/export/starexec/sandbox2/solver/bin/starexec_run_default /export/starexec/sandbox2/benchmark/theBenchmark.xml /export/starexec/sandbox2/output/output_files -------------------------------------------------------------------------------- YES Problem 1: (VAR x y) (RULES c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) ) Problem 1: Dependency Pairs Processor: -> Pairs: C(c(c(a(x,y)))) -> C(c(c(c(y)))) C(c(c(a(x,y)))) -> C(c(c(y))) C(c(c(a(x,y)))) -> C(c(y)) C(c(c(a(x,y)))) -> C(y) C(c(a(a(y,0),x))) -> C(y) C(c(b(c(y),0))) -> C(c(a(y,0))) -> Rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) Problem 1: SCC Processor: -> Pairs: C(c(c(a(x,y)))) -> C(c(c(c(y)))) C(c(c(a(x,y)))) -> C(c(c(y))) C(c(c(a(x,y)))) -> C(c(y)) C(c(c(a(x,y)))) -> C(y) C(c(a(a(y,0),x))) -> C(y) C(c(b(c(y),0))) -> C(c(a(y,0))) -> Rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: C(c(c(a(x,y)))) -> C(c(c(c(y)))) C(c(c(a(x,y)))) -> C(c(c(y))) C(c(c(a(x,y)))) -> C(c(y)) C(c(c(a(x,y)))) -> C(y) C(c(a(a(y,0),x))) -> C(y) C(c(b(c(y),0))) -> C(c(a(y,0))) ->->-> Rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) Problem 1: Reduction Pair Processor: -> Pairs: C(c(c(a(x,y)))) -> C(c(c(c(y)))) C(c(c(a(x,y)))) -> C(c(c(y))) C(c(c(a(x,y)))) -> C(c(y)) C(c(c(a(x,y)))) -> C(y) C(c(a(a(y,0),x))) -> C(y) C(c(b(c(y),0))) -> C(c(a(y,0))) -> Rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) -> Usable rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) ->Interpretation type: Linear ->Coefficients: All rationals ->Dimension: 1 ->Bound: 2 ->Interpretation: [c](X) = 2.X [0] = 0 [a](X1,X2) = X1 + 2.X2 + 1/2 [b](X1,X2) = X1 + 2.X2 + 2 [C](X) = 1/2.X Problem 1: SCC Processor: -> Pairs: C(c(c(a(x,y)))) -> C(c(c(y))) C(c(c(a(x,y)))) -> C(c(y)) C(c(c(a(x,y)))) -> C(y) C(c(a(a(y,0),x))) -> C(y) C(c(b(c(y),0))) -> C(c(a(y,0))) -> Rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: C(c(c(a(x,y)))) -> C(c(c(y))) C(c(c(a(x,y)))) -> C(c(y)) C(c(c(a(x,y)))) -> C(y) C(c(a(a(y,0),x))) -> C(y) C(c(b(c(y),0))) -> C(c(a(y,0))) ->->-> Rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) Problem 1: Reduction Pair Processor: -> Pairs: C(c(c(a(x,y)))) -> C(c(c(y))) C(c(c(a(x,y)))) -> C(c(y)) C(c(c(a(x,y)))) -> C(y) C(c(a(a(y,0),x))) -> C(y) C(c(b(c(y),0))) -> C(c(a(y,0))) -> Rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) -> Usable rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) ->Interpretation type: Linear ->Coefficients: All rationals ->Dimension: 1 ->Bound: 2 ->Interpretation: [c](X) = 2.X + 2 [0] = 0 [a](X1,X2) = X1 + X2 + 1 [b](X1,X2) = 1/2.X1 + 2.X2 + 2 [C](X) = 1/2.X Problem 1: SCC Processor: -> Pairs: C(c(c(a(x,y)))) -> C(c(y)) C(c(c(a(x,y)))) -> C(y) C(c(a(a(y,0),x))) -> C(y) C(c(b(c(y),0))) -> C(c(a(y,0))) -> Rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: C(c(c(a(x,y)))) -> C(c(y)) C(c(c(a(x,y)))) -> C(y) C(c(a(a(y,0),x))) -> C(y) C(c(b(c(y),0))) -> C(c(a(y,0))) ->->-> Rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) Problem 1: Reduction Pair Processor: -> Pairs: C(c(c(a(x,y)))) -> C(c(y)) C(c(c(a(x,y)))) -> C(y) C(c(a(a(y,0),x))) -> C(y) C(c(b(c(y),0))) -> C(c(a(y,0))) -> Rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) -> Usable rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) ->Interpretation type: Linear ->Coefficients: All rationals ->Dimension: 1 ->Bound: 2 ->Interpretation: [c](X) = 2.X + 2 [0] = 1 [a](X1,X2) = X1 + X2 + 1 [b](X1,X2) = 1/2.X1 + 1/2.X2 + 2 [C](X) = X Problem 1: SCC Processor: -> Pairs: C(c(c(a(x,y)))) -> C(y) C(c(a(a(y,0),x))) -> C(y) C(c(b(c(y),0))) -> C(c(a(y,0))) -> Rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: C(c(c(a(x,y)))) -> C(y) C(c(a(a(y,0),x))) -> C(y) C(c(b(c(y),0))) -> C(c(a(y,0))) ->->-> Rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) Problem 1: Reduction Pair Processor: -> Pairs: C(c(c(a(x,y)))) -> C(y) C(c(a(a(y,0),x))) -> C(y) C(c(b(c(y),0))) -> C(c(a(y,0))) -> Rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) -> Usable rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) ->Interpretation type: Linear ->Coefficients: All rationals ->Dimension: 1 ->Bound: 2 ->Interpretation: [c](X) = 2.X + 2 [0] = 2 [a](X1,X2) = X1 + X2 + 2 [b](X1,X2) = 1/2.X1 + 2.X2 + 2 [C](X) = 1/2.X Problem 1: SCC Processor: -> Pairs: C(c(a(a(y,0),x))) -> C(y) C(c(b(c(y),0))) -> C(c(a(y,0))) -> Rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: C(c(a(a(y,0),x))) -> C(y) C(c(b(c(y),0))) -> C(c(a(y,0))) ->->-> Rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) Problem 1: Reduction Pair Processor: -> Pairs: C(c(a(a(y,0),x))) -> C(y) C(c(b(c(y),0))) -> C(c(a(y,0))) -> Rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) -> Usable rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) ->Interpretation type: Linear ->Coefficients: All rationals ->Dimension: 1 ->Bound: 2 ->Interpretation: [c](X) = 2.X + 2 [0] = 1/2 [a](X1,X2) = X1 + X2 + 1/2 [b](X1,X2) = 1/2.X1 + X2 [C](X) = 1/2.X Problem 1: SCC Processor: -> Pairs: C(c(b(c(y),0))) -> C(c(a(y,0))) -> Rules: c(c(c(a(x,y)))) -> b(c(c(c(c(y)))),x) c(c(a(a(y,0),x))) -> c(y) c(c(b(c(y),0))) -> a(0,c(c(a(y,0)))) ->Strongly Connected Components: There is no strongly connected component The problem is finite.