/export/starexec/sandbox2/solver/bin/starexec_run_default /export/starexec/sandbox2/benchmark/theBenchmark.xml /export/starexec/sandbox2/output/output_files -------------------------------------------------------------------------------- Error at 1: Unexpected token '>=', 'benchmark' expected. syntax error rm: cannot remove ‘/tmp/muTerm336465782861021530.in.dec’: Operation not permitted rm: cannot remove ‘/tmp/muTerm336465782861021530.in.form’: Operation not permitted Error at 1: Unexpected token '>=', 'benchmark' expected. syntax error rm: cannot remove ‘/tmp/muTerm2145174067468703135.in.dec’: Operation not permitted rm: cannot remove ‘/tmp/muTerm2145174067468703135.in.form’: Operation not permitted Error at 1: Unexpected token '>=', 'benchmark' expected. syntax error rm: cannot remove ‘/tmp/muTerm1315634022635723058.in.dec’: Operation not permitted rm: cannot remove ‘/tmp/muTerm1315634022635723058.in.form’: Operation not permitted Error at 1: Unexpected token '>=', 'benchmark' expected. syntax error rm: cannot remove ‘/tmp/muTerm10599613932089018456.in.dec’: Operation not permitted rm: cannot remove ‘/tmp/muTerm10599613932089018456.in.form’: Operation not permitted NO Problem 1: (VAR X XS) (RULES activate(n__incr(X)) -> incr(activate(X)) activate(n__nats) -> nats activate(n__odds) -> odds activate(X) -> X head(cons(X,XS)) -> X incr(cons(X,XS)) -> cons(s(X),n__incr(activate(XS))) incr(X) -> n__incr(X) nats -> cons(0,n__incr(n__nats)) nats -> n__nats odds -> incr(pairs) odds -> n__odds pairs -> cons(0,n__incr(n__odds)) tail(cons(X,XS)) -> activate(XS) ) Problem 1: Dependency Pairs Processor: -> Pairs: ACTIVATE(n__incr(X)) -> ACTIVATE(X) ACTIVATE(n__incr(X)) -> INCR(activate(X)) ACTIVATE(n__nats) -> NATS ACTIVATE(n__odds) -> ODDS INCR(cons(X,XS)) -> ACTIVATE(XS) ODDS -> INCR(pairs) ODDS -> PAIRS TAIL(cons(X,XS)) -> ACTIVATE(XS) -> Rules: activate(n__incr(X)) -> incr(activate(X)) activate(n__nats) -> nats activate(n__odds) -> odds activate(X) -> X head(cons(X,XS)) -> X incr(cons(X,XS)) -> cons(s(X),n__incr(activate(XS))) incr(X) -> n__incr(X) nats -> cons(0,n__incr(n__nats)) nats -> n__nats odds -> incr(pairs) odds -> n__odds pairs -> cons(0,n__incr(n__odds)) tail(cons(X,XS)) -> activate(XS) Problem 1: SCC Processor: -> Pairs: ACTIVATE(n__incr(X)) -> ACTIVATE(X) ACTIVATE(n__incr(X)) -> INCR(activate(X)) ACTIVATE(n__nats) -> NATS ACTIVATE(n__odds) -> ODDS INCR(cons(X,XS)) -> ACTIVATE(XS) ODDS -> INCR(pairs) ODDS -> PAIRS TAIL(cons(X,XS)) -> ACTIVATE(XS) -> Rules: activate(n__incr(X)) -> incr(activate(X)) activate(n__nats) -> nats activate(n__odds) -> odds activate(X) -> X head(cons(X,XS)) -> X incr(cons(X,XS)) -> cons(s(X),n__incr(activate(XS))) incr(X) -> n__incr(X) nats -> cons(0,n__incr(n__nats)) nats -> n__nats odds -> incr(pairs) odds -> n__odds pairs -> cons(0,n__incr(n__odds)) tail(cons(X,XS)) -> activate(XS) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: ACTIVATE(n__incr(X)) -> ACTIVATE(X) ACTIVATE(n__incr(X)) -> INCR(activate(X)) ACTIVATE(n__odds) -> ODDS INCR(cons(X,XS)) -> ACTIVATE(XS) ODDS -> INCR(pairs) ->->-> Rules: activate(n__incr(X)) -> incr(activate(X)) activate(n__nats) -> nats activate(n__odds) -> odds activate(X) -> X head(cons(X,XS)) -> X incr(cons(X,XS)) -> cons(s(X),n__incr(activate(XS))) incr(X) -> n__incr(X) nats -> cons(0,n__incr(n__nats)) nats -> n__nats odds -> incr(pairs) odds -> n__odds pairs -> cons(0,n__incr(n__odds)) tail(cons(X,XS)) -> activate(XS) Problem 1: Infinite Processor: -> Pairs: ACTIVATE(n__incr(X)) -> ACTIVATE(X) ACTIVATE(n__incr(X)) -> INCR(activate(X)) ACTIVATE(n__odds) -> ODDS INCR(cons(X,XS)) -> ACTIVATE(XS) ODDS -> INCR(pairs) -> Rules: activate(n__incr(X)) -> incr(activate(X)) activate(n__nats) -> nats activate(n__odds) -> odds activate(X) -> X head(cons(X,XS)) -> X incr(cons(X,XS)) -> cons(s(X),n__incr(activate(XS))) incr(X) -> n__incr(X) nats -> cons(0,n__incr(n__nats)) nats -> n__nats odds -> incr(pairs) odds -> n__odds pairs -> cons(0,n__incr(n__odds)) tail(cons(X,XS)) -> activate(XS) -> Pairs in cycle: ACTIVATE(n__incr(n__odds)) -> ACTIVATE(n__odds) ACTIVATE(n__odds) -> ODDS INCR(pairs) -> INCR(cons(0,n__incr(n__odds))) INCR(cons(0,n__incr(n__odds))) -> ACTIVATE(n__incr(n__odds)) ODDS -> INCR(pairs) The problem is infinite.