Spaces
Explore
Communities
Statistics
Reports
Cluster
Status
Help
TRS Standard pair #516961421
details
property
value
status
complete
benchmark
Ex26_Luc03b_FR.xml
ran by
Akihisa Yamada
cpu timeout
1200 seconds
wallclock timeout
300 seconds
memory limit
137438953472 bytes
execution host
n183.star.cs.uiowa.edu
space
Transformed_CSR_04
run statistics
property
value
solver
muterm 6.0.3
configuration
default
runtime (wallclock)
175.991682053 seconds
cpu usage
174.80451062
max memory
1.14069504E8
stage attributes
key
value
output-size
71968
starexec-result
YES
output
/export/starexec/sandbox/solver/bin/starexec_run_default /export/starexec/sandbox/benchmark/theBenchmark.xml /export/starexec/sandbox/output/output_files -------------------------------------------------------------------------------- YES Problem 1: (VAR v_NonEmpty:S N:S X:S X1:S X2:S Y:S Z:S) (RULES activate(n__add(X1:S,X2:S)) -> add(activate(X1:S),activate(X2:S)) activate(n__dbl(X:S)) -> dbl(activate(X:S)) activate(n__first(X1:S,X2:S)) -> first(activate(X1:S),activate(X2:S)) activate(n__s(X:S)) -> s(X:S) activate(n__sqr(X:S)) -> sqr(activate(X:S)) activate(n__terms(X:S)) -> terms(activate(X:S)) activate(X:S) -> X:S add(s(X:S),Y:S) -> s(n__add(activate(X:S),Y:S)) add(0,X:S) -> X:S add(X1:S,X2:S) -> n__add(X1:S,X2:S) dbl(s(X:S)) -> s(n__s(n__dbl(activate(X:S)))) dbl(0) -> 0 dbl(X:S) -> n__dbl(X:S) first(s(X:S),cons(Y:S,Z:S)) -> cons(Y:S,n__first(activate(X:S),activate(Z:S))) first(0,X:S) -> nil first(X1:S,X2:S) -> n__first(X1:S,X2:S) s(X:S) -> n__s(X:S) sqr(s(X:S)) -> s(n__add(n__sqr(activate(X:S)),n__dbl(activate(X:S)))) sqr(0) -> 0 sqr(X:S) -> n__sqr(X:S) terms(N:S) -> cons(recip(sqr(N:S)),n__terms(n__s(N:S))) terms(X:S) -> n__terms(X:S) ) Problem 1: Dependency Pairs Processor: -> Pairs: ACTIVATE(n__add(X1:S,X2:S)) -> ACTIVATE(X1:S) ACTIVATE(n__add(X1:S,X2:S)) -> ACTIVATE(X2:S) ACTIVATE(n__add(X1:S,X2:S)) -> ADD(activate(X1:S),activate(X2:S)) ACTIVATE(n__dbl(X:S)) -> ACTIVATE(X:S) ACTIVATE(n__dbl(X:S)) -> DBL(activate(X:S)) ACTIVATE(n__first(X1:S,X2:S)) -> ACTIVATE(X1:S) ACTIVATE(n__first(X1:S,X2:S)) -> ACTIVATE(X2:S) ACTIVATE(n__first(X1:S,X2:S)) -> FIRST(activate(X1:S),activate(X2:S)) ACTIVATE(n__s(X:S)) -> S(X:S) ACTIVATE(n__sqr(X:S)) -> ACTIVATE(X:S) ACTIVATE(n__sqr(X:S)) -> SQR(activate(X:S)) ACTIVATE(n__terms(X:S)) -> ACTIVATE(X:S) ACTIVATE(n__terms(X:S)) -> TERMS(activate(X:S)) ADD(s(X:S),Y:S) -> ACTIVATE(X:S) ADD(s(X:S),Y:S) -> S(n__add(activate(X:S),Y:S)) DBL(s(X:S)) -> ACTIVATE(X:S) DBL(s(X:S)) -> S(n__s(n__dbl(activate(X:S)))) FIRST(s(X:S),cons(Y:S,Z:S)) -> ACTIVATE(X:S) FIRST(s(X:S),cons(Y:S,Z:S)) -> ACTIVATE(Z:S) SQR(s(X:S)) -> ACTIVATE(X:S) SQR(s(X:S)) -> S(n__add(n__sqr(activate(X:S)),n__dbl(activate(X:S)))) TERMS(N:S) -> SQR(N:S) -> Rules: activate(n__add(X1:S,X2:S)) -> add(activate(X1:S),activate(X2:S)) activate(n__dbl(X:S)) -> dbl(activate(X:S)) activate(n__first(X1:S,X2:S)) -> first(activate(X1:S),activate(X2:S)) activate(n__s(X:S)) -> s(X:S) activate(n__sqr(X:S)) -> sqr(activate(X:S)) activate(n__terms(X:S)) -> terms(activate(X:S)) activate(X:S) -> X:S add(s(X:S),Y:S) -> s(n__add(activate(X:S),Y:S)) add(0,X:S) -> X:S add(X1:S,X2:S) -> n__add(X1:S,X2:S) dbl(s(X:S)) -> s(n__s(n__dbl(activate(X:S)))) dbl(0) -> 0 dbl(X:S) -> n__dbl(X:S) first(s(X:S),cons(Y:S,Z:S)) -> cons(Y:S,n__first(activate(X:S),activate(Z:S))) first(0,X:S) -> nil first(X1:S,X2:S) -> n__first(X1:S,X2:S) s(X:S) -> n__s(X:S) sqr(s(X:S)) -> s(n__add(n__sqr(activate(X:S)),n__dbl(activate(X:S)))) sqr(0) -> 0 sqr(X:S) -> n__sqr(X:S) terms(N:S) -> cons(recip(sqr(N:S)),n__terms(n__s(N:S))) terms(X:S) -> n__terms(X:S) Problem 1: SCC Processor: -> Pairs: ACTIVATE(n__add(X1:S,X2:S)) -> ACTIVATE(X1:S) ACTIVATE(n__add(X1:S,X2:S)) -> ACTIVATE(X2:S) ACTIVATE(n__add(X1:S,X2:S)) -> ADD(activate(X1:S),activate(X2:S)) ACTIVATE(n__dbl(X:S)) -> ACTIVATE(X:S) ACTIVATE(n__dbl(X:S)) -> DBL(activate(X:S)) ACTIVATE(n__first(X1:S,X2:S)) -> ACTIVATE(X1:S) ACTIVATE(n__first(X1:S,X2:S)) -> ACTIVATE(X2:S) ACTIVATE(n__first(X1:S,X2:S)) -> FIRST(activate(X1:S),activate(X2:S)) ACTIVATE(n__s(X:S)) -> S(X:S) ACTIVATE(n__sqr(X:S)) -> ACTIVATE(X:S)
popout
output may be truncated. 'popout' for the full output.
job log
popout
actions
all output
return to TRS Standard
