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Runti Compl Inner Rewri 22807 pair #381905295
details
property
value
status
complete
benchmark
ExIntrod_GM04_FR.xml
ran by
Akihisa Yamada
cpu timeout
1200 seconds
wallclock timeout
300 seconds
memory limit
137438953472 bytes
execution host
n026.star.cs.uiowa.edu
space
Transformed_CSR_04
run statistics
property
value
solver
AProVE
configuration
complexity
runtime (wallclock)
5.3857228756 seconds
cpu usage
17.86441456
max memory
1.913102336E9
stage attributes
key
value
output-size
5580
starexec-result
WORST_CASE(NON_POLY, ?)
output
/export/starexec/sandbox/solver/bin/starexec_run_complexity /export/starexec/sandbox/benchmark/theBenchmark.xml /export/starexec/sandbox/output/output_files -------------------------------------------------------------------------------- WORST_CASE(NON_POLY, ?) proof of /export/starexec/sandbox/benchmark/theBenchmark.xml # AProVE Commit ID: 48fb2092695e11cc9f56e44b17a92a5f88ffb256 marcel 20180622 unpublished dirty The Runtime Complexity (innermost) of the given CpxTRS could be proven to be BOUNDS(INF, INF). (0) CpxTRS (1) RelTrsToDecreasingLoopProblemProof [LOWER BOUND(ID), 0 ms] (2) TRS for Loop Detection (3) DecreasingLoopProof [LOWER BOUND(ID), 0 ms] (4) BEST (5) proven lower bound (6) LowerBoundPropagationProof [FINISHED, 0 ms] (7) BOUNDS(n^1, INF) (8) TRS for Loop Detection (9) InfiniteLowerBoundProof [FINISHED, 2398 ms] (10) BOUNDS(INF, INF) ---------------------------------------- (0) Obligation: The Runtime Complexity (innermost) of the given CpxTRS could be proven to be BOUNDS(INF, INF). The TRS R consists of the following rules: nats -> adx(zeros) zeros -> cons(n__0, n__zeros) incr(cons(X, Y)) -> cons(n__s(activate(X)), n__incr(activate(Y))) adx(cons(X, Y)) -> incr(cons(activate(X), n__adx(activate(Y)))) hd(cons(X, Y)) -> activate(X) tl(cons(X, Y)) -> activate(Y) 0 -> n__0 zeros -> n__zeros s(X) -> n__s(X) incr(X) -> n__incr(X) adx(X) -> n__adx(X) activate(n__0) -> 0 activate(n__zeros) -> zeros activate(n__s(X)) -> s(X) activate(n__incr(X)) -> incr(activate(X)) activate(n__adx(X)) -> adx(activate(X)) activate(X) -> X S is empty. Rewrite Strategy: INNERMOST ---------------------------------------- (1) RelTrsToDecreasingLoopProblemProof (LOWER BOUND(ID)) Transformed a relative TRS into a decreasing-loop problem. ---------------------------------------- (2) Obligation: Analyzing the following TRS for decreasing loops: The Runtime Complexity (innermost) of the given CpxTRS could be proven to be BOUNDS(INF, INF). The TRS R consists of the following rules: nats -> adx(zeros) zeros -> cons(n__0, n__zeros) incr(cons(X, Y)) -> cons(n__s(activate(X)), n__incr(activate(Y))) adx(cons(X, Y)) -> incr(cons(activate(X), n__adx(activate(Y)))) hd(cons(X, Y)) -> activate(X) tl(cons(X, Y)) -> activate(Y) 0 -> n__0 zeros -> n__zeros s(X) -> n__s(X) incr(X) -> n__incr(X) adx(X) -> n__adx(X) activate(n__0) -> 0 activate(n__zeros) -> zeros activate(n__s(X)) -> s(X) activate(n__incr(X)) -> incr(activate(X)) activate(n__adx(X)) -> adx(activate(X)) activate(X) -> X S is empty. Rewrite Strategy: INNERMOST ---------------------------------------- (3) DecreasingLoopProof (LOWER BOUND(ID)) The following loop(s) give(s) rise to the lower bound Omega(n^1): The rewrite sequence activate(n__adx(X)) ->^+ adx(activate(X)) gives rise to a decreasing loop by considering the right hand sides subterm at position [0].
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