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TRS Standard pair #516962321
details
property
value
status
complete
benchmark
Ex9_BLR02_Z.xml
ran by
Akihisa Yamada
cpu timeout
1200 seconds
wallclock timeout
300 seconds
memory limit
137438953472 bytes
execution host
n146.star.cs.uiowa.edu
space
Transformed_CSR_04
run statistics
property
value
solver
muterm 6.0.3
configuration
default
runtime (wallclock)
0.14120388031 seconds
cpu usage
0.101419733
max memory
5357568.0
stage attributes
key
value
output-size
9745
starexec-result
YES
output
/export/starexec/sandbox2/solver/bin/starexec_run_default /export/starexec/sandbox2/benchmark/theBenchmark.xml /export/starexec/sandbox2/output/output_files -------------------------------------------------------------------------------- YES Problem 1: (VAR v_NonEmpty:S M:S N:S X:S X1:S X2:S X3:S Y:S) (RULES activate(n__filter(X1:S,X2:S,X3:S)) -> filter(X1:S,X2:S,X3:S) activate(n__nats(X:S)) -> nats(X:S) activate(n__sieve(X:S)) -> sieve(X:S) activate(X:S) -> X:S filter(cons(X:S,Y:S),0,M:S) -> cons(0,n__filter(activate(Y:S),M:S,M:S)) filter(cons(X:S,Y:S),s(N:S),M:S) -> cons(X:S,n__filter(activate(Y:S),N:S,M:S)) filter(X1:S,X2:S,X3:S) -> n__filter(X1:S,X2:S,X3:S) nats(N:S) -> cons(N:S,n__nats(s(N:S))) nats(X:S) -> n__nats(X:S) sieve(cons(0,Y:S)) -> cons(0,n__sieve(activate(Y:S))) sieve(cons(s(N:S),Y:S)) -> cons(s(N:S),n__sieve(filter(activate(Y:S),N:S,N:S))) sieve(X:S) -> n__sieve(X:S) zprimes -> sieve(nats(s(s(0)))) ) Problem 1: Dependency Pairs Processor: -> Pairs: ACTIVATE(n__filter(X1:S,X2:S,X3:S)) -> FILTER(X1:S,X2:S,X3:S) ACTIVATE(n__nats(X:S)) -> NATS(X:S) ACTIVATE(n__sieve(X:S)) -> SIEVE(X:S) FILTER(cons(X:S,Y:S),0,M:S) -> ACTIVATE(Y:S) FILTER(cons(X:S,Y:S),s(N:S),M:S) -> ACTIVATE(Y:S) SIEVE(cons(0,Y:S)) -> ACTIVATE(Y:S) SIEVE(cons(s(N:S),Y:S)) -> ACTIVATE(Y:S) SIEVE(cons(s(N:S),Y:S)) -> FILTER(activate(Y:S),N:S,N:S) ZPRIMES -> NATS(s(s(0))) ZPRIMES -> SIEVE(nats(s(s(0)))) -> Rules: activate(n__filter(X1:S,X2:S,X3:S)) -> filter(X1:S,X2:S,X3:S) activate(n__nats(X:S)) -> nats(X:S) activate(n__sieve(X:S)) -> sieve(X:S) activate(X:S) -> X:S filter(cons(X:S,Y:S),0,M:S) -> cons(0,n__filter(activate(Y:S),M:S,M:S)) filter(cons(X:S,Y:S),s(N:S),M:S) -> cons(X:S,n__filter(activate(Y:S),N:S,M:S)) filter(X1:S,X2:S,X3:S) -> n__filter(X1:S,X2:S,X3:S) nats(N:S) -> cons(N:S,n__nats(s(N:S))) nats(X:S) -> n__nats(X:S) sieve(cons(0,Y:S)) -> cons(0,n__sieve(activate(Y:S))) sieve(cons(s(N:S),Y:S)) -> cons(s(N:S),n__sieve(filter(activate(Y:S),N:S,N:S))) sieve(X:S) -> n__sieve(X:S) zprimes -> sieve(nats(s(s(0)))) Problem 1: SCC Processor: -> Pairs: ACTIVATE(n__filter(X1:S,X2:S,X3:S)) -> FILTER(X1:S,X2:S,X3:S) ACTIVATE(n__nats(X:S)) -> NATS(X:S) ACTIVATE(n__sieve(X:S)) -> SIEVE(X:S) FILTER(cons(X:S,Y:S),0,M:S) -> ACTIVATE(Y:S) FILTER(cons(X:S,Y:S),s(N:S),M:S) -> ACTIVATE(Y:S) SIEVE(cons(0,Y:S)) -> ACTIVATE(Y:S) SIEVE(cons(s(N:S),Y:S)) -> ACTIVATE(Y:S) SIEVE(cons(s(N:S),Y:S)) -> FILTER(activate(Y:S),N:S,N:S) ZPRIMES -> NATS(s(s(0))) ZPRIMES -> SIEVE(nats(s(s(0)))) -> Rules: activate(n__filter(X1:S,X2:S,X3:S)) -> filter(X1:S,X2:S,X3:S) activate(n__nats(X:S)) -> nats(X:S) activate(n__sieve(X:S)) -> sieve(X:S) activate(X:S) -> X:S filter(cons(X:S,Y:S),0,M:S) -> cons(0,n__filter(activate(Y:S),M:S,M:S)) filter(cons(X:S,Y:S),s(N:S),M:S) -> cons(X:S,n__filter(activate(Y:S),N:S,M:S)) filter(X1:S,X2:S,X3:S) -> n__filter(X1:S,X2:S,X3:S) nats(N:S) -> cons(N:S,n__nats(s(N:S))) nats(X:S) -> n__nats(X:S) sieve(cons(0,Y:S)) -> cons(0,n__sieve(activate(Y:S))) sieve(cons(s(N:S),Y:S)) -> cons(s(N:S),n__sieve(filter(activate(Y:S),N:S,N:S))) sieve(X:S) -> n__sieve(X:S) zprimes -> sieve(nats(s(s(0)))) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: ACTIVATE(n__filter(X1:S,X2:S,X3:S)) -> FILTER(X1:S,X2:S,X3:S) ACTIVATE(n__sieve(X:S)) -> SIEVE(X:S) FILTER(cons(X:S,Y:S),0,M:S) -> ACTIVATE(Y:S) FILTER(cons(X:S,Y:S),s(N:S),M:S) -> ACTIVATE(Y:S) SIEVE(cons(0,Y:S)) -> ACTIVATE(Y:S) SIEVE(cons(s(N:S),Y:S)) -> ACTIVATE(Y:S) SIEVE(cons(s(N:S),Y:S)) -> FILTER(activate(Y:S),N:S,N:S) ->->-> Rules: activate(n__filter(X1:S,X2:S,X3:S)) -> filter(X1:S,X2:S,X3:S) activate(n__nats(X:S)) -> nats(X:S) activate(n__sieve(X:S)) -> sieve(X:S) activate(X:S) -> X:S filter(cons(X:S,Y:S),0,M:S) -> cons(0,n__filter(activate(Y:S),M:S,M:S))
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