YES Problem 1: (VAR v_NonEmpty:S x1:S) (RULES a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) ) Problem 1: Dependency Pairs Processor: -> Pairs: A(c(b(x1:S))) -> A(x1:S) A(c(b(x1:S))) -> B(a(x1:S)) A(c(b(x1:S))) -> C(b(a(x1:S))) B(a(a(x1:S))) -> A(b(c(x1:S))) B(a(a(x1:S))) -> B(c(x1:S)) B(a(a(x1:S))) -> C(x1:S) B(c(a(x1:S))) -> A(b(c(x1:S))) B(c(a(x1:S))) -> B(c(x1:S)) B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> A(c(x1:S)) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> A(x1:S) C(b(x1:S)) -> B(a(x1:S)) -> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) Problem 1: SCC Processor: -> Pairs: A(c(b(x1:S))) -> A(x1:S) A(c(b(x1:S))) -> B(a(x1:S)) A(c(b(x1:S))) -> C(b(a(x1:S))) B(a(a(x1:S))) -> A(b(c(x1:S))) B(a(a(x1:S))) -> B(c(x1:S)) B(a(a(x1:S))) -> C(x1:S) B(c(a(x1:S))) -> A(b(c(x1:S))) B(c(a(x1:S))) -> B(c(x1:S)) B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> A(c(x1:S)) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> A(x1:S) C(b(x1:S)) -> B(a(x1:S)) -> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: A(c(b(x1:S))) -> A(x1:S) A(c(b(x1:S))) -> B(a(x1:S)) A(c(b(x1:S))) -> C(b(a(x1:S))) B(a(a(x1:S))) -> A(b(c(x1:S))) B(a(a(x1:S))) -> B(c(x1:S)) B(a(a(x1:S))) -> C(x1:S) B(c(a(x1:S))) -> A(b(c(x1:S))) B(c(a(x1:S))) -> B(c(x1:S)) B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> A(c(x1:S)) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> A(x1:S) C(b(x1:S)) -> B(a(x1:S)) ->->-> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) Problem 1: Reduction Pair Processor: -> Pairs: A(c(b(x1:S))) -> A(x1:S) A(c(b(x1:S))) -> B(a(x1:S)) A(c(b(x1:S))) -> C(b(a(x1:S))) B(a(a(x1:S))) -> A(b(c(x1:S))) B(a(a(x1:S))) -> B(c(x1:S)) B(a(a(x1:S))) -> C(x1:S) B(c(a(x1:S))) -> A(b(c(x1:S))) B(c(a(x1:S))) -> B(c(x1:S)) B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> A(c(x1:S)) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> A(x1:S) C(b(x1:S)) -> B(a(x1:S)) -> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) -> Usable rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) ->Interpretation type: Linear ->Coefficients: Natural Numbers ->Dimension: 1 ->Bound: 2 ->Interpretation: [a](X) = 2.X + 2 [b](X) = 2.X + 2 [c](X) = 2.X + 2 [A](X) = 2.X [B](X) = 2.X [C](X) = 2.X Problem 1: SCC Processor: -> Pairs: A(c(b(x1:S))) -> B(a(x1:S)) A(c(b(x1:S))) -> C(b(a(x1:S))) B(a(a(x1:S))) -> A(b(c(x1:S))) B(a(a(x1:S))) -> B(c(x1:S)) B(a(a(x1:S))) -> C(x1:S) B(c(a(x1:S))) -> A(b(c(x1:S))) B(c(a(x1:S))) -> B(c(x1:S)) B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> A(c(x1:S)) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> A(x1:S) C(b(x1:S)) -> B(a(x1:S)) -> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: A(c(b(x1:S))) -> B(a(x1:S)) A(c(b(x1:S))) -> C(b(a(x1:S))) B(a(a(x1:S))) -> A(b(c(x1:S))) B(a(a(x1:S))) -> B(c(x1:S)) B(a(a(x1:S))) -> C(x1:S) B(c(a(x1:S))) -> A(b(c(x1:S))) B(c(a(x1:S))) -> B(c(x1:S)) B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> A(c(x1:S)) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> A(x1:S) C(b(x1:S)) -> B(a(x1:S)) ->->-> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) Problem 1: Reduction Pair Processor: -> Pairs: A(c(b(x1:S))) -> B(a(x1:S)) A(c(b(x1:S))) -> C(b(a(x1:S))) B(a(a(x1:S))) -> A(b(c(x1:S))) B(a(a(x1:S))) -> B(c(x1:S)) B(a(a(x1:S))) -> C(x1:S) B(c(a(x1:S))) -> A(b(c(x1:S))) B(c(a(x1:S))) -> B(c(x1:S)) B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> A(c(x1:S)) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> A(x1:S) C(b(x1:S)) -> B(a(x1:S)) -> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) -> Usable rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) ->Interpretation type: Linear ->Coefficients: Natural Numbers ->Dimension: 1 ->Bound: 2 ->Interpretation: [a](X) = 2.X + 2 [b](X) = 2.X + 2 [c](X) = 2.X + 2 [A](X) = 2.X + 1 [B](X) = 2.X + 1 [C](X) = 2.X + 1 Problem 1: SCC Processor: -> Pairs: A(c(b(x1:S))) -> C(b(a(x1:S))) B(a(a(x1:S))) -> A(b(c(x1:S))) B(a(a(x1:S))) -> B(c(x1:S)) B(a(a(x1:S))) -> C(x1:S) B(c(a(x1:S))) -> A(b(c(x1:S))) B(c(a(x1:S))) -> B(c(x1:S)) B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> A(c(x1:S)) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> A(x1:S) C(b(x1:S)) -> B(a(x1:S)) -> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: A(c(b(x1:S))) -> C(b(a(x1:S))) B(a(a(x1:S))) -> A(b(c(x1:S))) B(a(a(x1:S))) -> B(c(x1:S)) B(a(a(x1:S))) -> C(x1:S) B(c(a(x1:S))) -> A(b(c(x1:S))) B(c(a(x1:S))) -> B(c(x1:S)) B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> A(c(x1:S)) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> A(x1:S) C(b(x1:S)) -> B(a(x1:S)) ->->-> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) Problem 1: Reduction Pair Processor: -> Pairs: A(c(b(x1:S))) -> C(b(a(x1:S))) B(a(a(x1:S))) -> A(b(c(x1:S))) B(a(a(x1:S))) -> B(c(x1:S)) B(a(a(x1:S))) -> C(x1:S) B(c(a(x1:S))) -> A(b(c(x1:S))) B(c(a(x1:S))) -> B(c(x1:S)) B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> A(c(x1:S)) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> A(x1:S) C(b(x1:S)) -> B(a(x1:S)) -> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) -> Usable rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) ->Interpretation type: Linear ->Coefficients: Natural Numbers ->Dimension: 1 ->Bound: 2 ->Interpretation: [a](X) = 2.X + 1 [b](X) = 2.X + 2 [c](X) = 2.X [A](X) = 2.X + 2 [B](X) = 2.X + 2 [C](X) = 2.X + 1 Problem 1: SCC Processor: -> Pairs: B(a(a(x1:S))) -> A(b(c(x1:S))) B(a(a(x1:S))) -> B(c(x1:S)) B(a(a(x1:S))) -> C(x1:S) B(c(a(x1:S))) -> A(b(c(x1:S))) B(c(a(x1:S))) -> B(c(x1:S)) B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> A(c(x1:S)) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> A(x1:S) C(b(x1:S)) -> B(a(x1:S)) -> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: B(a(a(x1:S))) -> B(c(x1:S)) B(a(a(x1:S))) -> C(x1:S) B(c(a(x1:S))) -> B(c(x1:S)) B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> B(a(x1:S)) ->->-> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) Problem 1: Reduction Pair Processor: -> Pairs: B(a(a(x1:S))) -> B(c(x1:S)) B(a(a(x1:S))) -> C(x1:S) B(c(a(x1:S))) -> B(c(x1:S)) B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> B(a(x1:S)) -> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) -> Usable rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) ->Interpretation type: Linear ->Coefficients: Natural Numbers ->Dimension: 1 ->Bound: 2 ->Interpretation: [a](X) = 2.X + 2 [b](X) = 2.X + 2 [c](X) = 2.X + 2 [B](X) = 2.X [C](X) = 2.X + 1 Problem 1: SCC Processor: -> Pairs: B(a(a(x1:S))) -> C(x1:S) B(c(a(x1:S))) -> B(c(x1:S)) B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> B(a(x1:S)) -> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: B(a(a(x1:S))) -> C(x1:S) B(c(a(x1:S))) -> B(c(x1:S)) B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> B(a(x1:S)) ->->-> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) Problem 1: Reduction Pair Processor: -> Pairs: B(a(a(x1:S))) -> C(x1:S) B(c(a(x1:S))) -> B(c(x1:S)) B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> B(a(x1:S)) -> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) -> Usable rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) ->Interpretation type: Linear ->Coefficients: Natural Numbers ->Dimension: 1 ->Bound: 2 ->Interpretation: [a](X) = 2.X + 2 [b](X) = 2.X + 2 [c](X) = 2.X + 2 [B](X) = X + 1 [C](X) = 2.X + 1 Problem 1: SCC Processor: -> Pairs: B(c(a(x1:S))) -> B(c(x1:S)) B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> B(a(x1:S)) -> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: B(c(a(x1:S))) -> B(c(x1:S)) B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> B(a(x1:S)) ->->-> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) Problem 1: Reduction Pair Processor: -> Pairs: B(c(a(x1:S))) -> B(c(x1:S)) B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> B(a(x1:S)) -> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) -> Usable rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) ->Interpretation type: Linear ->Coefficients: Natural Numbers ->Dimension: 1 ->Bound: 2 ->Interpretation: [a](X) = 2.X + 2 [b](X) = X [c](X) = 2.X + 2 [B](X) = X [C](X) = 2.X + 2 Problem 1: SCC Processor: -> Pairs: B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> B(a(x1:S)) -> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> B(a(x1:S)) ->->-> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) Problem 1: Reduction Pair Processor: -> Pairs: B(c(a(x1:S))) -> C(x1:S) C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> B(a(x1:S)) -> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) -> Usable rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) ->Interpretation type: Linear ->Coefficients: Natural Numbers ->Dimension: 1 ->Bound: 2 ->Interpretation: [a](X) = 2.X + 2 [b](X) = 2.X + 2 [c](X) = 2.X + 2 [B](X) = 2.X + 1 [C](X) = 2.X + 2 Problem 1: SCC Processor: -> Pairs: C(a(x1:S)) -> C(x1:S) C(b(x1:S)) -> B(a(x1:S)) -> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: C(a(x1:S)) -> C(x1:S) ->->-> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) Problem 1: Subterm Processor: -> Pairs: C(a(x1:S)) -> C(x1:S) -> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) ->Projection: pi(C) = 1 Problem 1: SCC Processor: -> Pairs: Empty -> Rules: a(c(b(x1:S))) -> c(b(a(x1:S))) b(a(a(x1:S))) -> a(b(c(x1:S))) b(c(a(x1:S))) -> a(b(c(x1:S))) c(a(x1:S)) -> a(c(x1:S)) c(b(x1:S)) -> b(a(x1:S)) ->Strongly Connected Components: There is no strongly connected component The problem is finite.