Spaces
Explore
Communities
Statistics
Reports
Cluster
Status
Help
Complexity_C_Integer 2019-03-21 04.38 pair #429989674
details
property
value
status
complete
benchmark
serpent.c
ran by
Akihisa Yamada
cpu timeout
1200 seconds
wallclock timeout
300 seconds
memory limit
137438953472 bytes
execution host
n009.star.cs.uiowa.edu
space
WTC_V2
run statistics
property
value
solver
AProVE
configuration
c_complexity
runtime (wallclock)
10.8734 seconds
cpu usage
12.2403
user time
11.5472
system time
0.693131
max virtual memory
1.8564E7
max residence set size
223300.0
stage attributes
key
value
starexec-result
MAYBE
output
12.14/10.84 MAYBE 12.14/10.85 proof of /export/starexec/sandbox/output/output_files/bench.koat 12.14/10.85 # AProVE Commit ID: 48fb2092695e11cc9f56e44b17a92a5f88ffb256 marcel 20180622 unpublished dirty 12.14/10.85 12.14/10.85 12.14/10.85 The runtime complexity of the given CpxIntTrs could be proven to be BOUNDS(1, INF). 12.14/10.85 12.14/10.85 (0) CpxIntTrs 12.14/10.85 12.14/10.85 12.14/10.85 ---------------------------------------- 12.14/10.85 12.14/10.85 (0) 12.14/10.85 Obligation: 12.14/10.85 Complexity Int TRS consisting of the following rules: 12.14/10.85 eval_serpent_start(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2) -> Com_1(eval_serpent_bb0_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2)) :|: TRUE 12.14/10.85 eval_serpent_bb0_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2) -> Com_1(eval_serpent_bb7_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2)) :|: v_n <= 0 12.14/10.85 eval_serpent_bb0_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2) -> Com_1(eval_serpent_.critedge1_in(v_3, v_6, v_8, v_n, v_n, v_n, v_y.1, v_y.2)) :|: v_n > 0 12.14/10.85 eval_serpent_.critedge1_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2) -> Com_1(eval_serpent_bb1_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.0, v_y.2)) :|: v_x.0 >= 0 12.14/10.85 eval_serpent_.critedge1_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2) -> Com_1(eval_serpent_bb7_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2)) :|: v_x.0 < 0 12.14/10.85 eval_serpent_bb1_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2) -> Com_1(eval_serpent_bb2_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2)) :|: v_y.1 >= 0 12.14/10.85 eval_serpent_bb1_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2) -> Com_1(eval_serpent_.critedge_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2)) :|: v_y.1 < 0 12.14/10.85 eval_serpent_bb2_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2) -> Com_1(eval_serpent_0(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2)) :|: TRUE 12.14/10.85 eval_serpent_0(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2) -> Com_2(eval_nondet_start(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2), eval_serpent_1(nondef.0, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2)) :|: TRUE 12.14/10.85 eval_serpent_1(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2) -> Com_1(eval_serpent_bb3_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2)) :|: v_3 > 0 12.14/10.85 eval_serpent_1(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2) -> Com_1(eval_serpent_.critedge_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2)) :|: v_3 <= 0 12.14/10.85 eval_serpent_bb3_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2) -> Com_1(eval_serpent_bb1_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1 - 1, v_y.2)) :|: TRUE 12.14/10.85 eval_serpent_.critedge_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2) -> Com_1(eval_serpent_bb4_in(v_3, v_x.0 - 1, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.1)) :|: TRUE 12.14/10.85 eval_serpent_bb4_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2) -> Com_1(eval_serpent_bb5_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2)) :|: v_y.2 <= v_n 12.14/10.85 eval_serpent_bb4_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2) -> Com_1(eval_serpent_.critedge1_in(v_3, v_6, v_8, v_n, v_6, v_y.2, v_y.1, v_y.2)) :|: v_y.2 > v_n 12.14/10.85 eval_serpent_bb5_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2) -> Com_1(eval_serpent_6(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2)) :|: TRUE 12.14/10.85 eval_serpent_6(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2) -> Com_2(eval_nondet_start(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2), eval_serpent_7(v_3, v_6, nondef.1, v_n, v_x.0, v_y.0, v_y.1, v_y.2)) :|: TRUE 12.14/10.85 eval_serpent_7(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2) -> Com_1(eval_serpent_bb6_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2)) :|: v_8 > 0 12.14/10.85 eval_serpent_7(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2) -> Com_1(eval_serpent_.critedge1_in(v_3, v_6, v_8, v_n, v_6, v_y.2, v_y.1, v_y.2)) :|: v_8 <= 0 12.14/10.85 eval_serpent_bb6_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2) -> Com_1(eval_serpent_bb4_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2 + 1)) :|: TRUE 12.14/10.85 eval_serpent_bb7_in(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2) -> Com_1(eval_serpent_stop(v_3, v_6, v_8, v_n, v_x.0, v_y.0, v_y.1, v_y.2)) :|: TRUE 12.14/10.85 12.14/10.85 The start-symbols are:[eval_serpent_start_8] 12.14/10.85 12.19/10.87 EOF
popout
output may be truncated. 'popout' for the full output.
job log
popout
actions
all output
return to Complexity_C_Integer 2019-03-21 04.38