Termination w.r.t. Q of the following Term Rewriting System could not be shown:

Q restricted rewrite system:
The TRS R consists of the following rules:

intersect'ii'in2(cons2(X, X0), cons2(X, X1)) -> intersect'ii'out
intersect'ii'in2(Xs, cons2(X0, Ys)) -> u'1'11(intersect'ii'in2(Xs, Ys))
u'1'11(intersect'ii'out) -> intersect'ii'out
intersect'ii'in2(cons2(X0, Xs), Ys) -> u'2'11(intersect'ii'in2(Xs, Ys))
u'2'11(intersect'ii'out) -> intersect'ii'out
reduce'ii'in2(sequent2(cons2(if2(A, B), Fs), Gs), NF) -> u'3'11(reduce'ii'in2(sequent2(cons2(x'2b2(x'2d1(B), A), Fs), Gs), NF))
u'3'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(iff2(A, B), Fs), Gs), NF) -> u'4'11(reduce'ii'in2(sequent2(cons2(x'2a2(if2(A, B), if2(B, A)), Fs), Gs), NF))
u'4'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2a2(F1, F2), Fs), Gs), NF) -> u'5'11(reduce'ii'in2(sequent2(cons2(F1, cons2(F2, Fs)), Gs), NF))
u'5'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2b2(F1, F2), Fs), Gs), NF) -> u'6'15(reduce'ii'in2(sequent2(cons2(F1, Fs), Gs), NF), F2, Fs, Gs, NF)
u'6'15(reduce'ii'out, F2, Fs, Gs, NF) -> u'6'21(reduce'ii'in2(sequent2(cons2(F2, Fs), Gs), NF))
u'6'21(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2d1(F1), Fs), Gs), NF) -> u'7'11(reduce'ii'in2(sequent2(Fs, cons2(F1, Gs)), NF))
u'7'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(if2(A, B), Gs)), NF) -> u'8'11(reduce'ii'in2(sequent2(Fs, cons2(x'2b2(x'2d1(B), A), Gs)), NF))
u'8'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(iff2(A, B), Gs)), NF) -> u'9'11(reduce'ii'in2(sequent2(Fs, cons2(x'2a2(if2(A, B), if2(B, A)), Gs)), NF))
u'9'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(p1(V), Fs), Gs), sequent2(Left, Right)) -> u'10'11(reduce'ii'in2(sequent2(Fs, Gs), sequent2(cons2(p1(V), Left), Right)))
u'10'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2b2(G1, G2), Gs)), NF) -> u'11'11(reduce'ii'in2(sequent2(Fs, cons2(G1, cons2(G2, Gs))), NF))
u'11'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2a2(G1, G2), Gs)), NF) -> u'12'15(reduce'ii'in2(sequent2(Fs, cons2(G1, Gs)), NF), Fs, G2, Gs, NF)
u'12'15(reduce'ii'out, Fs, G2, Gs, NF) -> u'12'21(reduce'ii'in2(sequent2(Fs, cons2(G2, Gs)), NF))
u'12'21(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2d1(G1), Gs)), NF) -> u'13'11(reduce'ii'in2(sequent2(cons2(G1, Fs), Gs), NF))
u'13'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(nil, cons2(p1(V), Gs)), sequent2(Left, Right)) -> u'14'11(reduce'ii'in2(sequent2(nil, Gs), sequent2(Left, cons2(p1(V), Right))))
u'14'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(nil, nil), sequent2(F1, F2)) -> u'15'11(intersect'ii'in2(F1, F2))
u'15'11(intersect'ii'out) -> reduce'ii'out
tautology'i'in1(F) -> u'16'11(reduce'ii'in2(sequent2(nil, cons2(F, nil)), sequent2(nil, nil)))
u'16'11(reduce'ii'out) -> tautology'i'out

Q is empty.


QTRS
  ↳ DependencyPairsProof

Q restricted rewrite system:
The TRS R consists of the following rules:

intersect'ii'in2(cons2(X, X0), cons2(X, X1)) -> intersect'ii'out
intersect'ii'in2(Xs, cons2(X0, Ys)) -> u'1'11(intersect'ii'in2(Xs, Ys))
u'1'11(intersect'ii'out) -> intersect'ii'out
intersect'ii'in2(cons2(X0, Xs), Ys) -> u'2'11(intersect'ii'in2(Xs, Ys))
u'2'11(intersect'ii'out) -> intersect'ii'out
reduce'ii'in2(sequent2(cons2(if2(A, B), Fs), Gs), NF) -> u'3'11(reduce'ii'in2(sequent2(cons2(x'2b2(x'2d1(B), A), Fs), Gs), NF))
u'3'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(iff2(A, B), Fs), Gs), NF) -> u'4'11(reduce'ii'in2(sequent2(cons2(x'2a2(if2(A, B), if2(B, A)), Fs), Gs), NF))
u'4'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2a2(F1, F2), Fs), Gs), NF) -> u'5'11(reduce'ii'in2(sequent2(cons2(F1, cons2(F2, Fs)), Gs), NF))
u'5'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2b2(F1, F2), Fs), Gs), NF) -> u'6'15(reduce'ii'in2(sequent2(cons2(F1, Fs), Gs), NF), F2, Fs, Gs, NF)
u'6'15(reduce'ii'out, F2, Fs, Gs, NF) -> u'6'21(reduce'ii'in2(sequent2(cons2(F2, Fs), Gs), NF))
u'6'21(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2d1(F1), Fs), Gs), NF) -> u'7'11(reduce'ii'in2(sequent2(Fs, cons2(F1, Gs)), NF))
u'7'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(if2(A, B), Gs)), NF) -> u'8'11(reduce'ii'in2(sequent2(Fs, cons2(x'2b2(x'2d1(B), A), Gs)), NF))
u'8'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(iff2(A, B), Gs)), NF) -> u'9'11(reduce'ii'in2(sequent2(Fs, cons2(x'2a2(if2(A, B), if2(B, A)), Gs)), NF))
u'9'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(p1(V), Fs), Gs), sequent2(Left, Right)) -> u'10'11(reduce'ii'in2(sequent2(Fs, Gs), sequent2(cons2(p1(V), Left), Right)))
u'10'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2b2(G1, G2), Gs)), NF) -> u'11'11(reduce'ii'in2(sequent2(Fs, cons2(G1, cons2(G2, Gs))), NF))
u'11'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2a2(G1, G2), Gs)), NF) -> u'12'15(reduce'ii'in2(sequent2(Fs, cons2(G1, Gs)), NF), Fs, G2, Gs, NF)
u'12'15(reduce'ii'out, Fs, G2, Gs, NF) -> u'12'21(reduce'ii'in2(sequent2(Fs, cons2(G2, Gs)), NF))
u'12'21(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2d1(G1), Gs)), NF) -> u'13'11(reduce'ii'in2(sequent2(cons2(G1, Fs), Gs), NF))
u'13'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(nil, cons2(p1(V), Gs)), sequent2(Left, Right)) -> u'14'11(reduce'ii'in2(sequent2(nil, Gs), sequent2(Left, cons2(p1(V), Right))))
u'14'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(nil, nil), sequent2(F1, F2)) -> u'15'11(intersect'ii'in2(F1, F2))
u'15'11(intersect'ii'out) -> reduce'ii'out
tautology'i'in1(F) -> u'16'11(reduce'ii'in2(sequent2(nil, cons2(F, nil)), sequent2(nil, nil)))
u'16'11(reduce'ii'out) -> tautology'i'out

Q is empty.

Using Dependency Pairs [1,13] we result in the following initial DP problem:
Q DP problem:
The TRS P consists of the following rules:

REDUCE'II'IN2(sequent2(Fs, cons2(x'2a2(G1, G2), Gs)), NF) -> REDUCE'II'IN2(sequent2(Fs, cons2(G1, Gs)), NF)
REDUCE'II'IN2(sequent2(cons2(x'2d1(F1), Fs), Gs), NF) -> REDUCE'II'IN2(sequent2(Fs, cons2(F1, Gs)), NF)
REDUCE'II'IN2(sequent2(nil, nil), sequent2(F1, F2)) -> U'15'11(intersect'ii'in2(F1, F2))
REDUCE'II'IN2(sequent2(cons2(x'2a2(F1, F2), Fs), Gs), NF) -> REDUCE'II'IN2(sequent2(cons2(F1, cons2(F2, Fs)), Gs), NF)
INTERSECT'II'IN2(Xs, cons2(X0, Ys)) -> U'1'11(intersect'ii'in2(Xs, Ys))
REDUCE'II'IN2(sequent2(nil, cons2(p1(V), Gs)), sequent2(Left, Right)) -> U'14'11(reduce'ii'in2(sequent2(nil, Gs), sequent2(Left, cons2(p1(V), Right))))
REDUCE'II'IN2(sequent2(cons2(x'2a2(F1, F2), Fs), Gs), NF) -> U'5'11(reduce'ii'in2(sequent2(cons2(F1, cons2(F2, Fs)), Gs), NF))
U'12'15(reduce'ii'out, Fs, G2, Gs, NF) -> U'12'21(reduce'ii'in2(sequent2(Fs, cons2(G2, Gs)), NF))
REDUCE'II'IN2(sequent2(cons2(x'2d1(F1), Fs), Gs), NF) -> U'7'11(reduce'ii'in2(sequent2(Fs, cons2(F1, Gs)), NF))
REDUCE'II'IN2(sequent2(Fs, cons2(x'2a2(G1, G2), Gs)), NF) -> U'12'15(reduce'ii'in2(sequent2(Fs, cons2(G1, Gs)), NF), Fs, G2, Gs, NF)
REDUCE'II'IN2(sequent2(cons2(p1(V), Fs), Gs), sequent2(Left, Right)) -> REDUCE'II'IN2(sequent2(Fs, Gs), sequent2(cons2(p1(V), Left), Right))
REDUCE'II'IN2(sequent2(cons2(iff2(A, B), Fs), Gs), NF) -> U'4'11(reduce'ii'in2(sequent2(cons2(x'2a2(if2(A, B), if2(B, A)), Fs), Gs), NF))
REDUCE'II'IN2(sequent2(cons2(if2(A, B), Fs), Gs), NF) -> U'3'11(reduce'ii'in2(sequent2(cons2(x'2b2(x'2d1(B), A), Fs), Gs), NF))
REDUCE'II'IN2(sequent2(Fs, cons2(if2(A, B), Gs)), NF) -> U'8'11(reduce'ii'in2(sequent2(Fs, cons2(x'2b2(x'2d1(B), A), Gs)), NF))
REDUCE'II'IN2(sequent2(cons2(x'2b2(F1, F2), Fs), Gs), NF) -> U'6'15(reduce'ii'in2(sequent2(cons2(F1, Fs), Gs), NF), F2, Fs, Gs, NF)
INTERSECT'II'IN2(Xs, cons2(X0, Ys)) -> INTERSECT'II'IN2(Xs, Ys)
REDUCE'II'IN2(sequent2(Fs, cons2(x'2b2(G1, G2), Gs)), NF) -> U'11'11(reduce'ii'in2(sequent2(Fs, cons2(G1, cons2(G2, Gs))), NF))
REDUCE'II'IN2(sequent2(Fs, cons2(x'2d1(G1), Gs)), NF) -> U'13'11(reduce'ii'in2(sequent2(cons2(G1, Fs), Gs), NF))
U'6'15(reduce'ii'out, F2, Fs, Gs, NF) -> REDUCE'II'IN2(sequent2(cons2(F2, Fs), Gs), NF)
REDUCE'II'IN2(sequent2(nil, nil), sequent2(F1, F2)) -> INTERSECT'II'IN2(F1, F2)
REDUCE'II'IN2(sequent2(nil, cons2(p1(V), Gs)), sequent2(Left, Right)) -> REDUCE'II'IN2(sequent2(nil, Gs), sequent2(Left, cons2(p1(V), Right)))
REDUCE'II'IN2(sequent2(cons2(p1(V), Fs), Gs), sequent2(Left, Right)) -> U'10'11(reduce'ii'in2(sequent2(Fs, Gs), sequent2(cons2(p1(V), Left), Right)))
REDUCE'II'IN2(sequent2(cons2(x'2b2(F1, F2), Fs), Gs), NF) -> REDUCE'II'IN2(sequent2(cons2(F1, Fs), Gs), NF)
INTERSECT'II'IN2(cons2(X0, Xs), Ys) -> U'2'11(intersect'ii'in2(Xs, Ys))
REDUCE'II'IN2(sequent2(cons2(if2(A, B), Fs), Gs), NF) -> REDUCE'II'IN2(sequent2(cons2(x'2b2(x'2d1(B), A), Fs), Gs), NF)
REDUCE'II'IN2(sequent2(Fs, cons2(x'2d1(G1), Gs)), NF) -> REDUCE'II'IN2(sequent2(cons2(G1, Fs), Gs), NF)
INTERSECT'II'IN2(cons2(X0, Xs), Ys) -> INTERSECT'II'IN2(Xs, Ys)
REDUCE'II'IN2(sequent2(Fs, cons2(iff2(A, B), Gs)), NF) -> U'9'11(reduce'ii'in2(sequent2(Fs, cons2(x'2a2(if2(A, B), if2(B, A)), Gs)), NF))
TAUTOLOGY'I'IN1(F) -> REDUCE'II'IN2(sequent2(nil, cons2(F, nil)), sequent2(nil, nil))
REDUCE'II'IN2(sequent2(Fs, cons2(iff2(A, B), Gs)), NF) -> REDUCE'II'IN2(sequent2(Fs, cons2(x'2a2(if2(A, B), if2(B, A)), Gs)), NF)
REDUCE'II'IN2(sequent2(Fs, cons2(if2(A, B), Gs)), NF) -> REDUCE'II'IN2(sequent2(Fs, cons2(x'2b2(x'2d1(B), A), Gs)), NF)
REDUCE'II'IN2(sequent2(Fs, cons2(x'2b2(G1, G2), Gs)), NF) -> REDUCE'II'IN2(sequent2(Fs, cons2(G1, cons2(G2, Gs))), NF)
U'6'15(reduce'ii'out, F2, Fs, Gs, NF) -> U'6'21(reduce'ii'in2(sequent2(cons2(F2, Fs), Gs), NF))
REDUCE'II'IN2(sequent2(cons2(iff2(A, B), Fs), Gs), NF) -> REDUCE'II'IN2(sequent2(cons2(x'2a2(if2(A, B), if2(B, A)), Fs), Gs), NF)
TAUTOLOGY'I'IN1(F) -> U'16'11(reduce'ii'in2(sequent2(nil, cons2(F, nil)), sequent2(nil, nil)))
U'12'15(reduce'ii'out, Fs, G2, Gs, NF) -> REDUCE'II'IN2(sequent2(Fs, cons2(G2, Gs)), NF)

The TRS R consists of the following rules:

intersect'ii'in2(cons2(X, X0), cons2(X, X1)) -> intersect'ii'out
intersect'ii'in2(Xs, cons2(X0, Ys)) -> u'1'11(intersect'ii'in2(Xs, Ys))
u'1'11(intersect'ii'out) -> intersect'ii'out
intersect'ii'in2(cons2(X0, Xs), Ys) -> u'2'11(intersect'ii'in2(Xs, Ys))
u'2'11(intersect'ii'out) -> intersect'ii'out
reduce'ii'in2(sequent2(cons2(if2(A, B), Fs), Gs), NF) -> u'3'11(reduce'ii'in2(sequent2(cons2(x'2b2(x'2d1(B), A), Fs), Gs), NF))
u'3'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(iff2(A, B), Fs), Gs), NF) -> u'4'11(reduce'ii'in2(sequent2(cons2(x'2a2(if2(A, B), if2(B, A)), Fs), Gs), NF))
u'4'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2a2(F1, F2), Fs), Gs), NF) -> u'5'11(reduce'ii'in2(sequent2(cons2(F1, cons2(F2, Fs)), Gs), NF))
u'5'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2b2(F1, F2), Fs), Gs), NF) -> u'6'15(reduce'ii'in2(sequent2(cons2(F1, Fs), Gs), NF), F2, Fs, Gs, NF)
u'6'15(reduce'ii'out, F2, Fs, Gs, NF) -> u'6'21(reduce'ii'in2(sequent2(cons2(F2, Fs), Gs), NF))
u'6'21(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2d1(F1), Fs), Gs), NF) -> u'7'11(reduce'ii'in2(sequent2(Fs, cons2(F1, Gs)), NF))
u'7'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(if2(A, B), Gs)), NF) -> u'8'11(reduce'ii'in2(sequent2(Fs, cons2(x'2b2(x'2d1(B), A), Gs)), NF))
u'8'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(iff2(A, B), Gs)), NF) -> u'9'11(reduce'ii'in2(sequent2(Fs, cons2(x'2a2(if2(A, B), if2(B, A)), Gs)), NF))
u'9'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(p1(V), Fs), Gs), sequent2(Left, Right)) -> u'10'11(reduce'ii'in2(sequent2(Fs, Gs), sequent2(cons2(p1(V), Left), Right)))
u'10'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2b2(G1, G2), Gs)), NF) -> u'11'11(reduce'ii'in2(sequent2(Fs, cons2(G1, cons2(G2, Gs))), NF))
u'11'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2a2(G1, G2), Gs)), NF) -> u'12'15(reduce'ii'in2(sequent2(Fs, cons2(G1, Gs)), NF), Fs, G2, Gs, NF)
u'12'15(reduce'ii'out, Fs, G2, Gs, NF) -> u'12'21(reduce'ii'in2(sequent2(Fs, cons2(G2, Gs)), NF))
u'12'21(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2d1(G1), Gs)), NF) -> u'13'11(reduce'ii'in2(sequent2(cons2(G1, Fs), Gs), NF))
u'13'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(nil, cons2(p1(V), Gs)), sequent2(Left, Right)) -> u'14'11(reduce'ii'in2(sequent2(nil, Gs), sequent2(Left, cons2(p1(V), Right))))
u'14'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(nil, nil), sequent2(F1, F2)) -> u'15'11(intersect'ii'in2(F1, F2))
u'15'11(intersect'ii'out) -> reduce'ii'out
tautology'i'in1(F) -> u'16'11(reduce'ii'in2(sequent2(nil, cons2(F, nil)), sequent2(nil, nil)))
u'16'11(reduce'ii'out) -> tautology'i'out

Q is empty.
We have to consider all minimal (P,Q,R)-chains.

↳ QTRS
  ↳ DependencyPairsProof
QDP
      ↳ DependencyGraphProof

Q DP problem:
The TRS P consists of the following rules:

REDUCE'II'IN2(sequent2(Fs, cons2(x'2a2(G1, G2), Gs)), NF) -> REDUCE'II'IN2(sequent2(Fs, cons2(G1, Gs)), NF)
REDUCE'II'IN2(sequent2(cons2(x'2d1(F1), Fs), Gs), NF) -> REDUCE'II'IN2(sequent2(Fs, cons2(F1, Gs)), NF)
REDUCE'II'IN2(sequent2(nil, nil), sequent2(F1, F2)) -> U'15'11(intersect'ii'in2(F1, F2))
REDUCE'II'IN2(sequent2(cons2(x'2a2(F1, F2), Fs), Gs), NF) -> REDUCE'II'IN2(sequent2(cons2(F1, cons2(F2, Fs)), Gs), NF)
INTERSECT'II'IN2(Xs, cons2(X0, Ys)) -> U'1'11(intersect'ii'in2(Xs, Ys))
REDUCE'II'IN2(sequent2(nil, cons2(p1(V), Gs)), sequent2(Left, Right)) -> U'14'11(reduce'ii'in2(sequent2(nil, Gs), sequent2(Left, cons2(p1(V), Right))))
REDUCE'II'IN2(sequent2(cons2(x'2a2(F1, F2), Fs), Gs), NF) -> U'5'11(reduce'ii'in2(sequent2(cons2(F1, cons2(F2, Fs)), Gs), NF))
U'12'15(reduce'ii'out, Fs, G2, Gs, NF) -> U'12'21(reduce'ii'in2(sequent2(Fs, cons2(G2, Gs)), NF))
REDUCE'II'IN2(sequent2(cons2(x'2d1(F1), Fs), Gs), NF) -> U'7'11(reduce'ii'in2(sequent2(Fs, cons2(F1, Gs)), NF))
REDUCE'II'IN2(sequent2(Fs, cons2(x'2a2(G1, G2), Gs)), NF) -> U'12'15(reduce'ii'in2(sequent2(Fs, cons2(G1, Gs)), NF), Fs, G2, Gs, NF)
REDUCE'II'IN2(sequent2(cons2(p1(V), Fs), Gs), sequent2(Left, Right)) -> REDUCE'II'IN2(sequent2(Fs, Gs), sequent2(cons2(p1(V), Left), Right))
REDUCE'II'IN2(sequent2(cons2(iff2(A, B), Fs), Gs), NF) -> U'4'11(reduce'ii'in2(sequent2(cons2(x'2a2(if2(A, B), if2(B, A)), Fs), Gs), NF))
REDUCE'II'IN2(sequent2(cons2(if2(A, B), Fs), Gs), NF) -> U'3'11(reduce'ii'in2(sequent2(cons2(x'2b2(x'2d1(B), A), Fs), Gs), NF))
REDUCE'II'IN2(sequent2(Fs, cons2(if2(A, B), Gs)), NF) -> U'8'11(reduce'ii'in2(sequent2(Fs, cons2(x'2b2(x'2d1(B), A), Gs)), NF))
REDUCE'II'IN2(sequent2(cons2(x'2b2(F1, F2), Fs), Gs), NF) -> U'6'15(reduce'ii'in2(sequent2(cons2(F1, Fs), Gs), NF), F2, Fs, Gs, NF)
INTERSECT'II'IN2(Xs, cons2(X0, Ys)) -> INTERSECT'II'IN2(Xs, Ys)
REDUCE'II'IN2(sequent2(Fs, cons2(x'2b2(G1, G2), Gs)), NF) -> U'11'11(reduce'ii'in2(sequent2(Fs, cons2(G1, cons2(G2, Gs))), NF))
REDUCE'II'IN2(sequent2(Fs, cons2(x'2d1(G1), Gs)), NF) -> U'13'11(reduce'ii'in2(sequent2(cons2(G1, Fs), Gs), NF))
U'6'15(reduce'ii'out, F2, Fs, Gs, NF) -> REDUCE'II'IN2(sequent2(cons2(F2, Fs), Gs), NF)
REDUCE'II'IN2(sequent2(nil, nil), sequent2(F1, F2)) -> INTERSECT'II'IN2(F1, F2)
REDUCE'II'IN2(sequent2(nil, cons2(p1(V), Gs)), sequent2(Left, Right)) -> REDUCE'II'IN2(sequent2(nil, Gs), sequent2(Left, cons2(p1(V), Right)))
REDUCE'II'IN2(sequent2(cons2(p1(V), Fs), Gs), sequent2(Left, Right)) -> U'10'11(reduce'ii'in2(sequent2(Fs, Gs), sequent2(cons2(p1(V), Left), Right)))
REDUCE'II'IN2(sequent2(cons2(x'2b2(F1, F2), Fs), Gs), NF) -> REDUCE'II'IN2(sequent2(cons2(F1, Fs), Gs), NF)
INTERSECT'II'IN2(cons2(X0, Xs), Ys) -> U'2'11(intersect'ii'in2(Xs, Ys))
REDUCE'II'IN2(sequent2(cons2(if2(A, B), Fs), Gs), NF) -> REDUCE'II'IN2(sequent2(cons2(x'2b2(x'2d1(B), A), Fs), Gs), NF)
REDUCE'II'IN2(sequent2(Fs, cons2(x'2d1(G1), Gs)), NF) -> REDUCE'II'IN2(sequent2(cons2(G1, Fs), Gs), NF)
INTERSECT'II'IN2(cons2(X0, Xs), Ys) -> INTERSECT'II'IN2(Xs, Ys)
REDUCE'II'IN2(sequent2(Fs, cons2(iff2(A, B), Gs)), NF) -> U'9'11(reduce'ii'in2(sequent2(Fs, cons2(x'2a2(if2(A, B), if2(B, A)), Gs)), NF))
TAUTOLOGY'I'IN1(F) -> REDUCE'II'IN2(sequent2(nil, cons2(F, nil)), sequent2(nil, nil))
REDUCE'II'IN2(sequent2(Fs, cons2(iff2(A, B), Gs)), NF) -> REDUCE'II'IN2(sequent2(Fs, cons2(x'2a2(if2(A, B), if2(B, A)), Gs)), NF)
REDUCE'II'IN2(sequent2(Fs, cons2(if2(A, B), Gs)), NF) -> REDUCE'II'IN2(sequent2(Fs, cons2(x'2b2(x'2d1(B), A), Gs)), NF)
REDUCE'II'IN2(sequent2(Fs, cons2(x'2b2(G1, G2), Gs)), NF) -> REDUCE'II'IN2(sequent2(Fs, cons2(G1, cons2(G2, Gs))), NF)
U'6'15(reduce'ii'out, F2, Fs, Gs, NF) -> U'6'21(reduce'ii'in2(sequent2(cons2(F2, Fs), Gs), NF))
REDUCE'II'IN2(sequent2(cons2(iff2(A, B), Fs), Gs), NF) -> REDUCE'II'IN2(sequent2(cons2(x'2a2(if2(A, B), if2(B, A)), Fs), Gs), NF)
TAUTOLOGY'I'IN1(F) -> U'16'11(reduce'ii'in2(sequent2(nil, cons2(F, nil)), sequent2(nil, nil)))
U'12'15(reduce'ii'out, Fs, G2, Gs, NF) -> REDUCE'II'IN2(sequent2(Fs, cons2(G2, Gs)), NF)

The TRS R consists of the following rules:

intersect'ii'in2(cons2(X, X0), cons2(X, X1)) -> intersect'ii'out
intersect'ii'in2(Xs, cons2(X0, Ys)) -> u'1'11(intersect'ii'in2(Xs, Ys))
u'1'11(intersect'ii'out) -> intersect'ii'out
intersect'ii'in2(cons2(X0, Xs), Ys) -> u'2'11(intersect'ii'in2(Xs, Ys))
u'2'11(intersect'ii'out) -> intersect'ii'out
reduce'ii'in2(sequent2(cons2(if2(A, B), Fs), Gs), NF) -> u'3'11(reduce'ii'in2(sequent2(cons2(x'2b2(x'2d1(B), A), Fs), Gs), NF))
u'3'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(iff2(A, B), Fs), Gs), NF) -> u'4'11(reduce'ii'in2(sequent2(cons2(x'2a2(if2(A, B), if2(B, A)), Fs), Gs), NF))
u'4'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2a2(F1, F2), Fs), Gs), NF) -> u'5'11(reduce'ii'in2(sequent2(cons2(F1, cons2(F2, Fs)), Gs), NF))
u'5'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2b2(F1, F2), Fs), Gs), NF) -> u'6'15(reduce'ii'in2(sequent2(cons2(F1, Fs), Gs), NF), F2, Fs, Gs, NF)
u'6'15(reduce'ii'out, F2, Fs, Gs, NF) -> u'6'21(reduce'ii'in2(sequent2(cons2(F2, Fs), Gs), NF))
u'6'21(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2d1(F1), Fs), Gs), NF) -> u'7'11(reduce'ii'in2(sequent2(Fs, cons2(F1, Gs)), NF))
u'7'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(if2(A, B), Gs)), NF) -> u'8'11(reduce'ii'in2(sequent2(Fs, cons2(x'2b2(x'2d1(B), A), Gs)), NF))
u'8'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(iff2(A, B), Gs)), NF) -> u'9'11(reduce'ii'in2(sequent2(Fs, cons2(x'2a2(if2(A, B), if2(B, A)), Gs)), NF))
u'9'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(p1(V), Fs), Gs), sequent2(Left, Right)) -> u'10'11(reduce'ii'in2(sequent2(Fs, Gs), sequent2(cons2(p1(V), Left), Right)))
u'10'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2b2(G1, G2), Gs)), NF) -> u'11'11(reduce'ii'in2(sequent2(Fs, cons2(G1, cons2(G2, Gs))), NF))
u'11'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2a2(G1, G2), Gs)), NF) -> u'12'15(reduce'ii'in2(sequent2(Fs, cons2(G1, Gs)), NF), Fs, G2, Gs, NF)
u'12'15(reduce'ii'out, Fs, G2, Gs, NF) -> u'12'21(reduce'ii'in2(sequent2(Fs, cons2(G2, Gs)), NF))
u'12'21(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2d1(G1), Gs)), NF) -> u'13'11(reduce'ii'in2(sequent2(cons2(G1, Fs), Gs), NF))
u'13'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(nil, cons2(p1(V), Gs)), sequent2(Left, Right)) -> u'14'11(reduce'ii'in2(sequent2(nil, Gs), sequent2(Left, cons2(p1(V), Right))))
u'14'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(nil, nil), sequent2(F1, F2)) -> u'15'11(intersect'ii'in2(F1, F2))
u'15'11(intersect'ii'out) -> reduce'ii'out
tautology'i'in1(F) -> u'16'11(reduce'ii'in2(sequent2(nil, cons2(F, nil)), sequent2(nil, nil)))
u'16'11(reduce'ii'out) -> tautology'i'out

Q is empty.
We have to consider all minimal (P,Q,R)-chains.
The approximation of the Dependency Graph [13,14,18] contains 2 SCCs with 18 less nodes.

↳ QTRS
  ↳ DependencyPairsProof
    ↳ QDP
      ↳ DependencyGraphProof
        ↳ AND
QDP
            ↳ QDPOrderProof
          ↳ QDP

Q DP problem:
The TRS P consists of the following rules:

INTERSECT'II'IN2(cons2(X0, Xs), Ys) -> INTERSECT'II'IN2(Xs, Ys)
INTERSECT'II'IN2(Xs, cons2(X0, Ys)) -> INTERSECT'II'IN2(Xs, Ys)

The TRS R consists of the following rules:

intersect'ii'in2(cons2(X, X0), cons2(X, X1)) -> intersect'ii'out
intersect'ii'in2(Xs, cons2(X0, Ys)) -> u'1'11(intersect'ii'in2(Xs, Ys))
u'1'11(intersect'ii'out) -> intersect'ii'out
intersect'ii'in2(cons2(X0, Xs), Ys) -> u'2'11(intersect'ii'in2(Xs, Ys))
u'2'11(intersect'ii'out) -> intersect'ii'out
reduce'ii'in2(sequent2(cons2(if2(A, B), Fs), Gs), NF) -> u'3'11(reduce'ii'in2(sequent2(cons2(x'2b2(x'2d1(B), A), Fs), Gs), NF))
u'3'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(iff2(A, B), Fs), Gs), NF) -> u'4'11(reduce'ii'in2(sequent2(cons2(x'2a2(if2(A, B), if2(B, A)), Fs), Gs), NF))
u'4'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2a2(F1, F2), Fs), Gs), NF) -> u'5'11(reduce'ii'in2(sequent2(cons2(F1, cons2(F2, Fs)), Gs), NF))
u'5'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2b2(F1, F2), Fs), Gs), NF) -> u'6'15(reduce'ii'in2(sequent2(cons2(F1, Fs), Gs), NF), F2, Fs, Gs, NF)
u'6'15(reduce'ii'out, F2, Fs, Gs, NF) -> u'6'21(reduce'ii'in2(sequent2(cons2(F2, Fs), Gs), NF))
u'6'21(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2d1(F1), Fs), Gs), NF) -> u'7'11(reduce'ii'in2(sequent2(Fs, cons2(F1, Gs)), NF))
u'7'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(if2(A, B), Gs)), NF) -> u'8'11(reduce'ii'in2(sequent2(Fs, cons2(x'2b2(x'2d1(B), A), Gs)), NF))
u'8'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(iff2(A, B), Gs)), NF) -> u'9'11(reduce'ii'in2(sequent2(Fs, cons2(x'2a2(if2(A, B), if2(B, A)), Gs)), NF))
u'9'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(p1(V), Fs), Gs), sequent2(Left, Right)) -> u'10'11(reduce'ii'in2(sequent2(Fs, Gs), sequent2(cons2(p1(V), Left), Right)))
u'10'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2b2(G1, G2), Gs)), NF) -> u'11'11(reduce'ii'in2(sequent2(Fs, cons2(G1, cons2(G2, Gs))), NF))
u'11'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2a2(G1, G2), Gs)), NF) -> u'12'15(reduce'ii'in2(sequent2(Fs, cons2(G1, Gs)), NF), Fs, G2, Gs, NF)
u'12'15(reduce'ii'out, Fs, G2, Gs, NF) -> u'12'21(reduce'ii'in2(sequent2(Fs, cons2(G2, Gs)), NF))
u'12'21(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2d1(G1), Gs)), NF) -> u'13'11(reduce'ii'in2(sequent2(cons2(G1, Fs), Gs), NF))
u'13'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(nil, cons2(p1(V), Gs)), sequent2(Left, Right)) -> u'14'11(reduce'ii'in2(sequent2(nil, Gs), sequent2(Left, cons2(p1(V), Right))))
u'14'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(nil, nil), sequent2(F1, F2)) -> u'15'11(intersect'ii'in2(F1, F2))
u'15'11(intersect'ii'out) -> reduce'ii'out
tautology'i'in1(F) -> u'16'11(reduce'ii'in2(sequent2(nil, cons2(F, nil)), sequent2(nil, nil)))
u'16'11(reduce'ii'out) -> tautology'i'out

Q is empty.
We have to consider all minimal (P,Q,R)-chains.
We use the reduction pair processor [13].


The following pairs can be strictly oriented and are deleted.


INTERSECT'II'IN2(cons2(X0, Xs), Ys) -> INTERSECT'II'IN2(Xs, Ys)
The remaining pairs can at least by weakly be oriented.

INTERSECT'II'IN2(Xs, cons2(X0, Ys)) -> INTERSECT'II'IN2(Xs, Ys)
Used ordering: Combined order from the following AFS and order.
INTERSECT'II'IN2(x1, x2)  =  INTERSECT'II'IN1(x1)
cons2(x1, x2)  =  cons2(x1, x2)

Lexicographic Path Order [19].
Precedence:
[INTERSECT'II'IN1, cons2]


The following usable rules [14] were oriented: none



↳ QTRS
  ↳ DependencyPairsProof
    ↳ QDP
      ↳ DependencyGraphProof
        ↳ AND
          ↳ QDP
            ↳ QDPOrderProof
QDP
                ↳ QDPOrderProof
          ↳ QDP

Q DP problem:
The TRS P consists of the following rules:

INTERSECT'II'IN2(Xs, cons2(X0, Ys)) -> INTERSECT'II'IN2(Xs, Ys)

The TRS R consists of the following rules:

intersect'ii'in2(cons2(X, X0), cons2(X, X1)) -> intersect'ii'out
intersect'ii'in2(Xs, cons2(X0, Ys)) -> u'1'11(intersect'ii'in2(Xs, Ys))
u'1'11(intersect'ii'out) -> intersect'ii'out
intersect'ii'in2(cons2(X0, Xs), Ys) -> u'2'11(intersect'ii'in2(Xs, Ys))
u'2'11(intersect'ii'out) -> intersect'ii'out
reduce'ii'in2(sequent2(cons2(if2(A, B), Fs), Gs), NF) -> u'3'11(reduce'ii'in2(sequent2(cons2(x'2b2(x'2d1(B), A), Fs), Gs), NF))
u'3'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(iff2(A, B), Fs), Gs), NF) -> u'4'11(reduce'ii'in2(sequent2(cons2(x'2a2(if2(A, B), if2(B, A)), Fs), Gs), NF))
u'4'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2a2(F1, F2), Fs), Gs), NF) -> u'5'11(reduce'ii'in2(sequent2(cons2(F1, cons2(F2, Fs)), Gs), NF))
u'5'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2b2(F1, F2), Fs), Gs), NF) -> u'6'15(reduce'ii'in2(sequent2(cons2(F1, Fs), Gs), NF), F2, Fs, Gs, NF)
u'6'15(reduce'ii'out, F2, Fs, Gs, NF) -> u'6'21(reduce'ii'in2(sequent2(cons2(F2, Fs), Gs), NF))
u'6'21(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2d1(F1), Fs), Gs), NF) -> u'7'11(reduce'ii'in2(sequent2(Fs, cons2(F1, Gs)), NF))
u'7'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(if2(A, B), Gs)), NF) -> u'8'11(reduce'ii'in2(sequent2(Fs, cons2(x'2b2(x'2d1(B), A), Gs)), NF))
u'8'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(iff2(A, B), Gs)), NF) -> u'9'11(reduce'ii'in2(sequent2(Fs, cons2(x'2a2(if2(A, B), if2(B, A)), Gs)), NF))
u'9'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(p1(V), Fs), Gs), sequent2(Left, Right)) -> u'10'11(reduce'ii'in2(sequent2(Fs, Gs), sequent2(cons2(p1(V), Left), Right)))
u'10'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2b2(G1, G2), Gs)), NF) -> u'11'11(reduce'ii'in2(sequent2(Fs, cons2(G1, cons2(G2, Gs))), NF))
u'11'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2a2(G1, G2), Gs)), NF) -> u'12'15(reduce'ii'in2(sequent2(Fs, cons2(G1, Gs)), NF), Fs, G2, Gs, NF)
u'12'15(reduce'ii'out, Fs, G2, Gs, NF) -> u'12'21(reduce'ii'in2(sequent2(Fs, cons2(G2, Gs)), NF))
u'12'21(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2d1(G1), Gs)), NF) -> u'13'11(reduce'ii'in2(sequent2(cons2(G1, Fs), Gs), NF))
u'13'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(nil, cons2(p1(V), Gs)), sequent2(Left, Right)) -> u'14'11(reduce'ii'in2(sequent2(nil, Gs), sequent2(Left, cons2(p1(V), Right))))
u'14'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(nil, nil), sequent2(F1, F2)) -> u'15'11(intersect'ii'in2(F1, F2))
u'15'11(intersect'ii'out) -> reduce'ii'out
tautology'i'in1(F) -> u'16'11(reduce'ii'in2(sequent2(nil, cons2(F, nil)), sequent2(nil, nil)))
u'16'11(reduce'ii'out) -> tautology'i'out

Q is empty.
We have to consider all minimal (P,Q,R)-chains.
We use the reduction pair processor [13].


The following pairs can be strictly oriented and are deleted.


INTERSECT'II'IN2(Xs, cons2(X0, Ys)) -> INTERSECT'II'IN2(Xs, Ys)
The remaining pairs can at least by weakly be oriented.
none
Used ordering: Combined order from the following AFS and order.
INTERSECT'II'IN2(x1, x2)  =  INTERSECT'II'IN1(x2)
cons2(x1, x2)  =  cons1(x2)

Lexicographic Path Order [19].
Precedence:
[INTERSECT'II'IN1, cons1]


The following usable rules [14] were oriented: none



↳ QTRS
  ↳ DependencyPairsProof
    ↳ QDP
      ↳ DependencyGraphProof
        ↳ AND
          ↳ QDP
            ↳ QDPOrderProof
              ↳ QDP
                ↳ QDPOrderProof
QDP
                    ↳ PisEmptyProof
          ↳ QDP

Q DP problem:
P is empty.
The TRS R consists of the following rules:

intersect'ii'in2(cons2(X, X0), cons2(X, X1)) -> intersect'ii'out
intersect'ii'in2(Xs, cons2(X0, Ys)) -> u'1'11(intersect'ii'in2(Xs, Ys))
u'1'11(intersect'ii'out) -> intersect'ii'out
intersect'ii'in2(cons2(X0, Xs), Ys) -> u'2'11(intersect'ii'in2(Xs, Ys))
u'2'11(intersect'ii'out) -> intersect'ii'out
reduce'ii'in2(sequent2(cons2(if2(A, B), Fs), Gs), NF) -> u'3'11(reduce'ii'in2(sequent2(cons2(x'2b2(x'2d1(B), A), Fs), Gs), NF))
u'3'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(iff2(A, B), Fs), Gs), NF) -> u'4'11(reduce'ii'in2(sequent2(cons2(x'2a2(if2(A, B), if2(B, A)), Fs), Gs), NF))
u'4'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2a2(F1, F2), Fs), Gs), NF) -> u'5'11(reduce'ii'in2(sequent2(cons2(F1, cons2(F2, Fs)), Gs), NF))
u'5'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2b2(F1, F2), Fs), Gs), NF) -> u'6'15(reduce'ii'in2(sequent2(cons2(F1, Fs), Gs), NF), F2, Fs, Gs, NF)
u'6'15(reduce'ii'out, F2, Fs, Gs, NF) -> u'6'21(reduce'ii'in2(sequent2(cons2(F2, Fs), Gs), NF))
u'6'21(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2d1(F1), Fs), Gs), NF) -> u'7'11(reduce'ii'in2(sequent2(Fs, cons2(F1, Gs)), NF))
u'7'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(if2(A, B), Gs)), NF) -> u'8'11(reduce'ii'in2(sequent2(Fs, cons2(x'2b2(x'2d1(B), A), Gs)), NF))
u'8'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(iff2(A, B), Gs)), NF) -> u'9'11(reduce'ii'in2(sequent2(Fs, cons2(x'2a2(if2(A, B), if2(B, A)), Gs)), NF))
u'9'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(p1(V), Fs), Gs), sequent2(Left, Right)) -> u'10'11(reduce'ii'in2(sequent2(Fs, Gs), sequent2(cons2(p1(V), Left), Right)))
u'10'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2b2(G1, G2), Gs)), NF) -> u'11'11(reduce'ii'in2(sequent2(Fs, cons2(G1, cons2(G2, Gs))), NF))
u'11'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2a2(G1, G2), Gs)), NF) -> u'12'15(reduce'ii'in2(sequent2(Fs, cons2(G1, Gs)), NF), Fs, G2, Gs, NF)
u'12'15(reduce'ii'out, Fs, G2, Gs, NF) -> u'12'21(reduce'ii'in2(sequent2(Fs, cons2(G2, Gs)), NF))
u'12'21(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2d1(G1), Gs)), NF) -> u'13'11(reduce'ii'in2(sequent2(cons2(G1, Fs), Gs), NF))
u'13'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(nil, cons2(p1(V), Gs)), sequent2(Left, Right)) -> u'14'11(reduce'ii'in2(sequent2(nil, Gs), sequent2(Left, cons2(p1(V), Right))))
u'14'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(nil, nil), sequent2(F1, F2)) -> u'15'11(intersect'ii'in2(F1, F2))
u'15'11(intersect'ii'out) -> reduce'ii'out
tautology'i'in1(F) -> u'16'11(reduce'ii'in2(sequent2(nil, cons2(F, nil)), sequent2(nil, nil)))
u'16'11(reduce'ii'out) -> tautology'i'out

Q is empty.
We have to consider all minimal (P,Q,R)-chains.
The TRS P is empty. Hence, there is no (P,Q,R) chain.

↳ QTRS
  ↳ DependencyPairsProof
    ↳ QDP
      ↳ DependencyGraphProof
        ↳ AND
          ↳ QDP
QDP

Q DP problem:
The TRS P consists of the following rules:

REDUCE'II'IN2(sequent2(Fs, cons2(x'2a2(G1, G2), Gs)), NF) -> REDUCE'II'IN2(sequent2(Fs, cons2(G1, Gs)), NF)
REDUCE'II'IN2(sequent2(cons2(x'2d1(F1), Fs), Gs), NF) -> REDUCE'II'IN2(sequent2(Fs, cons2(F1, Gs)), NF)
REDUCE'II'IN2(sequent2(cons2(x'2b2(F1, F2), Fs), Gs), NF) -> U'6'15(reduce'ii'in2(sequent2(cons2(F1, Fs), Gs), NF), F2, Fs, Gs, NF)
U'6'15(reduce'ii'out, F2, Fs, Gs, NF) -> REDUCE'II'IN2(sequent2(cons2(F2, Fs), Gs), NF)
REDUCE'II'IN2(sequent2(nil, cons2(p1(V), Gs)), sequent2(Left, Right)) -> REDUCE'II'IN2(sequent2(nil, Gs), sequent2(Left, cons2(p1(V), Right)))
REDUCE'II'IN2(sequent2(cons2(x'2b2(F1, F2), Fs), Gs), NF) -> REDUCE'II'IN2(sequent2(cons2(F1, Fs), Gs), NF)
REDUCE'II'IN2(sequent2(cons2(x'2a2(F1, F2), Fs), Gs), NF) -> REDUCE'II'IN2(sequent2(cons2(F1, cons2(F2, Fs)), Gs), NF)
REDUCE'II'IN2(sequent2(cons2(if2(A, B), Fs), Gs), NF) -> REDUCE'II'IN2(sequent2(cons2(x'2b2(x'2d1(B), A), Fs), Gs), NF)
REDUCE'II'IN2(sequent2(Fs, cons2(x'2d1(G1), Gs)), NF) -> REDUCE'II'IN2(sequent2(cons2(G1, Fs), Gs), NF)
REDUCE'II'IN2(sequent2(Fs, cons2(iff2(A, B), Gs)), NF) -> REDUCE'II'IN2(sequent2(Fs, cons2(x'2a2(if2(A, B), if2(B, A)), Gs)), NF)
REDUCE'II'IN2(sequent2(Fs, cons2(if2(A, B), Gs)), NF) -> REDUCE'II'IN2(sequent2(Fs, cons2(x'2b2(x'2d1(B), A), Gs)), NF)
REDUCE'II'IN2(sequent2(Fs, cons2(x'2b2(G1, G2), Gs)), NF) -> REDUCE'II'IN2(sequent2(Fs, cons2(G1, cons2(G2, Gs))), NF)
REDUCE'II'IN2(sequent2(Fs, cons2(x'2a2(G1, G2), Gs)), NF) -> U'12'15(reduce'ii'in2(sequent2(Fs, cons2(G1, Gs)), NF), Fs, G2, Gs, NF)
REDUCE'II'IN2(sequent2(cons2(iff2(A, B), Fs), Gs), NF) -> REDUCE'II'IN2(sequent2(cons2(x'2a2(if2(A, B), if2(B, A)), Fs), Gs), NF)
REDUCE'II'IN2(sequent2(cons2(p1(V), Fs), Gs), sequent2(Left, Right)) -> REDUCE'II'IN2(sequent2(Fs, Gs), sequent2(cons2(p1(V), Left), Right))
U'12'15(reduce'ii'out, Fs, G2, Gs, NF) -> REDUCE'II'IN2(sequent2(Fs, cons2(G2, Gs)), NF)

The TRS R consists of the following rules:

intersect'ii'in2(cons2(X, X0), cons2(X, X1)) -> intersect'ii'out
intersect'ii'in2(Xs, cons2(X0, Ys)) -> u'1'11(intersect'ii'in2(Xs, Ys))
u'1'11(intersect'ii'out) -> intersect'ii'out
intersect'ii'in2(cons2(X0, Xs), Ys) -> u'2'11(intersect'ii'in2(Xs, Ys))
u'2'11(intersect'ii'out) -> intersect'ii'out
reduce'ii'in2(sequent2(cons2(if2(A, B), Fs), Gs), NF) -> u'3'11(reduce'ii'in2(sequent2(cons2(x'2b2(x'2d1(B), A), Fs), Gs), NF))
u'3'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(iff2(A, B), Fs), Gs), NF) -> u'4'11(reduce'ii'in2(sequent2(cons2(x'2a2(if2(A, B), if2(B, A)), Fs), Gs), NF))
u'4'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2a2(F1, F2), Fs), Gs), NF) -> u'5'11(reduce'ii'in2(sequent2(cons2(F1, cons2(F2, Fs)), Gs), NF))
u'5'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2b2(F1, F2), Fs), Gs), NF) -> u'6'15(reduce'ii'in2(sequent2(cons2(F1, Fs), Gs), NF), F2, Fs, Gs, NF)
u'6'15(reduce'ii'out, F2, Fs, Gs, NF) -> u'6'21(reduce'ii'in2(sequent2(cons2(F2, Fs), Gs), NF))
u'6'21(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(x'2d1(F1), Fs), Gs), NF) -> u'7'11(reduce'ii'in2(sequent2(Fs, cons2(F1, Gs)), NF))
u'7'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(if2(A, B), Gs)), NF) -> u'8'11(reduce'ii'in2(sequent2(Fs, cons2(x'2b2(x'2d1(B), A), Gs)), NF))
u'8'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(iff2(A, B), Gs)), NF) -> u'9'11(reduce'ii'in2(sequent2(Fs, cons2(x'2a2(if2(A, B), if2(B, A)), Gs)), NF))
u'9'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(cons2(p1(V), Fs), Gs), sequent2(Left, Right)) -> u'10'11(reduce'ii'in2(sequent2(Fs, Gs), sequent2(cons2(p1(V), Left), Right)))
u'10'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2b2(G1, G2), Gs)), NF) -> u'11'11(reduce'ii'in2(sequent2(Fs, cons2(G1, cons2(G2, Gs))), NF))
u'11'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2a2(G1, G2), Gs)), NF) -> u'12'15(reduce'ii'in2(sequent2(Fs, cons2(G1, Gs)), NF), Fs, G2, Gs, NF)
u'12'15(reduce'ii'out, Fs, G2, Gs, NF) -> u'12'21(reduce'ii'in2(sequent2(Fs, cons2(G2, Gs)), NF))
u'12'21(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(Fs, cons2(x'2d1(G1), Gs)), NF) -> u'13'11(reduce'ii'in2(sequent2(cons2(G1, Fs), Gs), NF))
u'13'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(nil, cons2(p1(V), Gs)), sequent2(Left, Right)) -> u'14'11(reduce'ii'in2(sequent2(nil, Gs), sequent2(Left, cons2(p1(V), Right))))
u'14'11(reduce'ii'out) -> reduce'ii'out
reduce'ii'in2(sequent2(nil, nil), sequent2(F1, F2)) -> u'15'11(intersect'ii'in2(F1, F2))
u'15'11(intersect'ii'out) -> reduce'ii'out
tautology'i'in1(F) -> u'16'11(reduce'ii'in2(sequent2(nil, cons2(F, nil)), sequent2(nil, nil)))
u'16'11(reduce'ii'out) -> tautology'i'out

Q is empty.
We have to consider all minimal (P,Q,R)-chains.