3.49/4.33 YES 3.49/4.33 3.49/4.33 Problem 1: 3.49/4.33 3.49/4.33 (VAR v_NonEmpty:S x1:S) 3.49/4.33 (RULES 3.49/4.33 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.33 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.33 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.33 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.33 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.33 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.33 ) 3.49/4.33 3.49/4.33 Problem 1: 3.49/4.33 3.49/4.33 Dependency Pairs Processor: 3.49/4.33 -> Pairs: 3.49/4.33 A(l(x1:S)) -> A(t(x1:S)) 3.49/4.33 A(l(x1:S)) -> T(x1:S) 3.49/4.33 N(s(x1:S)) -> A(t(x1:S)) 3.49/4.33 N(s(x1:S)) -> A(l(a(t(x1:S)))) 3.49/4.33 N(s(x1:S)) -> T(x1:S) 3.49/4.33 O(m(a(x1:S))) -> N(x1:S) 3.49/4.33 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.33 S(a(x1:S)) -> A(t(o(m(a(t(e(x1:S))))))) 3.49/4.33 S(a(x1:S)) -> A(t(e(x1:S))) 3.49/4.33 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.33 S(a(x1:S)) -> T(o(m(a(t(e(x1:S)))))) 3.49/4.33 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.33 T(o(x1:S)) -> A(x1:S) 3.49/4.33 T(e(x1:S)) -> N(s(x1:S)) 3.49/4.33 T(e(x1:S)) -> S(x1:S) 3.49/4.33 -> Rules: 3.49/4.33 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.33 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.33 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.33 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.33 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.33 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.33 3.49/4.33 Problem 1: 3.49/4.33 3.49/4.33 SCC Processor: 3.49/4.33 -> Pairs: 3.49/4.33 A(l(x1:S)) -> A(t(x1:S)) 3.49/4.33 A(l(x1:S)) -> T(x1:S) 3.49/4.33 N(s(x1:S)) -> A(t(x1:S)) 3.49/4.33 N(s(x1:S)) -> A(l(a(t(x1:S)))) 3.49/4.33 N(s(x1:S)) -> T(x1:S) 3.49/4.33 O(m(a(x1:S))) -> N(x1:S) 3.49/4.33 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.33 S(a(x1:S)) -> A(t(o(m(a(t(e(x1:S))))))) 3.49/4.33 S(a(x1:S)) -> A(t(e(x1:S))) 3.49/4.33 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.33 S(a(x1:S)) -> T(o(m(a(t(e(x1:S)))))) 3.49/4.33 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.33 T(o(x1:S)) -> A(x1:S) 3.49/4.33 T(e(x1:S)) -> N(s(x1:S)) 3.49/4.33 T(e(x1:S)) -> S(x1:S) 3.49/4.33 -> Rules: 3.49/4.33 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.33 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.33 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.33 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.33 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.33 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.33 ->Strongly Connected Components: 3.49/4.33 ->->Cycle: 3.49/4.33 ->->-> Pairs: 3.49/4.33 A(l(x1:S)) -> A(t(x1:S)) 3.49/4.33 A(l(x1:S)) -> T(x1:S) 3.49/4.33 N(s(x1:S)) -> A(t(x1:S)) 3.49/4.33 N(s(x1:S)) -> A(l(a(t(x1:S)))) 3.49/4.33 N(s(x1:S)) -> T(x1:S) 3.49/4.33 O(m(a(x1:S))) -> N(x1:S) 3.49/4.33 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.33 S(a(x1:S)) -> A(t(o(m(a(t(e(x1:S))))))) 3.49/4.33 S(a(x1:S)) -> A(t(e(x1:S))) 3.49/4.33 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.33 S(a(x1:S)) -> T(o(m(a(t(e(x1:S)))))) 3.49/4.33 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.33 T(o(x1:S)) -> A(x1:S) 3.49/4.33 T(e(x1:S)) -> N(s(x1:S)) 3.49/4.33 T(e(x1:S)) -> S(x1:S) 3.49/4.33 ->->-> Rules: 3.49/4.33 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.33 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.33 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.33 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.33 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.33 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.33 3.49/4.33 Problem 1: 3.49/4.33 3.49/4.33 Reduction Pair Processor: 3.49/4.33 -> Pairs: 3.49/4.33 A(l(x1:S)) -> A(t(x1:S)) 3.49/4.33 A(l(x1:S)) -> T(x1:S) 3.49/4.33 N(s(x1:S)) -> A(t(x1:S)) 3.49/4.33 N(s(x1:S)) -> A(l(a(t(x1:S)))) 3.49/4.33 N(s(x1:S)) -> T(x1:S) 3.49/4.33 O(m(a(x1:S))) -> N(x1:S) 3.49/4.33 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.33 S(a(x1:S)) -> A(t(o(m(a(t(e(x1:S))))))) 3.49/4.33 S(a(x1:S)) -> A(t(e(x1:S))) 3.49/4.33 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.33 S(a(x1:S)) -> T(o(m(a(t(e(x1:S)))))) 3.49/4.33 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.33 T(o(x1:S)) -> A(x1:S) 3.49/4.33 T(e(x1:S)) -> N(s(x1:S)) 3.49/4.33 T(e(x1:S)) -> S(x1:S) 3.49/4.33 -> Rules: 3.49/4.33 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.33 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.33 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.33 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.33 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.33 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.33 -> Usable rules: 3.49/4.33 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.33 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.33 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.33 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.33 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.33 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.33 ->Interpretation type: 3.49/4.33 Linear 3.49/4.33 ->Coefficients: 3.49/4.33 All rationals 3.49/4.33 ->Dimension: 3.49/4.33 1 3.49/4.33 ->Bound: 3.49/4.33 2 3.49/4.33 ->Interpretation: 3.49/4.33 3.49/4.33 [a](X) = X + 1/2 3.49/4.33 [n](X) = 1/2.X 3.49/4.33 [o](X) = X + 1/2 3.49/4.33 [s](X) = 2.X + 2 3.49/4.33 [t](X) = X 3.49/4.33 [e](X) = 2.X + 1 3.49/4.33 [l](X) = X 3.49/4.33 [m](X) = X 3.49/4.33 [A](X) = X 3.49/4.33 [N](X) = 1/2.X 3.49/4.33 [O](X) = X + 1/2 3.49/4.33 [S](X) = 2.X + 1 3.49/4.33 [T](X) = X 3.49/4.33 3.49/4.33 Problem 1: 3.49/4.33 3.49/4.33 SCC Processor: 3.49/4.33 -> Pairs: 3.49/4.33 A(l(x1:S)) -> A(t(x1:S)) 3.49/4.33 A(l(x1:S)) -> T(x1:S) 3.49/4.33 N(s(x1:S)) -> A(l(a(t(x1:S)))) 3.49/4.33 N(s(x1:S)) -> T(x1:S) 3.49/4.33 O(m(a(x1:S))) -> N(x1:S) 3.49/4.33 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.33 S(a(x1:S)) -> A(t(o(m(a(t(e(x1:S))))))) 3.49/4.33 S(a(x1:S)) -> A(t(e(x1:S))) 3.49/4.33 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.33 S(a(x1:S)) -> T(o(m(a(t(e(x1:S)))))) 3.49/4.33 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.33 T(o(x1:S)) -> A(x1:S) 3.49/4.33 T(e(x1:S)) -> N(s(x1:S)) 3.49/4.33 T(e(x1:S)) -> S(x1:S) 3.49/4.33 -> Rules: 3.49/4.33 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.33 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.33 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.33 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.33 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.33 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.33 ->Strongly Connected Components: 3.49/4.34 ->->Cycle: 3.49/4.34 ->->-> Pairs: 3.49/4.34 A(l(x1:S)) -> A(t(x1:S)) 3.49/4.34 A(l(x1:S)) -> T(x1:S) 3.49/4.34 N(s(x1:S)) -> A(l(a(t(x1:S)))) 3.49/4.34 N(s(x1:S)) -> T(x1:S) 3.49/4.34 O(m(a(x1:S))) -> N(x1:S) 3.49/4.34 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.34 S(a(x1:S)) -> A(t(o(m(a(t(e(x1:S))))))) 3.49/4.34 S(a(x1:S)) -> A(t(e(x1:S))) 3.49/4.34 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.34 S(a(x1:S)) -> T(o(m(a(t(e(x1:S)))))) 3.49/4.34 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.34 T(o(x1:S)) -> A(x1:S) 3.49/4.34 T(e(x1:S)) -> N(s(x1:S)) 3.49/4.34 T(e(x1:S)) -> S(x1:S) 3.49/4.34 ->->-> Rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 3.49/4.34 Problem 1: 3.49/4.34 3.49/4.34 Reduction Pair Processor: 3.49/4.34 -> Pairs: 3.49/4.34 A(l(x1:S)) -> A(t(x1:S)) 3.49/4.34 A(l(x1:S)) -> T(x1:S) 3.49/4.34 N(s(x1:S)) -> A(l(a(t(x1:S)))) 3.49/4.34 N(s(x1:S)) -> T(x1:S) 3.49/4.34 O(m(a(x1:S))) -> N(x1:S) 3.49/4.34 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.34 S(a(x1:S)) -> A(t(o(m(a(t(e(x1:S))))))) 3.49/4.34 S(a(x1:S)) -> A(t(e(x1:S))) 3.49/4.34 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.34 S(a(x1:S)) -> T(o(m(a(t(e(x1:S)))))) 3.49/4.34 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.34 T(o(x1:S)) -> A(x1:S) 3.49/4.34 T(e(x1:S)) -> N(s(x1:S)) 3.49/4.34 T(e(x1:S)) -> S(x1:S) 3.49/4.34 -> Rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 -> Usable rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 ->Interpretation type: 3.49/4.34 Linear 3.49/4.34 ->Coefficients: 3.49/4.34 All rationals 3.49/4.34 ->Dimension: 3.49/4.34 1 3.49/4.34 ->Bound: 3.49/4.34 2 3.49/4.34 ->Interpretation: 3.49/4.34 3.49/4.34 [a](X) = X + 1/2 3.49/4.34 [n](X) = 1/2.X 3.49/4.34 [o](X) = 2.X + 1/2 3.49/4.34 [s](X) = 2.X + 2 3.49/4.34 [t](X) = X 3.49/4.34 [e](X) = 2.X + 1 3.49/4.34 [l](X) = X 3.49/4.34 [m](X) = 1/2.X 3.49/4.34 [A](X) = X 3.49/4.34 [N](X) = 1/2.X 3.49/4.34 [O](X) = 2.X + 1/2 3.49/4.34 [S](X) = 2.X + 1 3.49/4.34 [T](X) = X 3.49/4.34 3.49/4.34 Problem 1: 3.49/4.34 3.49/4.34 SCC Processor: 3.49/4.34 -> Pairs: 3.49/4.34 A(l(x1:S)) -> A(t(x1:S)) 3.49/4.34 A(l(x1:S)) -> T(x1:S) 3.49/4.34 N(s(x1:S)) -> T(x1:S) 3.49/4.34 O(m(a(x1:S))) -> N(x1:S) 3.49/4.34 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.34 S(a(x1:S)) -> A(t(o(m(a(t(e(x1:S))))))) 3.49/4.34 S(a(x1:S)) -> A(t(e(x1:S))) 3.49/4.34 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.34 S(a(x1:S)) -> T(o(m(a(t(e(x1:S)))))) 3.49/4.34 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.34 T(o(x1:S)) -> A(x1:S) 3.49/4.34 T(e(x1:S)) -> N(s(x1:S)) 3.49/4.34 T(e(x1:S)) -> S(x1:S) 3.49/4.34 -> Rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 ->Strongly Connected Components: 3.49/4.34 ->->Cycle: 3.49/4.34 ->->-> Pairs: 3.49/4.34 A(l(x1:S)) -> A(t(x1:S)) 3.49/4.34 A(l(x1:S)) -> T(x1:S) 3.49/4.34 N(s(x1:S)) -> T(x1:S) 3.49/4.34 O(m(a(x1:S))) -> N(x1:S) 3.49/4.34 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.34 S(a(x1:S)) -> A(t(o(m(a(t(e(x1:S))))))) 3.49/4.34 S(a(x1:S)) -> A(t(e(x1:S))) 3.49/4.34 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.34 S(a(x1:S)) -> T(o(m(a(t(e(x1:S)))))) 3.49/4.34 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.34 T(o(x1:S)) -> A(x1:S) 3.49/4.34 T(e(x1:S)) -> N(s(x1:S)) 3.49/4.34 T(e(x1:S)) -> S(x1:S) 3.49/4.34 ->->-> Rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 3.49/4.34 Problem 1: 3.49/4.34 3.49/4.34 Reduction Pair Processor: 3.49/4.34 -> Pairs: 3.49/4.34 A(l(x1:S)) -> A(t(x1:S)) 3.49/4.34 A(l(x1:S)) -> T(x1:S) 3.49/4.34 N(s(x1:S)) -> T(x1:S) 3.49/4.34 O(m(a(x1:S))) -> N(x1:S) 3.49/4.34 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.34 S(a(x1:S)) -> A(t(o(m(a(t(e(x1:S))))))) 3.49/4.34 S(a(x1:S)) -> A(t(e(x1:S))) 3.49/4.34 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.34 S(a(x1:S)) -> T(o(m(a(t(e(x1:S)))))) 3.49/4.34 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.34 T(o(x1:S)) -> A(x1:S) 3.49/4.34 T(e(x1:S)) -> N(s(x1:S)) 3.49/4.34 T(e(x1:S)) -> S(x1:S) 3.49/4.34 -> Rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 -> Usable rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 ->Interpretation type: 3.49/4.34 Linear 3.49/4.34 ->Coefficients: 3.49/4.34 All rationals 3.49/4.34 ->Dimension: 3.49/4.34 1 3.49/4.34 ->Bound: 3.49/4.34 2 3.49/4.34 ->Interpretation: 3.49/4.34 3.49/4.34 [a](X) = X + 1/2 3.49/4.34 [n](X) = 1/2.X 3.49/4.34 [o](X) = X + 1/2 3.49/4.34 [s](X) = 2.X + 2 3.49/4.34 [t](X) = X 3.49/4.34 [e](X) = 2.X + 1 3.49/4.34 [l](X) = X 3.49/4.34 [m](X) = X 3.49/4.34 [A](X) = X 3.49/4.34 [N](X) = 1/2.X 3.49/4.34 [O](X) = X + 1/2 3.49/4.34 [S](X) = 2.X + 1 3.49/4.34 [T](X) = X 3.49/4.34 3.49/4.34 Problem 1: 3.49/4.34 3.49/4.34 SCC Processor: 3.49/4.34 -> Pairs: 3.49/4.34 A(l(x1:S)) -> A(t(x1:S)) 3.49/4.34 A(l(x1:S)) -> T(x1:S) 3.49/4.34 O(m(a(x1:S))) -> N(x1:S) 3.49/4.34 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.34 S(a(x1:S)) -> A(t(o(m(a(t(e(x1:S))))))) 3.49/4.34 S(a(x1:S)) -> A(t(e(x1:S))) 3.49/4.34 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.34 S(a(x1:S)) -> T(o(m(a(t(e(x1:S)))))) 3.49/4.34 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.34 T(o(x1:S)) -> A(x1:S) 3.49/4.34 T(e(x1:S)) -> N(s(x1:S)) 3.49/4.34 T(e(x1:S)) -> S(x1:S) 3.49/4.34 -> Rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 ->Strongly Connected Components: 3.49/4.34 ->->Cycle: 3.49/4.34 ->->-> Pairs: 3.49/4.34 A(l(x1:S)) -> A(t(x1:S)) 3.49/4.34 A(l(x1:S)) -> T(x1:S) 3.49/4.34 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.34 S(a(x1:S)) -> A(t(o(m(a(t(e(x1:S))))))) 3.49/4.34 S(a(x1:S)) -> A(t(e(x1:S))) 3.49/4.34 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.34 S(a(x1:S)) -> T(o(m(a(t(e(x1:S)))))) 3.49/4.34 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.34 T(o(x1:S)) -> A(x1:S) 3.49/4.34 T(e(x1:S)) -> S(x1:S) 3.49/4.34 ->->-> Rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 3.49/4.34 Problem 1: 3.49/4.34 3.49/4.34 Reduction Pair Processor: 3.49/4.34 -> Pairs: 3.49/4.34 A(l(x1:S)) -> A(t(x1:S)) 3.49/4.34 A(l(x1:S)) -> T(x1:S) 3.49/4.34 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.34 S(a(x1:S)) -> A(t(o(m(a(t(e(x1:S))))))) 3.49/4.34 S(a(x1:S)) -> A(t(e(x1:S))) 3.49/4.34 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.34 S(a(x1:S)) -> T(o(m(a(t(e(x1:S)))))) 3.49/4.34 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.34 T(o(x1:S)) -> A(x1:S) 3.49/4.34 T(e(x1:S)) -> S(x1:S) 3.49/4.34 -> Rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 -> Usable rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 ->Interpretation type: 3.49/4.34 Linear 3.49/4.34 ->Coefficients: 3.49/4.34 Natural Numbers 3.49/4.34 ->Dimension: 3.49/4.34 1 3.49/4.34 ->Bound: 3.49/4.34 2 3.49/4.34 ->Interpretation: 3.49/4.34 3.49/4.34 [a](X) = 0 3.49/4.34 [n](X) = 0 3.49/4.34 [o](X) = 2.X 3.49/4.34 [s](X) = 2.X + 2 3.49/4.34 [t](X) = 2.X 3.49/4.34 [e](X) = 0 3.49/4.34 [l](X) = 2.X + 2 3.49/4.34 [m](X) = 2.X 3.49/4.34 [A](X) = 2.X + 1 3.49/4.34 [O](X) = 2.X + 2 3.49/4.34 [S](X) = 2 3.49/4.34 [T](X) = 2.X + 2 3.49/4.34 3.49/4.34 Problem 1: 3.49/4.34 3.49/4.34 SCC Processor: 3.49/4.34 -> Pairs: 3.49/4.34 A(l(x1:S)) -> T(x1:S) 3.49/4.34 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.34 S(a(x1:S)) -> A(t(o(m(a(t(e(x1:S))))))) 3.49/4.34 S(a(x1:S)) -> A(t(e(x1:S))) 3.49/4.34 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.34 S(a(x1:S)) -> T(o(m(a(t(e(x1:S)))))) 3.49/4.34 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.34 T(o(x1:S)) -> A(x1:S) 3.49/4.34 T(e(x1:S)) -> S(x1:S) 3.49/4.34 -> Rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 ->Strongly Connected Components: 3.49/4.34 ->->Cycle: 3.49/4.34 ->->-> Pairs: 3.49/4.34 A(l(x1:S)) -> T(x1:S) 3.49/4.34 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.34 S(a(x1:S)) -> A(t(o(m(a(t(e(x1:S))))))) 3.49/4.34 S(a(x1:S)) -> A(t(e(x1:S))) 3.49/4.34 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.34 S(a(x1:S)) -> T(o(m(a(t(e(x1:S)))))) 3.49/4.34 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.34 T(o(x1:S)) -> A(x1:S) 3.49/4.34 T(e(x1:S)) -> S(x1:S) 3.49/4.34 ->->-> Rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 3.49/4.34 Problem 1: 3.49/4.34 3.49/4.34 Reduction Pair Processor: 3.49/4.34 -> Pairs: 3.49/4.34 A(l(x1:S)) -> T(x1:S) 3.49/4.34 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.34 S(a(x1:S)) -> A(t(o(m(a(t(e(x1:S))))))) 3.49/4.34 S(a(x1:S)) -> A(t(e(x1:S))) 3.49/4.34 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.34 S(a(x1:S)) -> T(o(m(a(t(e(x1:S)))))) 3.49/4.34 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.34 T(o(x1:S)) -> A(x1:S) 3.49/4.34 T(e(x1:S)) -> S(x1:S) 3.49/4.34 -> Rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 -> Usable rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 ->Interpretation type: 3.49/4.34 Linear 3.49/4.34 ->Coefficients: 3.49/4.34 Natural Numbers 3.49/4.34 ->Dimension: 3.49/4.34 1 3.49/4.34 ->Bound: 3.49/4.34 2 3.49/4.34 ->Interpretation: 3.49/4.34 3.49/4.34 [a](X) = 2 3.49/4.34 [n](X) = 2 3.49/4.34 [o](X) = X 3.49/4.34 [s](X) = 2.X + 2 3.49/4.34 [t](X) = 2 3.49/4.34 [e](X) = 2 3.49/4.34 [l](X) = 2.X + 2 3.49/4.34 [m](X) = 2 3.49/4.34 [A](X) = X 3.49/4.34 [O](X) = 2 3.49/4.34 [S](X) = 2 3.49/4.34 [T](X) = X 3.49/4.34 3.49/4.34 Problem 1: 3.49/4.34 3.49/4.34 SCC Processor: 3.49/4.34 -> Pairs: 3.49/4.34 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.34 S(a(x1:S)) -> A(t(o(m(a(t(e(x1:S))))))) 3.49/4.34 S(a(x1:S)) -> A(t(e(x1:S))) 3.49/4.34 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.34 S(a(x1:S)) -> T(o(m(a(t(e(x1:S)))))) 3.49/4.34 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.34 T(o(x1:S)) -> A(x1:S) 3.49/4.34 T(e(x1:S)) -> S(x1:S) 3.49/4.34 -> Rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 ->Strongly Connected Components: 3.49/4.34 ->->Cycle: 3.49/4.34 ->->-> Pairs: 3.49/4.34 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.34 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.34 S(a(x1:S)) -> T(o(m(a(t(e(x1:S)))))) 3.49/4.34 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.34 T(e(x1:S)) -> S(x1:S) 3.49/4.34 ->->-> Rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 3.49/4.34 Problem 1: 3.49/4.34 3.49/4.34 Reduction Pair Processor: 3.49/4.34 -> Pairs: 3.49/4.34 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.34 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.34 S(a(x1:S)) -> T(o(m(a(t(e(x1:S)))))) 3.49/4.34 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.34 T(e(x1:S)) -> S(x1:S) 3.49/4.34 -> Rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 -> Usable rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 ->Interpretation type: 3.49/4.34 Linear 3.49/4.34 ->Coefficients: 3.49/4.34 Natural Numbers 3.49/4.34 ->Dimension: 3.49/4.34 1 3.49/4.34 ->Bound: 3.49/4.34 2 3.49/4.34 ->Interpretation: 3.49/4.34 3.49/4.34 [a](X) = 2.X 3.49/4.34 [n](X) = 0 3.49/4.34 [o](X) = 0 3.49/4.34 [s](X) = 2.X + 2 3.49/4.34 [t](X) = 0 3.49/4.34 [e](X) = X + 1 3.49/4.34 [l](X) = 0 3.49/4.34 [m](X) = 0 3.49/4.34 [O](X) = 2 3.49/4.34 [S](X) = X + 2 3.49/4.34 [T](X) = X + 1 3.49/4.34 3.49/4.34 Problem 1: 3.49/4.34 3.49/4.34 SCC Processor: 3.49/4.34 -> Pairs: 3.49/4.34 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.34 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.34 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.34 T(e(x1:S)) -> S(x1:S) 3.49/4.34 -> Rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 ->Strongly Connected Components: 3.49/4.34 ->->Cycle: 3.49/4.34 ->->-> Pairs: 3.49/4.34 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.34 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.34 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.34 T(e(x1:S)) -> S(x1:S) 3.49/4.34 ->->-> Rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 3.49/4.34 Problem 1: 3.49/4.34 3.49/4.34 Reduction Pair Processor: 3.49/4.34 -> Pairs: 3.49/4.34 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.34 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.34 S(a(x1:S)) -> T(e(x1:S)) 3.49/4.34 T(e(x1:S)) -> S(x1:S) 3.49/4.34 -> Rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 -> Usable rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 ->Interpretation type: 3.49/4.34 Linear 3.49/4.34 ->Coefficients: 3.49/4.34 All rationals 3.49/4.34 ->Dimension: 3.49/4.34 1 3.49/4.34 ->Bound: 3.49/4.34 2 3.49/4.34 ->Interpretation: 3.49/4.34 3.49/4.34 [a](X) = X + 1/2 3.49/4.34 [n](X) = 1/2.X 3.49/4.34 [o](X) = 2.X + 2 3.49/4.34 [s](X) = 2.X + 2 3.49/4.34 [t](X) = 1/2.X 3.49/4.34 [e](X) = 2.X + 2 3.49/4.34 [l](X) = 1/2.X 3.49/4.34 [m](X) = X + 1/2 3.49/4.34 [O](X) = 1/2.X + 1/2 3.49/4.34 [S](X) = X + 1 3.49/4.34 [T](X) = 1/2.X 3.49/4.34 3.49/4.34 Problem 1: 3.49/4.34 3.49/4.34 SCC Processor: 3.49/4.34 -> Pairs: 3.49/4.34 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.34 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.34 T(e(x1:S)) -> S(x1:S) 3.49/4.34 -> Rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 ->Strongly Connected Components: 3.49/4.34 ->->Cycle: 3.49/4.34 ->->-> Pairs: 3.49/4.34 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.34 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.34 T(e(x1:S)) -> S(x1:S) 3.49/4.34 ->->-> Rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 3.49/4.34 Problem 1: 3.49/4.34 3.49/4.34 Reduction Pair Processor: 3.49/4.34 -> Pairs: 3.49/4.34 O(m(a(x1:S))) -> T(e(n(x1:S))) 3.49/4.34 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.34 T(e(x1:S)) -> S(x1:S) 3.49/4.34 -> Rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 -> Usable rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 ->Interpretation type: 3.49/4.34 Linear 3.49/4.34 ->Coefficients: 3.49/4.34 All rationals 3.49/4.34 ->Dimension: 3.49/4.34 1 3.49/4.34 ->Bound: 3.49/4.34 4 3.49/4.34 ->Interpretation: 3.49/4.34 3.49/4.34 [a](X) = 1/2.X + 2/3 3.49/4.34 [n](X) = 1/3.X 3.49/4.34 [o](X) = 4.X + 4 3.49/4.34 [s](X) = 3.X + 4 3.49/4.34 [t](X) = 1/4.X + 1 3.49/4.34 [e](X) = 4.X + 2 3.49/4.34 [l](X) = 1/4.X + 1 3.49/4.34 [m](X) = 2.X + 2/3 3.49/4.34 [O](X) = 4/3.X + 3/2 3.49/4.34 [S](X) = 4.X + 4 3.49/4.34 [T](X) = X + 2 3.49/4.34 3.49/4.34 Problem 1: 3.49/4.34 3.49/4.34 SCC Processor: 3.49/4.34 -> Pairs: 3.49/4.34 S(a(x1:S)) -> O(m(a(t(e(x1:S))))) 3.49/4.34 T(e(x1:S)) -> S(x1:S) 3.49/4.34 -> Rules: 3.49/4.34 a(l(x1:S)) -> a(t(x1:S)) 3.49/4.34 n(s(x1:S)) -> a(l(a(t(x1:S)))) 3.49/4.34 o(m(a(x1:S))) -> t(e(n(x1:S))) 3.49/4.34 s(a(x1:S)) -> l(a(t(o(m(a(t(e(x1:S)))))))) 3.49/4.34 t(o(x1:S)) -> m(a(x1:S)) 3.49/4.34 t(e(x1:S)) -> n(s(x1:S)) 3.49/4.34 ->Strongly Connected Components: 3.49/4.34 There is no strongly connected component 3.49/4.34 3.49/4.34 The problem is finite. 3.49/4.34 EOF