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TRS Stand 20472 pair #381715645
details
property
value
status
complete
benchmark
ExAppendixB_AEL03_FR.xml
ran by
Akihisa Yamada
cpu timeout
1200 seconds
wallclock timeout
300 seconds
memory limit
137438953472 bytes
execution host
n010.star.cs.uiowa.edu
space
Transformed_CSR_04
run statistics
property
value
solver
Wanda
configuration
FirstOrder
runtime (wallclock)
0.274447917938 seconds
cpu usage
0.259942086
max memory
1.3574144E7
stage attributes
key
value
output-size
9154
starexec-result
YES
output
/export/starexec/sandbox2/solver/bin/starexec_run_FirstOrder /export/starexec/sandbox2/benchmark/theBenchmark.xml /export/starexec/sandbox2/output/output_files -------------------------------------------------------------------------------- YES We consider the system theBenchmark. We are asked to determine termination of the following first-order TRS. 0 : [] --> o 2ndsneg : [o * o] --> o 2ndspos : [o * o] --> o activate : [o] --> o cons : [o * o] --> o cons2 : [o * o] --> o from : [o] --> o n!6220!6220from : [o] --> o n!6220!6220s : [o] --> o negrecip : [o] --> o pi : [o] --> o plus : [o * o] --> o posrecip : [o] --> o rcons : [o * o] --> o rnil : [] --> o s : [o] --> o square : [o] --> o times : [o * o] --> o from(X) => cons(X, n!6220!6220from(n!6220!6220s(X))) 2ndspos(0, X) => rnil 2ndspos(s(X), cons(Y, Z)) => 2ndspos(s(X), cons2(Y, activate(Z))) 2ndspos(s(X), cons2(Y, cons(Z, U))) => rcons(posrecip(Z), 2ndsneg(X, activate(U))) 2ndsneg(0, X) => rnil 2ndsneg(s(X), cons(Y, Z)) => 2ndsneg(s(X), cons2(Y, activate(Z))) 2ndsneg(s(X), cons2(Y, cons(Z, U))) => rcons(negrecip(Z), 2ndspos(X, activate(U))) pi(X) => 2ndspos(X, from(0)) plus(0, X) => X plus(s(X), Y) => s(plus(X, Y)) times(0, X) => 0 times(s(X), Y) => plus(Y, times(X, Y)) square(X) => times(X, X) from(X) => n!6220!6220from(X) s(X) => n!6220!6220s(X) activate(n!6220!6220from(X)) => from(activate(X)) activate(n!6220!6220s(X)) => s(activate(X)) activate(X) => X We use the dependency pair framework as described in [Kop12, Ch. 6/7], with static dependency pairs (see [KusIsoSakBla09] and the adaptation for AFSMs in [Kop12, Ch. 7.8]). We thus obtain the following dependency pair problem (P_0, R_0, minimal, formative): Dependency Pairs P_0: 0] 2ndspos#(s(X), cons(Y, Z)) =#> 2ndspos#(s(X), cons2(Y, activate(Z))) 1] 2ndspos#(s(X), cons(Y, Z)) =#> s#(X) 2] 2ndspos#(s(X), cons(Y, Z)) =#> activate#(Z) 3] 2ndspos#(s(X), cons2(Y, cons(Z, U))) =#> 2ndsneg#(X, activate(U)) 4] 2ndspos#(s(X), cons2(Y, cons(Z, U))) =#> activate#(U) 5] 2ndsneg#(s(X), cons(Y, Z)) =#> 2ndsneg#(s(X), cons2(Y, activate(Z))) 6] 2ndsneg#(s(X), cons(Y, Z)) =#> s#(X) 7] 2ndsneg#(s(X), cons(Y, Z)) =#> activate#(Z) 8] 2ndsneg#(s(X), cons2(Y, cons(Z, U))) =#> 2ndspos#(X, activate(U)) 9] 2ndsneg#(s(X), cons2(Y, cons(Z, U))) =#> activate#(U) 10] pi#(X) =#> 2ndspos#(X, from(0)) 11] pi#(X) =#> from#(0) 12] plus#(s(X), Y) =#> s#(plus(X, Y)) 13] plus#(s(X), Y) =#> plus#(X, Y) 14] times#(s(X), Y) =#> plus#(Y, times(X, Y)) 15] times#(s(X), Y) =#> times#(X, Y) 16] square#(X) =#> times#(X, X) 17] activate#(n!6220!6220from(X)) =#> from#(activate(X)) 18] activate#(n!6220!6220from(X)) =#> activate#(X) 19] activate#(n!6220!6220s(X)) =#> s#(activate(X)) 20] activate#(n!6220!6220s(X)) =#> activate#(X) Rules R_0: from(X) => cons(X, n!6220!6220from(n!6220!6220s(X))) 2ndspos(0, X) => rnil 2ndspos(s(X), cons(Y, Z)) => 2ndspos(s(X), cons2(Y, activate(Z))) 2ndspos(s(X), cons2(Y, cons(Z, U))) => rcons(posrecip(Z), 2ndsneg(X, activate(U))) 2ndsneg(0, X) => rnil 2ndsneg(s(X), cons(Y, Z)) => 2ndsneg(s(X), cons2(Y, activate(Z))) 2ndsneg(s(X), cons2(Y, cons(Z, U))) => rcons(negrecip(Z), 2ndspos(X, activate(U))) pi(X) => 2ndspos(X, from(0)) plus(0, X) => X plus(s(X), Y) => s(plus(X, Y)) times(0, X) => 0 times(s(X), Y) => plus(Y, times(X, Y)) square(X) => times(X, X) from(X) => n!6220!6220from(X) s(X) => n!6220!6220s(X) activate(n!6220!6220from(X)) => from(activate(X)) activate(n!6220!6220s(X)) => s(activate(X)) activate(X) => X Thus, the original system is terminating if (P_0, R_0, minimal, formative) is finite.
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