WORST_CASE(?,O(n^1)) * Step 1: Ara WORST_CASE(?,O(n^1)) + Considered Problem: - Strict TRS: comp_f_g#1(comp_f_g(x4,walk_xs_3(x3)),walk_xs_3(x2),x1) -> comp_f_g#1(x4,walk_xs_3(x3),Cons(x2,x1)) comp_f_g#1(walk_xs(),walk_xs_3(x6),x10) -> Cons(x6,x10) main(Cons(x4,x5)) -> comp_f_g#1(walk#1(x5),walk_xs_3(x4),Nil()) main(Nil()) -> Nil() walk#1(Cons(x4,x3)) -> comp_f_g(walk#1(x3),walk_xs_3(x4)) walk#1(Nil()) -> walk_xs() - Signature: {comp_f_g#1/3,main/1,walk#1/1} / {Cons/2,Nil/0,comp_f_g/2,walk_xs/0,walk_xs_3/1} - Obligation: innermost runtime complexity wrt. defined symbols {comp_f_g#1,main,walk#1} and constructors {Cons,Nil ,comp_f_g,walk_xs,walk_xs_3} + Applied Processor: Ara {araHeuristics = NoHeuristics, minDegree = 1, maxDegree = 2, araTimeout = 5, araRuleShifting = Nothing} + Details: Signatures used: ---------------- Cons :: ["A"(15) x "A"(15)] -(15)-> "A"(15) Cons :: ["A"(11) x "A"(11)] -(11)-> "A"(11) Cons :: ["A"(0) x "A"(0)] -(0)-> "A"(0) Nil :: [] -(0)-> "A"(15) Nil :: [] -(0)-> "A"(11) Nil :: [] -(0)-> "A"(14) Nil :: [] -(0)-> "A"(6) comp_f_g :: ["A"(5) x "A"(5)] -(5)-> "A"(5) comp_f_g#1 :: ["A"(5) x "A"(4) x "A"(0)] -(0)-> "A"(0) main :: ["A"(15)] -(15)-> "A"(0) walk#1 :: ["A"(11)] -(7)-> "A"(5) walk_xs :: [] -(0)-> "A"(5) walk_xs :: [] -(0)-> "A"(8) walk_xs_3 :: ["A"(5)] -(5)-> "A"(5) walk_xs_3 :: ["A"(4)] -(4)-> "A"(4) Cost-free Signatures used: -------------------------- Base Constructor Signatures used: --------------------------------- "Cons_A" :: ["A"(1) x "A"(1)] -(1)-> "A"(1) "Nil_A" :: [] -(0)-> "A"(1) "comp_f_g_A" :: ["A"(0) x "A"(0)] -(1)-> "A"(1) "walk_xs_3_A" :: ["A"(0)] -(1)-> "A"(1) "walk_xs_A" :: [] -(0)-> "A"(1) WORST_CASE(?,O(n^1))