details

property	value
status	complete
benchmark	Ex23_Luc06_iGM.xml
ran by	Akihisa Yamada
cpu timeout	1200 seconds
wallclock timeout	300 seconds
memory limit	137438953472 bytes
execution host	n137.star.cs.uiowa.edu
space	Transformed_CSR_innermost_04

run statistics

property	value
solver	AProVE
configuration	standard
runtime (wallclock)	1.70806 seconds
cpu usage	3.62003
user time	3.45556
system time	0.164464
max virtual memory	1.8676192E7
max residence set size	262508.0

stage attributes

key	value
starexec-result	YES

output

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# AProVE Commit ID: 794c25de1cacf0d048858bcd21c9a779e1221865 marcel 20200619 unpublished dirty Termination w.r.t. Q of the given QTRS could be proven: (0) QTRS (1) RFCMatchBoundsTRSProof [EQUIVALENT, 34 ms] (2) YES ---------------------------------------- (0) Obligation: Q restricted rewrite system: The TRS R consists of the following rules: active(f(f(a))) -> mark(c(f(g(f(a))))) mark(f(X)) -> active(f(mark(X))) mark(a) -> active(a) mark(c(X)) -> active(c(X)) mark(g(X)) -> active(g(mark(X))) f(mark(X)) -> f(X) f(active(X)) -> f(X) c(mark(X)) -> c(X) c(active(X)) -> c(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(c(x0)) mark(g(x0)) f(mark(x0)) f(active(x0)) c(mark(x0)) c(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 3. This implies Q-termination of R. The following rules were used to construct the certificate: active(f(f(a))) -> mark(c(f(g(f(a))))) mark(f(X)) -> active(f(mark(X))) mark(a) -> active(a) mark(c(X)) -> active(c(X)) mark(g(X)) -> active(g(mark(X))) f(mark(X)) -> f(X) f(active(X)) -> f(X) c(mark(X)) -> c(X) c(active(X)) -> c(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, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28 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 8 labelled active_1(0)* 1 to 7 labelled active_1(0)* 1 to 10 labelled active_1(0)* 1 to 2 labelled f_1(0), c_1(0), g_1(0), f_1(1), c_1(1), g_1(1)* 1 to 12 labelled active_1(1)* 1 to 17 labelled mark_1(1)* 1 to 22 labelled active_1(2)* 2 to 2 labelled #_1(0)* 3 to 4 labelled c_1(0)* 4 to 5 labelled f_1(0)* 5 to 6 labelled g_1(0)* 6 to 7 labelled f_1(0)* 7 to 2 labelled a(0)* 8 to 9 labelled f_1(0)* 8 to 2 labelled c_1(0), c_1(1), f_1(1)* 8 to 13 labelled f_1(1)* 8 to 8 labelled f_1(1)* 8 to 15 labelled f_1(1)* 8 to 17 labelled f_1(1)* 8 to 22 labelled f_1(1)* 8 to 23 labelled f_1(1)* 8 to 28 labelled f_1(1)* 9 to 2 labelled mark_1(0)* 9 to 13 labelled active_1(1)* 9 to 8 labelled active_1(1)* 9 to 15 labelled active_1(1)* 9 to 17 labelled mark_1(1)* 9 to 22 labelled active_1(2)* 9 to 23 labelled mark_1(2)* 9 to 28 labelled active_1(3)* 10 to 11 labelled g_1(0)* 10 to 2 labelled g_1(1)* 10 to 13 labelled g_1(1)* 10 to 8 labelled g_1(1)* 10 to 15 labelled g_1(1)* 10 to 17 labelled g_1(1)* 10 to 22 labelled g_1(1)* 10 to 23 labelled g_1(1)* 10 to 28 labelled g_1(1)* 11 to 2 labelled mark_1(0)* 11 to 13 labelled active_1(1)* 11 to 8 labelled active_1(1)* 11 to 15 labelled active_1(1)* 11 to 17 labelled mark_1(1)* 11 to 22 labelled active_1(2)* 11 to 23 labelled mark_1(2)* 11 to 28 labelled active_1(3)* 12 to 4 labelled c_1(1)* 13 to 14 labelled f_1(1)* 13 to 2 labelled a(1), f_1(2), f_1(1)* 13 to 13 labelled f_1(2)* 13 to 8 labelled f_1(2)* 13 to 15 labelled f_1(2)* 13 to 17 labelled f_1(2)* 13 to 23 labelled f_1(2)* 13 to 22 labelled f_1(2)* 13 to 28 labelled f_1(2)* 14 to 2 labelled mark_1(1)* 14 to 13 labelled active_1(1)* 14 to 8 labelled active_1(1)* 14 to 15 labelled active_1(1)* 14 to 17 labelled mark_1(1)* 14 to 23 labelled mark_1(2)* 14 to 22 labelled active_1(2)* 14 to 28 labelled active_1(3)* 15 to 16 labelled g_1(1)* 15 to 2 labelled g_1(2), g_1(1)* 15 to 13 labelled g_1(2)* 15 to 8 labelled g_1(2)* 15 to 15 labelled g_1(2)* 15 to 17 labelled g_1(2)* 15 to 23 labelled g_1(2)* 15 to 22 labelled g_1(2)* 15 to 28 labelled g_1(2)* 16 to 2 labelled mark_1(1)* 16 to 13 labelled active_1(1)* 16 to 8 labelled active_1(1)* 16 to 15 labelled active_1(1)* 16 to 17 labelled mark_1(1)* 16 to 23 labelled mark_1(2)* 16 to 22 labelled active_1(2)* 16 to 28 labelled active_1(3)* 17 to 18 labelled c_1(1)* 18 to 19 labelled f_1(1)* 19 to 20 labelled g_1(1)* 20 to 21 labelled f_1(1)* 21 to 2 labelled a(1)* 22 to 18 labelled c_1(2)* 23 to 24 labelled c_1(2)* 24 to 25 labelled f_1(2)* 25 to 26 labelled g_1(2)* 26 to 27 labelled f_1(2)* 27 to 2 labelled a(2)* 28 to 24 labelled c_1(3) ---------------------------------------- (2) YES popout

output may be truncated. 'popout' for the full output.

job log

popout

actions

all output return to TRS Innermost