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TRS Stand 20472 pair #381716883
details
property
value
status
complete
benchmark
Ex9_BLR02_FR.xml
ran by
Akihisa Yamada
cpu timeout
1200 seconds
wallclock timeout
300 seconds
memory limit
137438953472 bytes
execution host
n100.star.cs.uiowa.edu
space
Transformed_CSR_04
run statistics
property
value
solver
NaTT
configuration
Default
runtime (wallclock)
0.0864310264587 seconds
cpu usage
0.09202517
max memory
1.1956224E7
stage attributes
key
value
output-size
3084
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 Input TRS: 1: filter(cons(X,Y),0(),M) -> cons(0(),n__filter(activate(Y),M,M)) 2: filter(cons(X,Y),s(N),M) -> cons(X,n__filter(activate(Y),N,M)) 3: sieve(cons(0(),Y)) -> cons(0(),n__sieve(activate(Y))) 4: sieve(cons(s(N),Y)) -> cons(s(N),n__sieve(n__filter(activate(Y),N,N))) 5: nats(N) -> cons(N,n__nats(n__s(N))) 6: zprimes() -> sieve(nats(s(s(0())))) 7: filter(X1,X2,X3) -> n__filter(X1,X2,X3) 8: sieve(X) -> n__sieve(X) 9: nats(X) -> n__nats(X) 10: s(X) -> n__s(X) 11: activate(n__filter(X1,X2,X3)) -> filter(activate(X1),activate(X2),activate(X3)) 12: activate(n__sieve(X)) -> sieve(activate(X)) 13: activate(n__nats(X)) -> nats(activate(X)) 14: activate(n__s(X)) -> s(activate(X)) 15: activate(X) -> X Number of strict rules: 15 Direct POLO(bPol) ... failed. Uncurrying ... failed. Dependency Pairs: #1: #filter(cons(X,Y),s(N),M) -> #activate(Y) #2: #zprimes() -> #sieve(nats(s(s(0())))) #3: #zprimes() -> #nats(s(s(0()))) #4: #zprimes() -> #s(s(0())) #5: #zprimes() -> #s(0()) #6: #activate(n__nats(X)) -> #nats(activate(X)) #7: #activate(n__nats(X)) -> #activate(X) #8: #activate(n__filter(X1,X2,X3)) -> #filter(activate(X1),activate(X2),activate(X3)) #9: #activate(n__filter(X1,X2,X3)) -> #activate(X1) #10: #activate(n__filter(X1,X2,X3)) -> #activate(X2) #11: #activate(n__filter(X1,X2,X3)) -> #activate(X3) #12: #activate(n__sieve(X)) -> #sieve(activate(X)) #13: #activate(n__sieve(X)) -> #activate(X) #14: #activate(n__s(X)) -> #s(activate(X)) #15: #activate(n__s(X)) -> #activate(X) #16: #sieve(cons(0(),Y)) -> #activate(Y) #17: #filter(cons(X,Y),0(),M) -> #activate(Y) #18: #sieve(cons(s(N),Y)) -> #activate(Y) Number of SCCs: 1, DPs: 12 SCC { #1 #7..13 #15..18 } POLO(Sum)... POLO(max)... succeeded. zprimes w: 0 #nats w: 0 s w: x1 activate w: x1 #filter w: max(x1 + 1) #activate w: x1 + 1 #zprimes w: 0 n__nats w: x1 + 4 n__s w: x1 0 w: 0 #s w: 0 n__filter w: max(x1, x2 + 1, x3 + 2) sieve w: x1 + 2 n__sieve w: x1 + 2 nats w: x1 + 4 cons w: max(x1 + 4, x2) filter w: max(x1, x2 + 1, x3 + 2) #sieve w: x1 + 2 USABLE RULES: { 1..5 7..15 } Removed DPs: #7 #10..13 #16 #18 Number of SCCs: 1, DPs: 5 SCC { #1 #8 #9 #15 #17 } POLO(Sum)... succeeded. zprimes w: 0 #nats w: 0 s w: x1 + 1 activate w: x1 #filter w: x1 + 1 #activate w: x1 #zprimes w: 0 n__nats w: 1 n__s w: x1 + 1 0 w: 1 #s w: 0 n__filter w: x1 + 2 sieve w: 1 n__sieve w: 1 nats w: 1 cons w: x2 filter w: x1 + 2 #sieve w: 0 USABLE RULES: { 1..5 7..15 } Removed DPs: #1 #8 #9 #15 #17 Number of SCCs: 0, DPs: 0
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