(and2(x, y), xor2(x, y))
equiv2(x, y) -> xor2(x, xor2(y, T))
neg1(x) -> xor2(x, T)
The following pairs can be oriented strictly and are deleted.
The remaining pairs can at least be oriented weakly.
AND2(xor2(x, y), z) -> AND2(y, z)
AND2(xor2(x, y), z) -> AND2(x, z)
POL( AND2(x1, x2) ) = x1
POL( xor2(x1, x2) ) = x1 + x2 + 1
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ PisEmptyProof
xor2(x, F) -> x
xor2(x, neg1(x)) -> F
and2(x, T) -> x
and2(x, F) -> F
and2(x, x) -> x
and2(xor2(x, y), z) -> xor2(and2(x, z), and2(y, z))
xor2(x, x) -> F
impl2(x, y) -> xor2(and2(x, y), xor2(x, T))
or2(x, y) -> xor2(and2(x, y), xor2(x, y))
equiv2(x, y) -> xor2(x, xor2(y, T))
neg1(x) -> xor2(x, T)