YES proof of /export/starexec/sandbox/benchmark/theBenchmark.xml # AProVE Commit ID: 794c25de1cacf0d048858bcd21c9a779e1221865 marcel 20200619 unpublished dirty Termination w.r.t. Q of the given QTRS could be proven: (0) QTRS (1) RFCMatchBoundsTRSProof [EQUIVALENT, 0 ms] (2) YES ---------------------------------------- (0) Obligation: Q restricted rewrite system: The TRS R consists of the following rules: active(f(f(a))) -> mark(f(g(f(a)))) mark(f(X)) -> active(f(mark(X))) mark(a) -> active(a) mark(g(X)) -> active(g(X)) f(mark(X)) -> f(X) f(active(X)) -> f(X) g(mark(X)) -> g(X) g(active(X)) -> g(X) The set Q consists of the following terms: active(f(f(a))) mark(f(x0)) mark(a) mark(g(x0)) f(mark(x0)) f(active(x0)) g(mark(x0)) g(active(x0)) ---------------------------------------- (1) RFCMatchBoundsTRSProof (EQUIVALENT) Termination of the TRS R could be shown with a Match Bound [MATCHBOUNDS1,MATCHBOUNDS2] of 4. This implies Q-termination of R. The following rules were used to construct the certificate: active(f(f(a))) -> mark(f(g(f(a)))) mark(f(X)) -> active(f(mark(X))) mark(a) -> active(a) mark(g(X)) -> active(g(X)) f(mark(X)) -> f(X) f(active(X)) -> f(X) g(mark(X)) -> g(X) g(active(X)) -> g(X) The certificate found is represented by the following graph. The certificate consists of the following enumerated nodes: 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 28, 29, 30, 31, 32, 33, 45, 46, 47, 51 Node 1 is start node and node 2 is final node. Those nodes are connected through the following edges: * 1 to 3 labelled mark_1(0)* 1 to 7 labelled active_1(0)* 1 to 6 labelled active_1(0)* 1 to 2 labelled f_1(0), g_1(0), f_1(1), g_1(1)* 1 to 9 labelled active_1(1)* 1 to 14 labelled mark_1(1)* 1 to 28 labelled active_1(2)* 2 to 2 labelled #_1(0)* 3 to 4 labelled f_1(0)* 4 to 5 labelled g_1(0)* 5 to 6 labelled f_1(0)* 6 to 2 labelled a(0)* 7 to 8 labelled f_1(0)* 7 to 2 labelled g_1(0), g_1(1), f_1(1)* 7 to 11 labelled f_1(1)* 7 to 7 labelled f_1(1)* 7 to 14 labelled f_1(1)* 7 to 28 labelled f_1(1)* 7 to 30 labelled f_1(1)* 7 to 45 labelled f_1(1)* 8 to 2 labelled mark_1(0)* 8 to 11 labelled active_1(1)* 8 to 7 labelled active_1(1)* 8 to 14 labelled mark_1(1)* 8 to 28 labelled active_1(2)* 8 to 30 labelled mark_1(2)* 8 to 45 labelled active_1(3)* 9 to 10 labelled f_1(1)* 9 to 4 labelled f_1(2)* 9 to 13 labelled f_1(2)* 10 to 4 labelled mark_1(1)* 10 to 13 labelled active_1(1)* 11 to 12 labelled f_1(1)* 11 to 2 labelled a(1), f_1(2), f_1(1)* 11 to 11 labelled f_1(2)* 11 to 7 labelled f_1(2)* 11 to 14 labelled f_1(2)* 11 to 30 labelled f_1(2)* 11 to 28 labelled f_1(2)* 11 to 45 labelled f_1(2)* 12 to 2 labelled mark_1(1)* 12 to 11 labelled active_1(1)* 12 to 7 labelled active_1(1)* 12 to 14 labelled mark_1(1)* 12 to 30 labelled mark_1(2)* 12 to 28 labelled active_1(2)* 12 to 45 labelled active_1(3)* 13 to 5 labelled g_1(1)* 14 to 15 labelled f_1(1)* 15 to 16 labelled g_1(1)* 16 to 17 labelled f_1(1)* 17 to 2 labelled a(1)* 28 to 29 labelled f_1(2)* 28 to 15 labelled f_1(3)* 28 to 47 labelled f_1(3)* 29 to 15 labelled mark_1(2)* 29 to 47 labelled active_1(2)* 30 to 31 labelled f_1(2)* 31 to 32 labelled g_1(2)* 32 to 33 labelled f_1(2)* 33 to 2 labelled a(2)* 45 to 46 labelled f_1(3)* 45 to 31 labelled f_1(4)* 45 to 51 labelled f_1(4)* 46 to 31 labelled mark_1(3)* 46 to 51 labelled active_1(3)* 47 to 16 labelled g_1(2)* 51 to 32 labelled g_1(3) ---------------------------------------- (2) YES