About the Execution of LoLa+red for NeoElection-PT-4
| Execution Summary | |||||
| Max Memory Used (MB) |
Time wait (ms) | CPU Usage (ms) | I/O Wait (ms) | Computed Result | Execution Status |
| 330.292 | 13097.00 | 24997.00 | 585.00 | FFTFTTFTFTFFFTTF | normal |
Execution Chart
We display below the execution chart for this examination (boot time has been removed).
Trace from the execution
Formatting '/data/fkordon/mcc2023-input.r263-smll-167863537900188.qcow2', fmt=qcow2 size=4294967296 backing_file=/data/fkordon/mcc2023-input.qcow2 cluster_size=65536 lazy_refcounts=off refcount_bits=16
Waiting for the VM to be ready (probing ssh)
....................................................
=====================================================================
Generated by BenchKit 2-5348
Executing tool lolaxred
Input is NeoElection-PT-4, examination is LTLFireability
Time confinement is 3600 seconds
Memory confinement is 16384 MBytes
Number of cores is 4
Run identifier is r263-smll-167863537900188
=====================================================================
--------------------
preparation of the directory to be used:
/home/mcc/execution
total 7.2M
-rw-r--r-- 1 mcc users 190K Feb 26 16:06 CTLCardinality.txt
-rw-r--r-- 1 mcc users 581K Feb 26 16:06 CTLCardinality.xml
-rw-r--r-- 1 mcc users 193K Feb 26 15:58 CTLFireability.txt
-rw-r--r-- 1 mcc users 662K Feb 26 15:58 CTLFireability.xml
-rw-r--r-- 1 mcc users 4.2K Jan 29 11:40 GenericPropertiesDefinition.xml
-rw-r--r-- 1 mcc users 6.6K Jan 29 11:40 GenericPropertiesVerdict.xml
-rw-r--r-- 1 mcc users 156K Feb 25 16:27 LTLCardinality.txt
-rw-r--r-- 1 mcc users 351K Feb 25 16:27 LTLCardinality.xml
-rw-r--r-- 1 mcc users 36K Feb 25 16:27 LTLFireability.txt
-rw-r--r-- 1 mcc users 104K Feb 25 16:27 LTLFireability.xml
-rw-r--r-- 1 mcc users 75K Feb 26 16:33 ReachabilityCardinality.txt
-rw-r--r-- 1 mcc users 282K Feb 26 16:33 ReachabilityCardinality.xml
-rw-r--r-- 1 mcc users 547K Feb 26 16:26 ReachabilityFireability.txt
-rw-r--r-- 1 mcc users 2.0M Feb 26 16:26 ReachabilityFireability.xml
-rw-r--r-- 1 mcc users 5.0K Feb 25 16:27 UpperBounds.txt
-rw-r--r-- 1 mcc users 11K Feb 25 16:27 UpperBounds.xml
-rw-r--r-- 1 mcc users 5 Mar 5 18:23 equiv_col
-rw-r--r-- 1 mcc users 2 Mar 5 18:23 instance
-rw-r--r-- 1 mcc users 6 Mar 5 18:23 iscolored
-rw-r--r-- 1 mcc users 2.1M Mar 5 18:23 model.pnml
--------------------
content from stdout:
=== Data for post analysis generated by BenchKit (invocation template)
The expected result is a vector of booleans
BOOL_VECTOR
here is the order used to build the result vector(from text file)
FORMULA_NAME NeoElection-PT-4-LTLFireability-00
FORMULA_NAME NeoElection-PT-4-LTLFireability-01
FORMULA_NAME NeoElection-PT-4-LTLFireability-02
FORMULA_NAME NeoElection-PT-4-LTLFireability-03
FORMULA_NAME NeoElection-PT-4-LTLFireability-04
FORMULA_NAME NeoElection-PT-4-LTLFireability-05
FORMULA_NAME NeoElection-PT-4-LTLFireability-06
FORMULA_NAME NeoElection-PT-4-LTLFireability-07
FORMULA_NAME NeoElection-PT-4-LTLFireability-08
FORMULA_NAME NeoElection-PT-4-LTLFireability-09
FORMULA_NAME NeoElection-PT-4-LTLFireability-10
FORMULA_NAME NeoElection-PT-4-LTLFireability-11
FORMULA_NAME NeoElection-PT-4-LTLFireability-12
FORMULA_NAME NeoElection-PT-4-LTLFireability-13
FORMULA_NAME NeoElection-PT-4-LTLFireability-14
FORMULA_NAME NeoElection-PT-4-LTLFireability-15
=== Now, execution of the tool begins
BK_START 1678738371925
bash -c /home/mcc/BenchKit/BenchKit_head.sh 2> STDERR ; echo ; echo -n "BK_STOP " ; date -u +%s%3N
Invoking MCC driver with
BK_TOOL=lolaxred
BK_EXAMINATION=LTLFireability
BK_BIN_PATH=/home/mcc/BenchKit/bin/
BK_TIME_CONFINEMENT=3600
BK_INPUT=NeoElection-PT-4
Applying reductions before tool lola
Invoking reducer
Running Version 202303021504
[2023-03-13 20:12:55] [INFO ] Running its-tools with arguments : [-pnfolder, /home/mcc/execution, -examination, LTLFireability, -timeout, 360, -rebuildPNML]
[2023-03-13 20:12:55] [INFO ] Parsing pnml file : /home/mcc/execution/model.pnml
[2023-03-13 20:12:56] [INFO ] Load time of PNML (sax parser for PT used): 468 ms
[2023-03-13 20:12:56] [INFO ] Transformed 1830 places.
[2023-03-13 20:12:56] [INFO ] Transformed 2340 transitions.
[2023-03-13 20:12:56] [INFO ] Found NUPN structural information;
[2023-03-13 20:12:56] [INFO ] Completing missing partition info from NUPN : creating a component with [P_crashed_0, P_crashed_1, P_crashed_2, P_crashed_3, P_crashed_4, P_dead_0, P_dead_1, P_dead_2, P_dead_3, P_dead_4, P_electedPrimary_0, P_electedPrimary_1, P_electedPrimary_2, P_electedPrimary_3, P_electedPrimary_4, P_electedSecondary_0, P_electedSecondary_1, P_electedSecondary_2, P_electedSecondary_3, P_electedSecondary_4, P_electionFailed_0, P_electionFailed_1, P_electionFailed_2, P_electionFailed_3, P_electionFailed_4, P_electionInit_0, P_electionInit_1, P_electionInit_2, P_electionInit_3, P_electionInit_4, P_masterList_0_1_0, P_masterList_0_1_1, P_masterList_0_1_2, P_masterList_0_1_3, P_masterList_0_1_4, P_masterList_0_2_0, P_masterList_0_2_1, P_masterList_0_2_2, P_masterList_0_2_3, P_masterList_0_2_4, P_masterList_0_3_0, P_masterList_0_3_1, P_masterList_0_3_2, P_masterList_0_3_3, P_masterList_0_3_4, P_masterList_0_4_0, P_masterList_0_4_1, P_masterList_0_4_2, P_masterList_0_4_3, P_masterList_0_4_4, P_masterList_1_1_0, P_masterList_1_1_1, P_masterList_1_1_2, P_masterList_1_1_3, P_masterList_1_1_4, P_masterList_1_2_0, P_masterList_1_2_1, P_masterList_1_2_2, P_masterList_1_2_3, P_masterList_1_2_4, P_masterList_1_3_0, P_masterList_1_3_1, P_masterList_1_3_2, P_masterList_1_3_3, P_masterList_1_3_4, P_masterList_1_4_0, P_masterList_1_4_1, P_masterList_1_4_2, P_masterList_1_4_3, P_masterList_1_4_4, P_masterList_2_1_0, P_masterList_2_1_1, P_masterList_2_1_2, P_masterList_2_1_3, P_masterList_2_1_4, P_masterList_2_2_0, P_masterList_2_2_1, P_masterList_2_2_2, P_masterList_2_2_3, P_masterList_2_2_4, P_masterList_2_3_0, P_masterList_2_3_1, P_masterList_2_3_2, P_masterList_2_3_3, P_masterList_2_3_4, P_masterList_2_4_0, P_masterList_2_4_1, P_masterList_2_4_2, P_masterList_2_4_3, P_masterList_2_4_4, P_masterList_3_1_0, P_masterList_3_1_1, P_masterList_3_1_2, P_masterList_3_1_3, P_masterList_3_1_4, P_masterList_3_2_0, P_masterList_3_2_1, P_masterList_3_2_2, P_masterList_3_2_3, P_masterList_3_2_4, P_masterList_3_3_0, P_masterList_3_3_1, P_masterList_3_3_2, P_masterList_3_3_3, P_masterList_3_3_4, P_masterList_3_4_0, P_masterList_3_4_1, P_masterList_3_4_2, P_masterList_3_4_3, P_masterList_3_4_4, P_masterList_4_1_0, P_masterList_4_1_1, P_masterList_4_1_2, P_masterList_4_1_3, P_masterList_4_1_4, P_masterList_4_2_0, P_masterList_4_2_1, P_masterList_4_2_2, P_masterList_4_2_3, P_masterList_4_2_4, P_masterList_4_3_0, P_masterList_4_3_1, P_masterList_4_3_2, P_masterList_4_3_3, P_masterList_4_3_4, P_masterList_4_4_0, P_masterList_4_4_1, P_masterList_4_4_2, P_masterList_4_4_3, P_masterList_4_4_4, P_masterState_0_F_0, P_masterState_0_F_1, P_masterState_0_F_2, P_masterState_0_F_3, P_masterState_0_F_4, P_masterState_0_T_0, P_masterState_0_T_1, P_masterState_0_T_2, P_masterState_0_T_3, P_masterState_0_T_4, P_masterState_1_F_0, P_masterState_1_F_1, P_masterState_1_F_2, P_masterState_1_F_3, P_masterState_1_F_4, P_masterState_1_T_0, P_masterState_1_T_1, P_masterState_1_T_2, P_masterState_1_T_3, P_masterState_1_T_4, P_masterState_2_F_0, P_masterState_2_F_1, P_masterState_2_F_2, P_masterState_2_F_3, P_masterState_2_F_4, P_masterState_2_T_0, P_masterState_2_T_1, P_masterState_2_T_2, P_masterState_2_T_3, P_masterState_2_T_4, P_masterState_3_F_0, P_masterState_3_F_1, P_masterState_3_F_2, P_masterState_3_F_3, P_masterState_3_F_4, P_masterState_3_T_0, P_masterState_3_T_1, P_masterState_3_T_2, P_masterState_3_T_3, P_masterState_3_T_4, P_masterState_4_F_0, P_masterState_4_F_1, P_masterState_4_F_2, P_masterState_4_F_3, P_masterState_4_F_4, P_masterState_4_T_0, P_masterState_4_T_1, P_masterState_4_T_2, P_masterState_4_T_3, P_masterState_4_T_4, P_negotiation_0_0_NONE, P_negotiation_0_0_CO, P_negotiation_0_0_DONE, P_negotiation_0_1_NONE, P_negotiation_0_1_CO, P_negotiation_0_1_DONE, P_negotiation_0_2_NONE, P_negotiation_0_2_CO, P_negotiation_0_2_DONE, P_negotiation_0_3_NONE, P_negotiation_0_3_CO, P_negotiation_0_3_DONE, P_negotiation_0_4_NONE, P_negotiation_0_4_CO, P_negotiation_0_4_DONE, P_negotiation_1_0_NONE, P_negotiation_1_0_CO, P_negotiation_1_0_DONE, P_negotiation_1_1_NONE, P_negotiation_1_1_CO, P_negotiation_1_1_DONE, P_negotiation_1_2_NONE, P_negotiation_1_2_CO, P_negotiation_1_2_DONE, P_negotiation_1_3_NONE, P_negotiation_1_3_CO, P_negotiation_1_3_DONE, P_negotiation_1_4_NONE, P_negotiation_1_4_CO, P_negotiation_1_4_DONE, P_negotiation_2_0_NONE, P_negotiation_2_0_CO, P_negotiation_2_0_DONE, P_negotiation_2_1_NONE, P_negotiation_2_1_CO, P_negotiation_2_1_DONE, P_negotiation_2_2_NONE, P_negotiation_2_2_CO, P_negotiation_2_2_DONE, P_negotiation_2_3_NONE, P_negotiation_2_3_CO, P_negotiation_2_3_DONE, P_negotiation_2_4_NONE, P_negotiation_2_4_CO, P_negotiation_2_4_DONE, P_negotiation_3_0_NONE, P_negotiation_3_0_CO, P_negotiation_3_0_DONE, P_negotiation_3_1_NONE, P_negotiation_3_1_CO, P_negotiation_3_1_DONE, P_negotiation_3_2_NONE, P_negotiation_3_2_CO, P_negotiation_3_2_DONE, P_negotiation_3_3_NONE, P_negotiation_3_3_CO, P_negotiation_3_3_DONE, P_negotiation_3_4_NONE, P_negotiation_3_4_CO, P_negotiation_3_4_DONE, P_negotiation_4_0_NONE, P_negotiation_4_0_CO, P_negotiation_4_0_DONE, P_negotiation_4_1_NONE, P_negotiation_4_1_CO, P_negotiation_4_1_DONE, P_negotiation_4_2_NONE, P_negotiation_4_2_CO, P_negotiation_4_2_DONE, P_negotiation_4_3_NONE, P_negotiation_4_3_CO, P_negotiation_4_3_DONE, P_negotiation_4_4_NONE, P_negotiation_4_4_CO, P_negotiation_4_4_DONE, P_network_0_0_AskP_0, P_network_0_0_AskP_1, P_network_0_0_AskP_2, P_network_0_0_AskP_3, P_network_0_0_AskP_4, P_network_0_0_AnsP_0, P_network_0_0_AnsP_1, P_network_0_0_AnsP_2, P_network_0_0_AnsP_3, P_network_0_0_AnsP_4, P_network_0_0_RI_0, P_network_0_0_RI_1, P_network_0_0_RI_2, P_network_0_0_RI_3, P_network_0_0_RI_4, P_network_0_0_AI_0, P_network_0_0_AI_1, P_network_0_0_AI_2, P_network_0_0_AI_3, P_network_0_0_AI_4, P_network_0_0_AnnP_0, P_network_0_0_AnnP_1, P_network_0_0_AnnP_2, P_network_0_0_AnnP_3, P_network_0_0_AnnP_4, P_network_0_0_RP_0, P_network_0_0_RP_1, P_network_0_0_RP_2, P_network_0_0_RP_3, P_network_0_0_RP_4, P_network_0_1_AskP_0, P_network_0_1_AskP_1, P_network_0_1_AskP_2, P_network_0_1_AskP_3, P_network_0_1_AskP_4, P_network_0_1_AnsP_0, P_network_0_1_AnsP_1, P_network_0_1_AnsP_2, P_network_0_1_AnsP_3, P_network_0_1_AnsP_4, P_network_0_1_RI_0, P_network_0_1_RI_1, P_network_0_1_RI_2, P_network_0_1_RI_3, P_network_0_1_RI_4, P_network_0_1_AI_0, P_network_0_1_AI_1, P_network_0_1_AI_2, P_network_0_1_AI_3, P_network_0_1_AI_4, P_network_0_1_AnnP_0, P_network_0_1_AnnP_1, P_network_0_1_AnnP_2, P_network_0_1_AnnP_3, P_network_0_1_AnnP_4, P_network_0_1_RP_0, P_network_0_1_RP_1, P_network_0_1_RP_2, P_network_0_1_RP_3, P_network_0_1_RP_4, P_network_0_2_AskP_0, P_network_0_2_AskP_1, P_network_0_2_AskP_2, P_network_0_2_AskP_3, P_network_0_2_AskP_4, P_network_0_2_AnsP_0, P_network_0_2_AnsP_1, P_network_0_2_AnsP_2, P_network_0_2_AnsP_3, P_network_0_2_AnsP_4, P_network_0_2_RI_0, P_network_0_2_RI_1, P_network_0_2_RI_2, P_network_0_2_RI_3, P_network_0_2_RI_4, P_network_0_2_AI_0, P_network_0_2_AI_1, P_network_0_2_AI_2, P_network_0_2_AI_3, P_network_0_2_AI_4, P_network_0_2_AnnP_0, P_network_0_2_AnnP_1, P_network_0_2_AnnP_2, P_network_0_2_AnnP_3, P_network_0_2_AnnP_4, P_network_0_2_RP_0, P_network_0_2_RP_1, P_network_0_2_RP_2, P_network_0_2_RP_3, P_network_0_2_RP_4, P_network_0_3_AskP_0, P_network_0_3_AskP_1, P_network_0_3_AskP_2, P_network_0_3_AskP_3, P_network_0_3_AskP_4, P_network_0_3_AnsP_0, P_network_0_3_AnsP_1, P_network_0_3_AnsP_2, P_network_0_3_AnsP_3, P_network_0_3_AnsP_4, P_network_0_3_RI_0, P_network_0_3_RI_1, P_network_0_3_RI_2, P_network_0_3_RI_3, P_network_0_3_RI_4, P_network_0_3_AI_0, P_network_0_3_AI_1, P_network_0_3_AI_2, P_network_0_3_AI_3, P_network_0_3_AI_4, P_network_0_3_AnnP_0, P_network_0_3_AnnP_1, P_network_0_3_AnnP_2, P_network_0_3_AnnP_3, P_network_0_3_AnnP_4, P_network_0_3_RP_0, P_network_0_3_RP_1, P_network_0_3_RP_2, P_network_0_3_RP_3, P_network_0_3_RP_4, P_network_0_4_AskP_0, P_network_0_4_AskP_1, P_network_0_4_AskP_2, P_network_0_4_AskP_3, P_network_0_4_AskP_4, P_network_0_4_AnsP_0, P_network_0_4_AnsP_1, P_network_0_4_AnsP_2, P_network_0_4_AnsP_3, P_network_0_4_AnsP_4, P_network_0_4_RI_0, P_network_0_4_RI_1, P_network_0_4_RI_2, P_network_0_4_RI_3, P_network_0_4_RI_4, P_network_0_4_AI_0, P_network_0_4_AI_1, P_network_0_4_AI_2, P_network_0_4_AI_3, P_network_0_4_AI_4, P_network_0_4_AnnP_0, P_network_0_4_AnnP_1, P_network_0_4_AnnP_2, P_network_0_4_AnnP_3, P_network_0_4_AnnP_4, P_network_0_4_RP_0, P_network_0_4_RP_1, P_network_0_4_RP_2, P_network_0_4_RP_3, P_network_0_4_RP_4, P_network_1_0_AskP_0, P_network_1_0_AskP_1, P_network_1_0_AskP_2, P_network_1_0_AskP_3, P_network_1_0_AskP_4, P_network_1_0_AnsP_0, P_network_1_0_AnsP_1, P_network_1_0_AnsP_2, P_network_1_0_AnsP_3, P_network_1_0_AnsP_4, P_network_1_0_RI_0, P_network_1_0_RI_1, P_network_1_0_RI_2, P_network_1_0_RI_3, P_network_1_0_RI_4, P_network_1_0_AI_0, P_network_1_0_AI_1, P_network_1_0_AI_2, P_network_1_0_AI_3, P_network_1_0_AI_4, P_network_1_0_AnnP_0, P_network_1_0_AnnP_1, P_network_1_0_AnnP_2, P_network_1_0_AnnP_3, P_network_1_0_AnnP_4, P_network_1_0_RP_0, P_network_1_0_RP_1, P_network_1_0_RP_2, P_network_1_0_RP_3, P_network_1_0_RP_4, P_network_1_1_AskP_0, P_network_1_1_AskP_1, P_network_1_1_AskP_2, P_network_1_1_AskP_3, P_network_1_1_AskP_4, P_network_1_1_AnsP_0, P_network_1_1_AnsP_1, P_network_1_1_AnsP_2, P_network_1_1_AnsP_3, P_network_1_1_AnsP_4, P_network_1_1_RI_0, P_network_1_1_RI_1, P_network_1_1_RI_2, P_network_1_1_RI_3, P_network_1_1_RI_4, P_network_1_1_AI_0, P_network_1_1_AI_1, P_network_1_1_AI_2, P_network_1_1_AI_3, P_network_1_1_AI_4, P_network_1_1_AnnP_0, P_network_1_1_AnnP_1, P_network_1_1_AnnP_2, P_network_1_1_AnnP_3, P_network_1_1_AnnP_4, P_network_1_1_RP_0, P_network_1_1_RP_1, P_network_1_1_RP_2, P_network_1_1_RP_3, P_network_1_1_RP_4, P_network_1_2_AskP_0, P_network_1_2_AskP_1, P_network_1_2_AskP_2, P_network_1_2_AskP_3, P_network_1_2_AskP_4, P_network_1_2_AnsP_0, P_network_1_2_AnsP_1, P_network_1_2_AnsP_2, P_network_1_2_AnsP_3, P_network_1_2_AnsP_4, P_network_1_2_RI_0, P_network_1_2_RI_1, P_network_1_2_RI_2, P_network_1_2_RI_3, P_network_1_2_RI_4, P_network_1_2_AI_0, P_network_1_2_AI_1, P_network_1_2_AI_2, P_network_1_2_AI_3, P_network_1_2_AI_4, P_network_1_2_AnnP_0, P_network_1_2_AnnP_1, P_network_1_2_AnnP_2, P_network_1_2_AnnP_3, P_network_1_2_AnnP_4, P_network_1_2_RP_0, P_network_1_2_RP_1, P_network_1_2_RP_2, P_network_1_2_RP_3, P_network_1_2_RP_4, P_network_1_3_AskP_0, P_network_1_3_AskP_1, P_network_1_3_AskP_2, P_network_1_3_AskP_3, P_network_1_3_AskP_4, P_network_1_3_AnsP_0, P_network_1_3_AnsP_1, P_network_1_3_AnsP_2, P_network_1_3_AnsP_3, P_network_1_3_AnsP_4, P_network_1_3_RI_0, P_network_1_3_RI_1, P_network_1_3_RI_2, P_network_1_3_RI_3, P_network_1_3_RI_4, P_network_1_3_AI_0, P_network_1_3_AI_1, P_network_1_3_AI_2, P_network_1_3_AI_3, P_network_1_3_AI_4, P_network_1_3_AnnP_0, P_network_1_3_AnnP_1, P_network_1_3_AnnP_2, P_network_1_3_AnnP_3, P_network_1_3_AnnP_4, P_network_1_3_RP_0, P_network_1_3_RP_1, P_network_1_3_RP_2, P_network_1_3_RP_3, P_network_1_3_RP_4, P_network_1_4_AskP_0, P_network_1_4_AskP_1, P_network_1_4_AskP_2, P_network_1_4_AskP_3, P_network_1_4_AskP_4, P_network_1_4_AnsP_0, P_network_1_4_AnsP_1, P_network_1_4_AnsP_2, P_network_1_4_AnsP_3, P_network_1_4_AnsP_4, P_network_1_4_RI_0, P_network_1_4_RI_1, P_network_1_4_RI_2, P_network_1_4_RI_3, P_network_1_4_RI_4, P_network_1_4_AI_0, P_network_1_4_AI_1, P_network_1_4_AI_2, P_network_1_4_AI_3, P_network_1_4_AI_4, P_network_1_4_AnnP_0, P_network_1_4_AnnP_1, P_network_1_4_AnnP_2, P_network_1_4_AnnP_3, P_network_1_4_AnnP_4, P_network_1_4_RP_0, P_network_1_4_RP_1, P_network_1_4_RP_2, P_network_1_4_RP_3, P_network_1_4_RP_4, P_network_2_0_AskP_0, P_network_2_0_AskP_1, P_network_2_0_AskP_2, P_network_2_0_AskP_3, P_network_2_0_AskP_4, P_network_2_0_AnsP_0, P_network_2_0_AnsP_1, P_network_2_0_AnsP_2, P_network_2_0_AnsP_3, P_network_2_0_AnsP_4, P_network_2_0_RI_0, P_network_2_0_RI_1, P_network_2_0_RI_2, P_network_2_0_RI_3, P_network_2_0_RI_4, P_network_2_0_AI_0, P_network_2_0_AI_1, P_network_2_0_AI_2, P_network_2_0_AI_3, P_network_2_0_AI_4, P_network_2_0_AnnP_0, P_network_2_0_AnnP_1, P_network_2_0_AnnP_2, P_network_2_0_AnnP_3, P_network_2_0_AnnP_4, P_network_2_0_RP_0, P_network_2_0_RP_1, P_network_2_0_RP_2, P_network_2_0_RP_3, P_network_2_0_RP_4, P_network_2_1_AskP_0, P_network_2_1_AskP_1, P_network_2_1_AskP_2, P_network_2_1_AskP_3, P_network_2_1_AskP_4, P_network_2_1_AnsP_0, P_network_2_1_AnsP_1, P_network_2_1_AnsP_2, P_network_2_1_AnsP_3, P_network_2_1_AnsP_4, P_network_2_1_RI_0, P_network_2_1_RI_1, P_network_2_1_RI_2, P_network_2_1_RI_3, P_network_2_1_RI_4, P_network_2_1_AI_0, P_network_2_1_AI_1, P_network_2_1_AI_2, P_network_2_1_AI_3, P_network_2_1_AI_4, P_network_2_1_AnnP_0, P_network_2_1_AnnP_1, P_network_2_1_AnnP_2, P_network_2_1_AnnP_3, P_network_2_1_AnnP_4, P_network_2_1_RP_0, P_network_2_1_RP_1, P_network_2_1_RP_2, P_network_2_1_RP_3, P_network_2_1_RP_4, P_network_2_2_AskP_0, P_network_2_2_AskP_1, P_network_2_2_AskP_2, P_network_2_2_AskP_3, P_network_2_2_AskP_4, P_network_2_2_AnsP_0, P_network_2_2_AnsP_1, P_network_2_2_AnsP_2, P_network_2_2_AnsP_3, P_network_2_2_AnsP_4, P_network_2_2_RI_0, P_network_2_2_RI_1, P_network_2_2_RI_2, P_network_2_2_RI_3, P_network_2_2_RI_4, P_network_2_2_AI_0, P_network_2_2_AI_1, P_network_2_2_AI_2, P_network_2_2_AI_3, P_network_2_2_AI_4, P_network_2_2_AnnP_0, P_network_2_2_AnnP_1, P_network_2_2_AnnP_2, P_network_2_2_AnnP_3, P_network_2_2_AnnP_4, P_network_2_2_RP_0, P_network_2_2_RP_1, P_network_2_2_RP_2, P_network_2_2_RP_3, P_network_2_2_RP_4, P_network_2_3_AskP_0, P_network_2_3_AskP_1, P_network_2_3_AskP_2, P_network_2_3_AskP_3, P_network_2_3_AskP_4, P_network_2_3_AnsP_0, P_network_2_3_AnsP_1, P_network_2_3_AnsP_2, P_network_2_3_AnsP_3, P_network_2_3_AnsP_4, P_network_2_3_RI_0, P_network_2_3_RI_1, P_network_2_3_RI_2, P_network_2_3_RI_3, P_network_2_3_RI_4, P_network_2_3_AI_0, P_network_2_3_AI_1, P_network_2_3_AI_2, P_network_2_3_AI_3, P_network_2_3_AI_4, P_network_2_3_AnnP_0, P_network_2_3_AnnP_1, P_network_2_3_AnnP_2, P_network_2_3_AnnP_3, P_network_2_3_AnnP_4, P_network_2_3_RP_0, P_network_2_3_RP_1, P_network_2_3_RP_2, P_network_2_3_RP_3, P_network_2_3_RP_4, P_network_2_4_AskP_0, P_network_2_4_AskP_1, P_network_2_4_AskP_2, P_network_2_4_AskP_3, P_network_2_4_AskP_4, P_network_2_4_AnsP_0, P_network_2_4_AnsP_1, P_network_2_4_AnsP_2, P_network_2_4_AnsP_3, P_network_2_4_AnsP_4, P_network_2_4_RI_0, P_network_2_4_RI_1, P_network_2_4_RI_2, P_network_2_4_RI_3, P_network_2_4_RI_4, P_network_2_4_AI_0, P_network_2_4_AI_1, P_network_2_4_AI_2, P_network_2_4_AI_3, P_network_2_4_AI_4, P_network_2_4_AnnP_0, P_network_2_4_AnnP_1, P_network_2_4_AnnP_2, P_network_2_4_AnnP_3, P_network_2_4_AnnP_4, P_network_2_4_RP_0, P_network_2_4_RP_1, P_network_2_4_RP_2, P_network_2_4_RP_3, P_network_2_4_RP_4, P_network_3_0_AskP_0, P_network_3_0_AskP_1, P_network_3_0_AskP_2, P_network_3_0_AskP_3, P_network_3_0_AskP_4, P_network_3_0_AnsP_0, P_network_3_0_AnsP_1, P_network_3_0_AnsP_2, P_network_3_0_AnsP_3, P_network_3_0_AnsP_4, P_network_3_0_RI_0, P_network_3_0_RI_1, P_network_3_0_RI_2, P_network_3_0_RI_3, P_network_3_0_RI_4, P_network_3_0_AI_0, P_network_3_0_AI_1, P_network_3_0_AI_2, P_network_3_0_AI_3, P_network_3_0_AI_4, P_network_3_0_AnnP_0, P_network_3_0_AnnP_1, P_network_3_0_AnnP_2, P_network_3_0_AnnP_3, P_network_3_0_AnnP_4, P_network_3_0_RP_0, P_network_3_0_RP_1, P_network_3_0_RP_2, P_network_3_0_RP_3, P_network_3_0_RP_4, P_network_3_1_AskP_0, P_network_3_1_AskP_1, P_network_3_1_AskP_2, P_network_3_1_AskP_3, P_network_3_1_AskP_4, P_network_3_1_AnsP_0, P_network_3_1_AnsP_1, P_network_3_1_AnsP_2, P_network_3_1_AnsP_3, P_network_3_1_AnsP_4, P_network_3_1_RI_0, P_network_3_1_RI_1, P_network_3_1_RI_2, P_network_3_1_RI_3, P_network_3_1_RI_4, P_network_3_1_AI_0, P_network_3_1_AI_1, P_network_3_1_AI_2, P_network_3_1_AI_3, P_network_3_1_AI_4, P_network_3_1_AnnP_0, P_network_3_1_AnnP_1, P_network_3_1_AnnP_2, P_network_3_1_AnnP_3, P_network_3_1_AnnP_4, P_network_3_1_RP_0, P_network_3_1_RP_1, P_network_3_1_RP_2, P_network_3_1_RP_3, P_network_3_1_RP_4, P_network_3_2_AskP_0, P_network_3_2_AskP_1, P_network_3_2_AskP_2, P_network_3_2_AskP_3, P_network_3_2_AskP_4, P_network_3_2_AnsP_0, P_network_3_2_AnsP_1, P_network_3_2_AnsP_2, P_network_3_2_AnsP_3, P_network_3_2_AnsP_4, P_network_3_2_RI_0, P_network_3_2_RI_1, P_network_3_2_RI_2, P_network_3_2_RI_3, P_network_3_2_RI_4, P_network_3_2_AI_0, P_network_3_2_AI_1, P_network_3_2_AI_2, P_network_3_2_AI_3, P_network_3_2_AI_4, P_network_3_2_AnnP_0, P_network_3_2_AnnP_1, P_network_3_2_AnnP_2, P_network_3_2_AnnP_3, P_network_3_2_AnnP_4, P_network_3_2_RP_0, P_network_3_2_RP_1, P_network_3_2_RP_2, P_network_3_2_RP_3, P_network_3_2_RP_4, P_network_3_3_AskP_0, P_network_3_3_AskP_1, P_network_3_3_AskP_2, P_network_3_3_AskP_3, P_network_3_3_AskP_4, P_network_3_3_AnsP_0, P_network_3_3_AnsP_1, P_network_3_3_AnsP_2, P_network_3_3_AnsP_3, P_network_3_3_AnsP_4, P_network_3_3_RI_0, P_network_3_3_RI_1, P_network_3_3_RI_2, P_network_3_3_RI_3, P_network_3_3_RI_4, P_network_3_3_AI_0, P_network_3_3_AI_1, P_network_3_3_AI_2, P_network_3_3_AI_3, P_network_3_3_AI_4, P_network_3_3_AnnP_0, P_network_3_3_AnnP_1, P_network_3_3_AnnP_2, P_network_3_3_AnnP_3, P_network_3_3_AnnP_4, P_network_3_3_RP_0, P_network_3_3_RP_1, P_network_3_3_RP_2, P_network_3_3_RP_3, P_network_3_3_RP_4, P_network_3_4_AskP_0, P_network_3_4_AskP_1, P_network_3_4_AskP_2, P_network_3_4_AskP_3, P_network_3_4_AskP_4, P_network_3_4_AnsP_0, P_network_3_4_AnsP_1, P_network_3_4_AnsP_2, P_network_3_4_AnsP_3, P_network_3_4_AnsP_4, P_network_3_4_RI_0, P_network_3_4_RI_1, P_network_3_4_RI_2, P_network_3_4_RI_3, P_network_3_4_RI_4, P_network_3_4_AI_0, P_network_3_4_AI_1, P_network_3_4_AI_2, P_network_3_4_AI_3, P_network_3_4_AI_4, P_network_3_4_AnnP_0, P_network_3_4_AnnP_1, P_network_3_4_AnnP_2, P_network_3_4_AnnP_3, P_network_3_4_AnnP_4, P_network_3_4_RP_0, P_network_3_4_RP_1, P_network_3_4_RP_2, P_network_3_4_RP_3, P_network_3_4_RP_4, P_network_4_0_AskP_0, P_network_4_0_AskP_1, P_network_4_0_AskP_2, P_network_4_0_AskP_3, P_network_4_0_AskP_4, P_network_4_0_AnsP_0, P_network_4_0_AnsP_1, P_network_4_0_AnsP_2, P_network_4_0_AnsP_3, P_network_4_0_AnsP_4, P_network_4_0_RI_0, P_network_4_0_RI_1, P_network_4_0_RI_2, P_network_4_0_RI_3, P_network_4_0_RI_4, P_network_4_0_AI_0, P_network_4_0_AI_1, P_network_4_0_AI_2, P_network_4_0_AI_3, P_network_4_0_AI_4, P_network_4_0_AnnP_0, P_network_4_0_AnnP_1, P_network_4_0_AnnP_2, P_network_4_0_AnnP_3, P_network_4_0_AnnP_4, P_network_4_0_RP_0, P_network_4_0_RP_1, P_network_4_0_RP_2, P_network_4_0_RP_3, P_network_4_0_RP_4, P_network_4_1_AskP_0, P_network_4_1_AskP_1, P_network_4_1_AskP_2, P_network_4_1_AskP_3, P_network_4_1_AskP_4, P_network_4_1_AnsP_0, P_network_4_1_AnsP_1, P_network_4_1_AnsP_2, P_network_4_1_AnsP_3, P_network_4_1_AnsP_4, P_network_4_1_RI_0, P_network_4_1_RI_1, P_network_4_1_RI_2, P_network_4_1_RI_3, P_network_4_1_RI_4, P_network_4_1_AI_0, P_network_4_1_AI_1, P_network_4_1_AI_2, P_network_4_1_AI_3, P_network_4_1_AI_4, P_network_4_1_AnnP_0, P_network_4_1_AnnP_1, P_network_4_1_AnnP_2, P_network_4_1_AnnP_3, P_network_4_1_AnnP_4, P_network_4_1_RP_0, P_network_4_1_RP_1, P_network_4_1_RP_2, P_network_4_1_RP_3, P_network_4_1_RP_4, P_network_4_2_AskP_0, P_network_4_2_AskP_1, P_network_4_2_AskP_2, P_network_4_2_AskP_3, P_network_4_2_AskP_4, P_network_4_2_AnsP_0, P_network_4_2_AnsP_1, P_network_4_2_AnsP_2, P_network_4_2_AnsP_3, P_network_4_2_AnsP_4, P_network_4_2_RI_0, P_network_4_2_RI_1, P_network_4_2_RI_2, P_network_4_2_RI_3, P_network_4_2_RI_4, P_network_4_2_AI_0, P_network_4_2_AI_1, P_network_4_2_AI_2, P_network_4_2_AI_3, P_network_4_2_AI_4, P_network_4_2_AnnP_0, P_network_4_2_AnnP_1, P_network_4_2_AnnP_2, P_network_4_2_AnnP_3, P_network_4_2_AnnP_4, P_network_4_2_RP_0, P_network_4_2_RP_1, P_network_4_2_RP_2, P_network_4_2_RP_3, P_network_4_2_RP_4, P_network_4_3_AskP_0, P_network_4_3_AskP_1, P_network_4_3_AskP_2, P_network_4_3_AskP_3, P_network_4_3_AskP_4, P_network_4_3_AnsP_0, P_network_4_3_AnsP_1, P_network_4_3_AnsP_2, P_network_4_3_AnsP_3, P_network_4_3_AnsP_4, P_network_4_3_RI_0, P_network_4_3_RI_1, P_network_4_3_RI_2, P_network_4_3_RI_3, P_network_4_3_RI_4, P_network_4_3_AI_0, P_network_4_3_AI_1, P_network_4_3_AI_2, P_network_4_3_AI_3, P_network_4_3_AI_4, P_network_4_3_AnnP_0, P_network_4_3_AnnP_1, P_network_4_3_AnnP_2, P_network_4_3_AnnP_3, P_network_4_3_AnnP_4, P_network_4_3_RP_0, P_network_4_3_RP_1, P_network_4_3_RP_2, P_network_4_3_RP_3, P_network_4_3_RP_4, P_network_4_4_AskP_0, P_network_4_4_AskP_1, P_network_4_4_AskP_2, P_network_4_4_AskP_3, P_network_4_4_AskP_4, P_network_4_4_AnsP_0, P_network_4_4_AnsP_1, P_network_4_4_AnsP_2, P_network_4_4_AnsP_3, P_network_4_4_AnsP_4, P_network_4_4_RI_0, P_network_4_4_RI_1, P_network_4_4_RI_2, P_network_4_4_RI_3, P_network_4_4_RI_4, P_network_4_4_AI_0, P_network_4_4_AI_1, P_network_4_4_AI_2, P_network_4_4_AI_3, P_network_4_4_AI_4, P_network_4_4_AnnP_0, P_network_4_4_AnnP_1, P_network_4_4_AnnP_2, P_network_4_4_AnnP_3, P_network_4_4_AnnP_4, P_network_4_4_RP_0, P_network_4_4_RP_1, P_network_4_4_RP_2, P_network_4_4_RP_3, P_network_4_4_RP_4, P_poll__handlingMessage_0, P_poll__handlingMessage_1, P_poll__handlingMessage_2, P_poll__handlingMessage_3, P_poll__handlingMessage_4, P_poll__networl_0_0_AskP_0, P_poll__networl_0_0_AskP_1, P_poll__networl_0_0_AskP_2, P_poll__networl_0_0_AskP_3, P_poll__networl_0_0_AskP_4, P_poll__networl_0_0_AnsP_0, P_poll__networl_0_0_AnsP_1, P_poll__networl_0_0_AnsP_2, P_poll__networl_0_0_AnsP_3, P_poll__networl_0_0_AnsP_4, P_poll__networl_0_0_RI_0, P_poll__networl_0_0_RI_1, P_poll__networl_0_0_RI_2, P_poll__networl_0_0_RI_3, P_poll__networl_0_0_RI_4, P_poll__networl_0_0_AI_0, P_poll__networl_0_0_AI_1, P_poll__networl_0_0_AI_2, P_poll__networl_0_0_AI_3, P_poll__networl_0_0_AI_4, P_poll__networl_0_0_AnnP_0, P_poll__networl_0_0_AnnP_1, P_poll__networl_0_0_AnnP_2, P_poll__networl_0_0_AnnP_3, P_poll__networl_0_0_AnnP_4, P_poll__networl_0_0_RP_0, P_poll__networl_0_0_RP_1, P_poll__networl_0_0_RP_2, P_poll__networl_0_0_RP_3, P_poll__networl_0_0_RP_4, P_poll__networl_0_1_AskP_0, P_poll__networl_0_1_AskP_1, P_poll__networl_0_1_AskP_2, P_poll__networl_0_1_AskP_3, P_poll__networl_0_1_AskP_4, P_poll__networl_0_1_AnsP_0, P_poll__networl_0_1_AnsP_1, P_poll__networl_0_1_AnsP_2, P_poll__networl_0_1_AnsP_3, P_poll__networl_0_1_AnsP_4, P_poll__networl_0_1_RI_0, P_poll__networl_0_1_RI_1, P_poll__networl_0_1_RI_2, P_poll__networl_0_1_RI_3, P_poll__networl_0_1_RI_4, P_poll__networl_0_1_AI_0, P_poll__networl_0_1_AI_1, P_poll__networl_0_1_AI_2, P_poll__networl_0_1_AI_3, P_poll__networl_0_1_AI_4, P_poll__networl_0_1_AnnP_0, P_poll__networl_0_1_AnnP_1, P_poll__networl_0_1_AnnP_2, P_poll__networl_0_1_AnnP_3, P_poll__networl_0_1_AnnP_4, P_poll__networl_0_1_RP_0, P_poll__networl_0_1_RP_1, P_poll__networl_0_1_RP_2, P_poll__networl_0_1_RP_3, P_poll__networl_0_1_RP_4, P_poll__networl_0_2_AskP_0, P_poll__networl_0_2_AskP_1, P_poll__networl_0_2_AskP_2, P_poll__networl_0_2_AskP_3, P_poll__networl_0_2_AskP_4, P_poll__networl_0_2_AnsP_0, P_poll__networl_0_2_AnsP_1, P_poll__networl_0_2_AnsP_2, P_poll__networl_0_2_AnsP_3, P_poll__networl_0_2_AnsP_4, P_poll__networl_0_2_RI_0, P_poll__networl_0_2_RI_1, P_poll__networl_0_2_RI_2, P_poll__networl_0_2_RI_3, P_poll__networl_0_2_RI_4, P_poll__networl_0_2_AI_0, P_poll__networl_0_2_AI_1, P_poll__networl_0_2_AI_2, P_poll__networl_0_2_AI_3, P_poll__networl_0_2_AI_4, P_poll__networl_0_2_AnnP_0, P_poll__networl_0_2_AnnP_1, P_poll__networl_0_2_AnnP_2, P_poll__networl_0_2_AnnP_3, P_poll__networl_0_2_AnnP_4, P_poll__networl_0_2_RP_0, P_poll__networl_0_2_RP_1, P_poll__networl_0_2_RP_2, P_poll__networl_0_2_RP_3, P_poll__networl_0_2_RP_4, P_poll__networl_0_3_AskP_0, P_poll__networl_0_3_AskP_1, P_poll__networl_0_3_AskP_2, P_poll__networl_0_3_AskP_3, P_poll__networl_0_3_AskP_4, P_poll__networl_0_3_AnsP_0, P_poll__networl_0_3_AnsP_1, P_poll__networl_0_3_AnsP_2, P_poll__networl_0_3_AnsP_3, P_poll__networl_0_3_AnsP_4, P_poll__networl_0_3_RI_0, P_poll__networl_0_3_RI_1, P_poll__networl_0_3_RI_2, P_poll__networl_0_3_RI_3, P_poll__networl_0_3_RI_4, P_poll__networl_0_3_AI_0, P_poll__networl_0_3_AI_1, P_poll__networl_0_3_AI_2, P_poll__networl_0_3_AI_3, P_poll__networl_0_3_AI_4, P_poll__networl_0_3_AnnP_0, P_poll__networl_0_3_AnnP_1, P_poll__networl_0_3_AnnP_2, P_poll__networl_0_3_AnnP_3, P_poll__networl_0_3_AnnP_4, P_poll__networl_0_3_RP_0, P_poll__networl_0_3_RP_1, P_poll__networl_0_3_RP_2, P_poll__networl_0_3_RP_3, P_poll__networl_0_3_RP_4, P_poll__networl_0_4_AskP_0, P_poll__networl_0_4_AskP_1, P_poll__networl_0_4_AskP_2, P_poll__networl_0_4_AskP_3, P_poll__networl_0_4_AskP_4, P_poll__networl_0_4_AnsP_0, P_poll__networl_0_4_AnsP_1, P_poll__networl_0_4_AnsP_2, P_poll__networl_0_4_AnsP_3, P_poll__networl_0_4_AnsP_4, P_poll__networl_0_4_RI_0, P_poll__networl_0_4_RI_1, P_poll__networl_0_4_RI_2, P_poll__networl_0_4_RI_3, P_poll__networl_0_4_RI_4, P_poll__networl_0_4_AI_0, P_poll__networl_0_4_AI_1, P_poll__networl_0_4_AI_2, P_poll__networl_0_4_AI_3, P_poll__networl_0_4_AI_4, P_poll__networl_0_4_AnnP_0, P_poll__networl_0_4_AnnP_1, P_poll__networl_0_4_AnnP_2, P_poll__networl_0_4_AnnP_3, P_poll__networl_0_4_AnnP_4, P_poll__networl_0_4_RP_0, P_poll__networl_0_4_RP_1, P_poll__networl_0_4_RP_2, P_poll__networl_0_4_RP_3, P_poll__networl_0_4_RP_4, P_poll__networl_1_0_AskP_0, P_poll__networl_1_0_AskP_1, P_poll__networl_1_0_AskP_2, P_poll__networl_1_0_AskP_3, P_poll__networl_1_0_AskP_4, P_poll__networl_1_0_AnsP_0, P_poll__networl_1_0_AnsP_1, P_poll__networl_1_0_AnsP_2, P_poll__networl_1_0_AnsP_3, P_poll__networl_1_0_AnsP_4, P_poll__networl_1_0_RI_0, P_poll__networl_1_0_RI_1, P_poll__networl_1_0_RI_2, P_poll__networl_1_0_RI_3, P_poll__networl_1_0_RI_4, P_poll__networl_1_0_AI_0, P_poll__networl_1_0_AI_1, P_poll__networl_1_0_AI_2, P_poll__networl_1_0_AI_3, P_poll__networl_1_0_AI_4, P_poll__networl_1_0_AnnP_0, P_poll__networl_1_0_AnnP_1, P_poll__networl_1_0_AnnP_2, P_poll__networl_1_0_AnnP_3, P_poll__networl_1_0_AnnP_4, P_poll__networl_1_0_RP_0, P_poll__networl_1_0_RP_1, P_poll__networl_1_0_RP_2, P_poll__networl_1_0_RP_3, P_poll__networl_1_0_RP_4, P_poll__networl_1_1_AskP_0, P_poll__networl_1_1_AskP_1, P_poll__networl_1_1_AskP_2, P_poll__networl_1_1_AskP_3, P_poll__networl_1_1_AskP_4, P_poll__networl_1_1_AnsP_0, P_poll__networl_1_1_AnsP_1, P_poll__networl_1_1_AnsP_2, P_poll__networl_1_1_AnsP_3, P_poll__networl_1_1_AnsP_4, P_poll__networl_1_1_RI_0, P_poll__networl_1_1_RI_1, P_poll__networl_1_1_RI_2, P_poll__networl_1_1_RI_3, P_poll__networl_1_1_RI_4, P_poll__networl_1_1_AI_0, P_poll__networl_1_1_AI_1, P_poll__networl_1_1_AI_2, P_poll__networl_1_1_AI_3, P_poll__networl_1_1_AI_4, P_poll__networl_1_1_AnnP_0, P_poll__networl_1_1_AnnP_1, P_poll__networl_1_1_AnnP_2, P_poll__networl_1_1_AnnP_3, P_poll__networl_1_1_AnnP_4, P_poll__networl_1_1_RP_0, P_poll__networl_1_1_RP_1, P_poll__networl_1_1_RP_2, P_poll__networl_1_1_RP_3, P_poll__networl_1_1_RP_4, P_poll__networl_1_2_AskP_0, P_poll__networl_1_2_AskP_1, P_poll__networl_1_2_AskP_2, P_poll__networl_1_2_AskP_3, P_poll__networl_1_2_AskP_4, P_poll__networl_1_2_AnsP_0, P_poll__networl_1_2_AnsP_1, P_poll__networl_1_2_AnsP_2, P_poll__networl_1_2_AnsP_3, P_poll__networl_1_2_AnsP_4, P_poll__networl_1_2_RI_0, P_poll__networl_1_2_RI_1, P_poll__networl_1_2_RI_2, P_poll__networl_1_2_RI_3, P_poll__networl_1_2_RI_4, P_poll__networl_1_2_AI_0, P_poll__networl_1_2_AI_1, P_poll__networl_1_2_AI_2, P_poll__networl_1_2_AI_3, P_poll__networl_1_2_AI_4, P_poll__networl_1_2_AnnP_0, P_poll__networl_1_2_AnnP_1, P_poll__networl_1_2_AnnP_2, P_poll__networl_1_2_AnnP_3, P_poll__networl_1_2_AnnP_4, P_poll__networl_1_2_RP_0, P_poll__networl_1_2_RP_1, P_poll__networl_1_2_RP_2, P_poll__networl_1_2_RP_3, P_poll__networl_1_2_RP_4, P_poll__networl_1_3_AskP_0, P_poll__networl_1_3_AskP_1, P_poll__networl_1_3_AskP_2, P_poll__networl_1_3_AskP_3, P_poll__networl_1_3_AskP_4, P_poll__networl_1_3_AnsP_0, P_poll__networl_1_3_AnsP_1, P_poll__networl_1_3_AnsP_2, P_poll__networl_1_3_AnsP_3, P_poll__networl_1_3_AnsP_4, P_poll__networl_1_3_RI_0, P_poll__networl_1_3_RI_1, P_poll__networl_1_3_RI_2, P_poll__networl_1_3_RI_3, P_poll__networl_1_3_RI_4, P_poll__networl_1_3_AI_0, P_poll__networl_1_3_AI_1, P_poll__networl_1_3_AI_2, P_poll__networl_1_3_AI_3, P_poll__networl_1_3_AI_4, P_poll__networl_1_3_AnnP_0, P_poll__networl_1_3_AnnP_1, P_poll__networl_1_3_AnnP_2, P_poll__networl_1_3_AnnP_3, P_poll__networl_1_3_AnnP_4, P_poll__networl_1_3_RP_0, P_poll__networl_1_3_RP_1, P_poll__networl_1_3_RP_2, P_poll__networl_1_3_RP_3, P_poll__networl_1_3_RP_4, P_poll__networl_1_4_AskP_0, P_poll__networl_1_4_AskP_1, P_poll__networl_1_4_AskP_2, P_poll__networl_1_4_AskP_3, P_poll__networl_1_4_AskP_4, P_poll__networl_1_4_AnsP_0, P_poll__networl_1_4_AnsP_1, P_poll__networl_1_4_AnsP_2, P_poll__networl_1_4_AnsP_3, P_poll__networl_1_4_AnsP_4, P_poll__networl_1_4_RI_0, P_poll__networl_1_4_RI_1, P_poll__networl_1_4_RI_2, P_poll__networl_1_4_RI_3, P_poll__networl_1_4_RI_4, P_poll__networl_1_4_AI_0, P_poll__networl_1_4_AI_1, P_poll__networl_1_4_AI_2, P_poll__networl_1_4_AI_3, P_poll__networl_1_4_AI_4, P_poll__networl_1_4_AnnP_0, P_poll__networl_1_4_AnnP_1, P_poll__networl_1_4_AnnP_2, P_poll__networl_1_4_AnnP_3, P_poll__networl_1_4_AnnP_4, P_poll__networl_1_4_RP_0, P_poll__networl_1_4_RP_1, P_poll__networl_1_4_RP_2, P_poll__networl_1_4_RP_3, P_poll__networl_1_4_RP_4, P_poll__networl_2_0_AskP_0, P_poll__networl_2_0_AskP_1, P_poll__networl_2_0_AskP_2, P_poll__networl_2_0_AskP_3, P_poll__networl_2_0_AskP_4, P_poll__networl_2_0_AnsP_0, P_poll__networl_2_0_AnsP_1, P_poll__networl_2_0_AnsP_2, P_poll__networl_2_0_AnsP_3, P_poll__networl_2_0_AnsP_4, P_poll__networl_2_0_RI_0, P_poll__networl_2_0_RI_1, P_poll__networl_2_0_RI_2, P_poll__networl_2_0_RI_3, P_poll__networl_2_0_RI_4, P_poll__networl_2_0_AI_0, P_poll__networl_2_0_AI_1, P_poll__networl_2_0_AI_2, P_poll__networl_2_0_AI_3, P_poll__networl_2_0_AI_4, P_poll__networl_2_0_AnnP_0, P_poll__networl_2_0_AnnP_1, P_poll__networl_2_0_AnnP_2, P_poll__networl_2_0_AnnP_3, P_poll__networl_2_0_AnnP_4, P_poll__networl_2_0_RP_0, P_poll__networl_2_0_RP_1, P_poll__networl_2_0_RP_2, P_poll__networl_2_0_RP_3, P_poll__networl_2_0_RP_4, P_poll__networl_2_1_AskP_0, P_poll__networl_2_1_AskP_1, P_poll__networl_2_1_AskP_2, P_poll__networl_2_1_AskP_3, P_poll__networl_2_1_AskP_4, P_poll__networl_2_1_AnsP_0, P_poll__networl_2_1_AnsP_1, P_poll__networl_2_1_AnsP_2, P_poll__networl_2_1_AnsP_3, P_poll__networl_2_1_AnsP_4, P_poll__networl_2_1_RI_0, P_poll__networl_2_1_RI_1, P_poll__networl_2_1_RI_2, P_poll__networl_2_1_RI_3, P_poll__networl_2_1_RI_4, P_poll__networl_2_1_AI_0, P_poll__networl_2_1_AI_1, P_poll__networl_2_1_AI_2, P_poll__networl_2_1_AI_3, P_poll__networl_2_1_AI_4, P_poll__networl_2_1_AnnP_0, P_poll__networl_2_1_AnnP_1, P_poll__networl_2_1_AnnP_2, P_poll__networl_2_1_AnnP_3, P_poll__networl_2_1_AnnP_4, P_poll__networl_2_1_RP_0, P_poll__networl_2_1_RP_1, P_poll__networl_2_1_RP_2, P_poll__networl_2_1_RP_3, P_poll__networl_2_1_RP_4, P_poll__networl_2_2_AskP_0, P_poll__networl_2_2_AskP_1, P_poll__networl_2_2_AskP_2, P_poll__networl_2_2_AskP_3, P_poll__networl_2_2_AskP_4, P_poll__networl_2_2_AnsP_0, P_poll__networl_2_2_AnsP_1, P_poll__networl_2_2_AnsP_2, P_poll__networl_2_2_AnsP_3, P_poll__networl_2_2_AnsP_4, P_poll__networl_2_2_RI_0, P_poll__networl_2_2_RI_1, P_poll__networl_2_2_RI_2, P_poll__networl_2_2_RI_3, P_poll__networl_2_2_RI_4, P_poll__networl_2_2_AI_0, P_poll__networl_2_2_AI_1, P_poll__networl_2_2_AI_2, P_poll__networl_2_2_AI_3, P_poll__networl_2_2_AI_4, P_poll__networl_2_2_AnnP_0, P_poll__networl_2_2_AnnP_1, P_poll__networl_2_2_AnnP_2, P_poll__networl_2_2_AnnP_3, P_poll__networl_2_2_AnnP_4, P_poll__networl_2_2_RP_0, P_poll__networl_2_2_RP_1, P_poll__networl_2_2_RP_2, P_poll__networl_2_2_RP_3, P_poll__networl_2_2_RP_4, P_poll__networl_2_3_AskP_0, P_poll__networl_2_3_AskP_1, P_poll__networl_2_3_AskP_2, P_poll__networl_2_3_AskP_3, P_poll__networl_2_3_AskP_4, P_poll__networl_2_3_AnsP_0, P_poll__networl_2_3_AnsP_1, P_poll__networl_2_3_AnsP_2, P_poll__networl_2_3_AnsP_3, P_poll__networl_2_3_AnsP_4, P_poll__networl_2_3_RI_0, P_poll__networl_2_3_RI_1, P_poll__networl_2_3_RI_2, P_poll__networl_2_3_RI_3, P_poll__networl_2_3_RI_4, P_poll__networl_2_3_AI_0, P_poll__networl_2_3_AI_1, P_poll__networl_2_3_AI_2, P_poll__networl_2_3_AI_3, P_poll__networl_2_3_AI_4, P_poll__networl_2_3_AnnP_0, P_poll__networl_2_3_AnnP_1, P_poll__networl_2_3_AnnP_2, P_poll__networl_2_3_AnnP_3, P_poll__networl_2_3_AnnP_4, P_poll__networl_2_3_RP_0, P_poll__networl_2_3_RP_1, P_poll__networl_2_3_RP_2, P_poll__networl_2_3_RP_3, P_poll__networl_2_3_RP_4, P_poll__networl_2_4_AskP_0, P_poll__networl_2_4_AskP_1, P_poll__networl_2_4_AskP_2, P_poll__networl_2_4_AskP_3, P_poll__networl_2_4_AskP_4, P_poll__networl_2_4_AnsP_0, P_poll__networl_2_4_AnsP_1, P_poll__networl_2_4_AnsP_2, P_poll__networl_2_4_AnsP_3, P_poll__networl_2_4_AnsP_4, P_poll__networl_2_4_RI_0, P_poll__networl_2_4_RI_1, P_poll__networl_2_4_RI_2, P_poll__networl_2_4_RI_3, P_poll__networl_2_4_RI_4, P_poll__networl_2_4_AI_0, P_poll__networl_2_4_AI_1, P_poll__networl_2_4_AI_2, P_poll__networl_2_4_AI_3, P_poll__networl_2_4_AI_4, P_poll__networl_2_4_AnnP_0, P_poll__networl_2_4_AnnP_1, P_poll__networl_2_4_AnnP_2, P_poll__networl_2_4_AnnP_3, P_poll__networl_2_4_AnnP_4, P_poll__networl_2_4_RP_0, P_poll__networl_2_4_RP_1, P_poll__networl_2_4_RP_2, P_poll__networl_2_4_RP_3, P_poll__networl_2_4_RP_4, P_poll__networl_3_0_AskP_0, P_poll__networl_3_0_AskP_1, P_poll__networl_3_0_AskP_2, P_poll__networl_3_0_AskP_3, P_poll__networl_3_0_AskP_4, P_poll__networl_3_0_AnsP_0, P_poll__networl_3_0_AnsP_1, P_poll__networl_3_0_AnsP_2, P_poll__networl_3_0_AnsP_3, P_poll__networl_3_0_AnsP_4, P_poll__networl_3_0_RI_0, P_poll__networl_3_0_RI_1, P_poll__networl_3_0_RI_2, P_poll__networl_3_0_RI_3, P_poll__networl_3_0_RI_4, P_poll__networl_3_0_AI_0, P_poll__networl_3_0_AI_1, P_poll__networl_3_0_AI_2, P_poll__networl_3_0_AI_3, P_poll__networl_3_0_AI_4, P_poll__networl_3_0_AnnP_0, P_poll__networl_3_0_AnnP_1, P_poll__networl_3_0_AnnP_2, P_poll__networl_3_0_AnnP_3, P_poll__networl_3_0_AnnP_4, P_poll__networl_3_0_RP_0, P_poll__networl_3_0_RP_1, P_poll__networl_3_0_RP_2, P_poll__networl_3_0_RP_3, P_poll__networl_3_0_RP_4, P_poll__networl_3_1_AskP_0, P_poll__networl_3_1_AskP_1, P_poll__networl_3_1_AskP_2, P_poll__networl_3_1_AskP_3, P_poll__networl_3_1_AskP_4, P_poll__networl_3_1_AnsP_0, P_poll__networl_3_1_AnsP_1, P_poll__networl_3_1_AnsP_2, P_poll__networl_3_1_AnsP_3, P_poll__networl_3_1_AnsP_4, P_poll__networl_3_1_RI_0, P_poll__networl_3_1_RI_1, P_poll__networl_3_1_RI_2, P_poll__networl_3_1_RI_3, P_poll__networl_3_1_RI_4, P_poll__networl_3_1_AI_0, P_poll__networl_3_1_AI_1, P_poll__networl_3_1_AI_2, P_poll__networl_3_1_AI_3, P_poll__networl_3_1_AI_4, P_poll__networl_3_1_AnnP_0, P_poll__networl_3_1_AnnP_1, P_poll__networl_3_1_AnnP_2, P_poll__networl_3_1_AnnP_3, P_poll__networl_3_1_AnnP_4, P_poll__networl_3_1_RP_0, P_poll__networl_3_1_RP_1, P_poll__networl_3_1_RP_2, P_poll__networl_3_1_RP_3, P_poll__networl_3_1_RP_4, P_poll__networl_3_2_AskP_0, P_poll__networl_3_2_AskP_1, P_poll__networl_3_2_AskP_2, P_poll__networl_3_2_AskP_3, P_poll__networl_3_2_AskP_4, P_poll__networl_3_2_AnsP_0, P_poll__networl_3_2_AnsP_1, P_poll__networl_3_2_AnsP_2, P_poll__networl_3_2_AnsP_3, P_poll__networl_3_2_AnsP_4, P_poll__networl_3_2_RI_0, P_poll__networl_3_2_RI_1, P_poll__networl_3_2_RI_2, P_poll__networl_3_2_RI_3, P_poll__networl_3_2_RI_4, P_poll__networl_3_2_AI_0, P_poll__networl_3_2_AI_1, P_poll__networl_3_2_AI_2, P_poll__networl_3_2_AI_3, P_poll__networl_3_2_AI_4, P_poll__networl_3_2_AnnP_0, P_poll__networl_3_2_AnnP_1, P_poll__networl_3_2_AnnP_2, P_poll__networl_3_2_AnnP_3, P_poll__networl_3_2_AnnP_4, P_poll__networl_3_2_RP_0, P_poll__networl_3_2_RP_1, P_poll__networl_3_2_RP_2, P_poll__networl_3_2_RP_3, P_poll__networl_3_2_RP_4, P_poll__networl_3_3_AskP_0, P_poll__networl_3_3_AskP_1, P_poll__networl_3_3_AskP_2, P_poll__networl_3_3_AskP_3, P_poll__networl_3_3_AskP_4, P_poll__networl_3_3_AnsP_0, P_poll__networl_3_3_AnsP_1, P_poll__networl_3_3_AnsP_2, P_poll__networl_3_3_AnsP_3, P_poll__networl_3_3_AnsP_4, P_poll__networl_3_3_RI_0, P_poll__networl_3_3_RI_1, P_poll__networl_3_3_RI_2, P_poll__networl_3_3_RI_3, P_poll__networl_3_3_RI_4, P_poll__networl_3_3_AI_0, P_poll__networl_3_3_AI_1, P_poll__networl_3_3_AI_2, P_poll__networl_3_3_AI_3, P_poll__networl_3_3_AI_4, P_poll__networl_3_3_AnnP_0, P_poll__networl_3_3_AnnP_1, P_poll__networl_3_3_AnnP_2, P_poll__networl_3_3_AnnP_3, P_poll__networl_3_3_AnnP_4, P_poll__networl_3_3_RP_0, P_poll__networl_3_3_RP_1, P_poll__networl_3_3_RP_2, P_poll__networl_3_3_RP_3, P_poll__networl_3_3_RP_4, P_poll__networl_3_4_AskP_0, P_poll__networl_3_4_AskP_1, P_poll__networl_3_4_AskP_2, P_poll__networl_3_4_AskP_3, P_poll__networl_3_4_AskP_4, P_poll__networl_3_4_AnsP_0, P_poll__networl_3_4_AnsP_1, P_poll__networl_3_4_AnsP_2, P_poll__networl_3_4_AnsP_3, P_poll__networl_3_4_AnsP_4, P_poll__networl_3_4_RI_0, P_poll__networl_3_4_RI_1, P_poll__networl_3_4_RI_2, P_poll__networl_3_4_RI_3, P_poll__networl_3_4_RI_4, P_poll__networl_3_4_AI_0, P_poll__networl_3_4_AI_1, P_poll__networl_3_4_AI_2, P_poll__networl_3_4_AI_3, P_poll__networl_3_4_AI_4, P_poll__networl_3_4_AnnP_0, P_poll__networl_3_4_AnnP_1, P_poll__networl_3_4_AnnP_2, P_poll__networl_3_4_AnnP_3, P_poll__networl_3_4_AnnP_4, P_poll__networl_3_4_RP_0, P_poll__networl_3_4_RP_1, P_poll__networl_3_4_RP_2, P_poll__networl_3_4_RP_3, P_poll__networl_3_4_RP_4, P_poll__networl_4_0_AskP_0, P_poll__networl_4_0_AskP_1, P_poll__networl_4_0_AskP_2, P_poll__networl_4_0_AskP_3, P_poll__networl_4_0_AskP_4, P_poll__networl_4_0_AnsP_0, P_poll__networl_4_0_AnsP_1, P_poll__networl_4_0_AnsP_2, P_poll__networl_4_0_AnsP_3, P_poll__networl_4_0_AnsP_4, P_poll__networl_4_0_RI_0, P_poll__networl_4_0_RI_1, P_poll__networl_4_0_RI_2, P_poll__networl_4_0_RI_3, P_poll__networl_4_0_RI_4, P_poll__networl_4_0_AI_0, P_poll__networl_4_0_AI_1, P_poll__networl_4_0_AI_2, P_poll__networl_4_0_AI_3, P_poll__networl_4_0_AI_4, P_poll__networl_4_0_AnnP_0, P_poll__networl_4_0_AnnP_1, P_poll__networl_4_0_AnnP_2, P_poll__networl_4_0_AnnP_3, P_poll__networl_4_0_AnnP_4, P_poll__networl_4_0_RP_0, P_poll__networl_4_0_RP_1, P_poll__networl_4_0_RP_2, P_poll__networl_4_0_RP_3, P_poll__networl_4_0_RP_4, P_poll__networl_4_1_AskP_0, P_poll__networl_4_1_AskP_1, P_poll__networl_4_1_AskP_2, P_poll__networl_4_1_AskP_3, P_poll__networl_4_1_AskP_4, P_poll__networl_4_1_AnsP_0, P_poll__networl_4_1_AnsP_1, P_poll__networl_4_1_AnsP_2, P_poll__networl_4_1_AnsP_3, P_poll__networl_4_1_AnsP_4, P_poll__networl_4_1_RI_0, P_poll__networl_4_1_RI_1, P_poll__networl_4_1_RI_2, P_poll__networl_4_1_RI_3, P_poll__networl_4_1_RI_4, P_poll__networl_4_1_AI_0, P_poll__networl_4_1_AI_1, P_poll__networl_4_1_AI_2, P_poll__networl_4_1_AI_3, P_poll__networl_4_1_AI_4, P_poll__networl_4_1_AnnP_0, P_poll__networl_4_1_AnnP_1, P_poll__networl_4_1_AnnP_2, P_poll__networl_4_1_AnnP_3, P_poll__networl_4_1_AnnP_4, P_poll__networl_4_1_RP_0, P_poll__networl_4_1_RP_1, P_poll__networl_4_1_RP_2, P_poll__networl_4_1_RP_3, P_poll__networl_4_1_RP_4, P_poll__networl_4_2_AskP_0, P_poll__networl_4_2_AskP_1, P_poll__networl_4_2_AskP_2, P_poll__networl_4_2_AskP_3, P_poll__networl_4_2_AskP_4, P_poll__networl_4_2_AnsP_0, P_poll__networl_4_2_AnsP_1, P_poll__networl_4_2_AnsP_2, P_poll__networl_4_2_AnsP_3, P_poll__networl_4_2_AnsP_4, P_poll__networl_4_2_RI_0, P_poll__networl_4_2_RI_1, P_poll__networl_4_2_RI_2, P_poll__networl_4_2_RI_3, P_poll__networl_4_2_RI_4, P_poll__networl_4_2_AI_0, P_poll__networl_4_2_AI_1, P_poll__networl_4_2_AI_2, P_poll__networl_4_2_AI_3, P_poll__networl_4_2_AI_4, P_poll__networl_4_2_AnnP_0, P_poll__networl_4_2_AnnP_1, P_poll__networl_4_2_AnnP_2, P_poll__networl_4_2_AnnP_3, P_poll__networl_4_2_AnnP_4, P_poll__networl_4_2_RP_0, P_poll__networl_4_2_RP_1, P_poll__networl_4_2_RP_2, P_poll__networl_4_2_RP_3, P_poll__networl_4_2_RP_4, P_poll__networl_4_3_AskP_0, P_poll__networl_4_3_AskP_1, P_poll__networl_4_3_AskP_2, P_poll__networl_4_3_AskP_3, P_poll__networl_4_3_AskP_4, P_poll__networl_4_3_AnsP_0, P_poll__networl_4_3_AnsP_1, P_poll__networl_4_3_AnsP_2, P_poll__networl_4_3_AnsP_3, P_poll__networl_4_3_AnsP_4, P_poll__networl_4_3_RI_0, P_poll__networl_4_3_RI_1, P_poll__networl_4_3_RI_2, P_poll__networl_4_3_RI_3, P_poll__networl_4_3_RI_4, P_poll__networl_4_3_AI_0, P_poll__networl_4_3_AI_1, P_poll__networl_4_3_AI_2, P_poll__networl_4_3_AI_3, P_poll__networl_4_3_AI_4, P_poll__networl_4_3_AnnP_0, P_poll__networl_4_3_AnnP_1, P_poll__networl_4_3_AnnP_2, P_poll__networl_4_3_AnnP_3, P_poll__networl_4_3_AnnP_4, P_poll__networl_4_3_RP_0, P_poll__networl_4_3_RP_1, P_poll__networl_4_3_RP_2, P_poll__networl_4_3_RP_3, P_poll__networl_4_3_RP_4, P_poll__networl_4_4_AskP_0, P_poll__networl_4_4_AskP_1, P_poll__networl_4_4_AskP_2, P_poll__networl_4_4_AskP_3, P_poll__networl_4_4_AskP_4, P_poll__networl_4_4_AnsP_0, P_poll__networl_4_4_AnsP_1, P_poll__networl_4_4_AnsP_2, P_poll__networl_4_4_AnsP_3, P_poll__networl_4_4_AnsP_4, P_poll__networl_4_4_RI_0, P_poll__networl_4_4_RI_1, P_poll__networl_4_4_RI_2, P_poll__networl_4_4_RI_3, P_poll__networl_4_4_RI_4, P_poll__networl_4_4_AI_0, P_poll__networl_4_4_AI_1, P_poll__networl_4_4_AI_2, P_poll__networl_4_4_AI_3, P_poll__networl_4_4_AI_4, P_poll__networl_4_4_AnnP_0, P_poll__networl_4_4_AnnP_1, P_poll__networl_4_4_AnnP_2, P_poll__networl_4_4_AnnP_3, P_poll__networl_4_4_AnnP_4, P_poll__networl_4_4_RP_0, P_poll__networl_4_4_RP_1, P_poll__networl_4_4_RP_2, P_poll__networl_4_4_RP_3, P_poll__networl_4_4_RP_4, P_poll__pollEnd_0, P_poll__pollEnd_1, P_poll__pollEnd_2, P_poll__pollEnd_3, P_poll__pollEnd_4, P_poll__waitingMessage_0, P_poll__waitingMessage_1, P_poll__waitingMessage_2, P_poll__waitingMessage_3, P_poll__waitingMessage_4, P_polling_0, P_polling_1, P_polling_2, P_polling_3, P_polling_4, P_sendAnnPs__broadcasting_0_1, P_sendAnnPs__broadcasting_0_2, P_sendAnnPs__broadcasting_0_3, P_sendAnnPs__broadcasting_0_4, P_sendAnnPs__broadcasting_1_1, P_sendAnnPs__broadcasting_1_2, P_sendAnnPs__broadcasting_1_3, P_sendAnnPs__broadcasting_1_4, P_sendAnnPs__broadcasting_2_1, P_sendAnnPs__broadcasting_2_2, P_sendAnnPs__broadcasting_2_3, P_sendAnnPs__broadcasting_2_4, P_sendAnnPs__broadcasting_3_1, P_sendAnnPs__broadcasting_3_2, P_sendAnnPs__broadcasting_3_3, P_sendAnnPs__broadcasting_3_4, P_sendAnnPs__broadcasting_4_1, P_sendAnnPs__broadcasting_4_2, P_sendAnnPs__broadcasting_4_3, P_sendAnnPs__broadcasting_4_4, P_stage_0_NEG, P_stage_0_PRIM, P_stage_0_SEC, P_stage_1_NEG, P_stage_1_PRIM, P_stage_1_SEC, P_stage_2_NEG, P_stage_2_PRIM, P_stage_2_SEC, P_stage_3_NEG, P_stage_3_PRIM, P_stage_3_SEC, P_stage_4_NEG, P_stage_4_PRIM, P_stage_4_SEC, P_startNeg__broadcasting_0_1, P_startNeg__broadcasting_0_2, P_startNeg__broadcasting_0_3, P_startNeg__broadcasting_0_4, P_startNeg__broadcasting_1_1, P_startNeg__broadcasting_1_2, P_startNeg__broadcasting_1_3, P_startNeg__broadcasting_1_4, P_startNeg__broadcasting_2_1, P_startNeg__broadcasting_2_2, P_startNeg__broadcasting_2_3, P_startNeg__broadcasting_2_4, P_startNeg__broadcasting_3_1, P_startNeg__broadcasting_3_2, P_startNeg__broadcasting_3_3, P_startNeg__broadcasting_3_4, P_startNeg__broadcasting_4_1, P_startNeg__broadcasting_4_2, P_startNeg__broadcasting_4_3, P_startNeg__broadcasting_4_4]
[2023-03-13 20:12:56] [INFO ] Parsed PT model containing 1830 places and 2340 transitions and 13565 arcs in 713 ms.
Parsed 16 properties from file /home/mcc/execution/LTLFireability.xml in 29 ms.
Working with output stream class java.io.PrintStream
Initial state reduction rules removed 2 formulas.
Deduced a syphon composed of 1687 places in 14 ms
Reduce places removed 1699 places and 2213 transitions.
Reduce places removed 9 places and 0 transitions.
Initial state reduction rules removed 1 formulas.
FORMULA NeoElection-PT-4-LTLFireability-00 FALSE TECHNIQUES TOPOLOGICAL INITIAL_STATE
FORMULA NeoElection-PT-4-LTLFireability-01 FALSE TECHNIQUES TOPOLOGICAL INITIAL_STATE
FORMULA NeoElection-PT-4-LTLFireability-03 FALSE TECHNIQUES TOPOLOGICAL INITIAL_STATE
FORMULA NeoElection-PT-4-LTLFireability-04 TRUE TECHNIQUES TOPOLOGICAL INITIAL_STATE
FORMULA NeoElection-PT-4-LTLFireability-07 TRUE TECHNIQUES TOPOLOGICAL INITIAL_STATE
FORMULA NeoElection-PT-4-LTLFireability-08 FALSE TECHNIQUES TOPOLOGICAL INITIAL_STATE
FORMULA NeoElection-PT-4-LTLFireability-09 TRUE TECHNIQUES TOPOLOGICAL INITIAL_STATE
FORMULA NeoElection-PT-4-LTLFireability-10 FALSE TECHNIQUES TOPOLOGICAL INITIAL_STATE
FORMULA NeoElection-PT-4-LTLFireability-12 FALSE TECHNIQUES TOPOLOGICAL INITIAL_STATE
FORMULA NeoElection-PT-4-LTLFireability-13 TRUE TECHNIQUES TOPOLOGICAL INITIAL_STATE
FORMULA NeoElection-PT-4-LTLFireability-15 FALSE TECHNIQUES TOPOLOGICAL INITIAL_STATE
FORMULA NeoElection-PT-4-LTLFireability-11 FALSE TECHNIQUES TOPOLOGICAL INITIAL_STATE
Support contains 55 out of 122 places. Attempting structural reductions.
Starting structural reductions in LTL mode, iteration 0 : 122/122 places, 127/127 transitions.
Reduce places removed 12 places and 0 transitions.
Iterating post reduction 0 with 12 rules applied. Total rules applied 12 place count 110 transition count 127
Discarding 14 places :
Symmetric choice reduction at 1 with 14 rule applications. Total rules 26 place count 96 transition count 82
Iterating global reduction 1 with 14 rules applied. Total rules applied 40 place count 96 transition count 82
Applied a total of 40 rules in 67 ms. Remains 96 /122 variables (removed 26) and now considering 82/127 (removed 45) transitions.
[2023-03-13 20:12:56] [INFO ] Flow matrix only has 73 transitions (discarded 9 similar events)
// Phase 1: matrix 73 rows 96 cols
[2023-03-13 20:12:56] [INFO ] Computed 23 place invariants in 19 ms
[2023-03-13 20:12:57] [INFO ] Implicit Places using invariants in 399 ms returned [11, 15, 19, 23]
Discarding 4 places :
Implicit Place search using SMT only with invariants took 465 ms to find 4 implicit places.
Starting structural reductions in LTL mode, iteration 1 : 92/122 places, 82/127 transitions.
Applied a total of 0 rules in 5 ms. Remains 92 /92 variables (removed 0) and now considering 82/82 (removed 0) transitions.
Finished structural reductions in LTL mode , in 2 iterations and 540 ms. Remains : 92/122 places, 82/127 transitions.
Support contains 55 out of 92 places after structural reductions.
[2023-03-13 20:12:57] [INFO ] Flatten gal took : 63 ms
[2023-03-13 20:12:57] [INFO ] Flatten gal took : 27 ms
[2023-03-13 20:12:57] [INFO ] Input system was already deterministic with 82 transitions.
Finished random walk after 21 steps, including 0 resets, run visited all 6 properties in 24 ms. (steps per millisecond=0 )
Computed a total of 92 stabilizing places and 82 stable transitions
Complete graph has no SCC; deadlocks are unavoidable. place count 92 transition count 82
Detected that all paths lead to deadlock. Applying this knowledge to assert that all AP eventually converge (and all enablings converge to false).
Running Spot : '/home/mcc/BenchKit/itstools/itstools/plugins/fr.lip6.ltl.spot.binaries_1.0.0.202303021504/bin/ltl2tgba-linux64' '--check=stutter' '--hoaf=tv' '-f' '!(X((G(F(p1))||p0)))'
Support contains 26 out of 92 places. Attempting structural reductions.
Starting structural reductions in LTL mode, iteration 0 : 92/92 places, 82/82 transitions.
Discarding 4 places :
Symmetric choice reduction at 0 with 4 rule applications. Total rules 4 place count 88 transition count 78
Iterating global reduction 0 with 4 rules applied. Total rules applied 8 place count 88 transition count 78
Applied a total of 8 rules in 14 ms. Remains 88 /92 variables (removed 4) and now considering 78/82 (removed 4) transitions.
[2023-03-13 20:12:58] [INFO ] Flow matrix only has 69 transitions (discarded 9 similar events)
// Phase 1: matrix 69 rows 88 cols
[2023-03-13 20:12:58] [INFO ] Computed 19 place invariants in 10 ms
[2023-03-13 20:12:58] [INFO ] Implicit Places using invariants in 208 ms returned [10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21]
Discarding 12 places :
Implicit Place search using SMT only with invariants took 216 ms to find 12 implicit places.
Starting structural reductions in LTL mode, iteration 1 : 76/92 places, 78/82 transitions.
Applied a total of 0 rules in 5 ms. Remains 76 /76 variables (removed 0) and now considering 78/78 (removed 0) transitions.
Finished structural reductions in LTL mode , in 2 iterations and 236 ms. Remains : 76/92 places, 78/82 transitions.
Stuttering acceptance computed with spot in 417 ms :[(AND (NOT p0) (NOT p1)), (AND (NOT p0) (NOT p1)), (NOT p1), (NOT p1)]
Running random walk in product with property : NeoElection-PT-4-LTLFireability-02 automaton TGBA Formula[mat=[[{ cond=true, acceptance={} source=0 dest: 1}], [{ cond=(AND (NOT p0) (NOT p1)), acceptance={} source=1 dest: 2}, { cond=(NOT p0), acceptance={} source=1 dest: 3}], [{ cond=(NOT p1), acceptance={0} source=2 dest: 2}], [{ cond=(NOT p1), acceptance={} source=3 dest: 2}, { cond=true, acceptance={} source=3 dest: 3}]], initial=0, aps=[p0:(OR (EQ s0 1) (EQ s1 1) (EQ s2 1) (EQ s3 1)), p1:(OR (AND (EQ s6 1) (EQ s24 1) (EQ s53 1)) (AND (EQ s4 1) (EQ s10 1) (EQ s52 1)) (AND (EQ s9 1) (EQ s38...], nbAcceptance=1, properties=[trans-labels, explicit-labels, trans-acc, no-univ-branch, stutter-sensitive, very-weak, weak, inherently-weak], stateDesc=[null, null, null, null][false, false, false, false]]
Product exploration explored 100000 steps with 50000 reset in 558 ms.
Product exploration explored 100000 steps with 50000 reset in 275 ms.
Computed a total of 76 stabilizing places and 78 stable transitions
Complete graph has no SCC; deadlocks are unavoidable. place count 76 transition count 78
Detected that all paths lead to deadlock. Applying this knowledge to assert that all AP eventually converge (and all enablings converge to false).
Detected that all paths lead to deadlock. Applying this knowledge to assert that all AP eventually converge : F ( (Ga|G!a) & (Gb|G!b)...)
Knowledge obtained : [(AND p0 (NOT p1)), (X p0), (X (NOT (AND (NOT p0) (NOT p1)))), (X (X (NOT p1))), true, (F (G (NOT p0))), (F (G (NOT p1)))]
False Knowledge obtained : []
Property proved to be true thanks to knowledge :(X p0)
Knowledge based reduction with 7 factoid took 134 ms. Reduced automaton from 4 states, 6 edges and 2 AP (stutter sensitive) to 1 states, 0 edges and 0 AP (stutter insensitive).
FORMULA NeoElection-PT-4-LTLFireability-02 TRUE TECHNIQUES KNOWLEDGE
Treatment of property NeoElection-PT-4-LTLFireability-02 finished in 1813 ms.
Running Spot : '/home/mcc/BenchKit/itstools/itstools/plugins/fr.lip6.ltl.spot.binaries_1.0.0.202303021504/bin/ltl2tgba-linux64' '--check=stutter' '--hoaf=tv' '-f' '!(F(G(p0)))'
Support contains 4 out of 92 places. Attempting structural reductions.
Starting structural reductions in SI_LTL mode, iteration 0 : 92/92 places, 82/82 transitions.
Reduce places removed 4 places and 4 transitions.
Ensure Unique test removed 4 places
Iterating post reduction 0 with 4 rules applied. Total rules applied 4 place count 84 transition count 78
Performed 4 Pre agglomeration using Quasi-Persistent + Divergent Free condition..
Pre-agglomeration after 1 with 4 Pre rules applied. Total rules applied 4 place count 84 transition count 74
Deduced a syphon composed of 4 places in 1 ms
Reduce places removed 4 places and 0 transitions.
Iterating global reduction 1 with 8 rules applied. Total rules applied 12 place count 80 transition count 74
Performed 4 Post agglomeration using F-continuation condition.Transition count delta: 4
Deduced a syphon composed of 4 places in 0 ms
Reduce places removed 4 places and 0 transitions.
Iterating global reduction 1 with 8 rules applied. Total rules applied 20 place count 76 transition count 70
Reduce places removed 4 places and 4 transitions.
Iterating global reduction 1 with 4 rules applied. Total rules applied 24 place count 72 transition count 66
Ensure Unique test removed 4 places
Iterating post reduction 1 with 4 rules applied. Total rules applied 28 place count 68 transition count 66
Reduce places removed 4 places and 4 transitions.
Iterating global reduction 2 with 4 rules applied. Total rules applied 32 place count 64 transition count 62
Ensure Unique test removed 4 places
Iterating post reduction 2 with 4 rules applied. Total rules applied 36 place count 60 transition count 62
Reduce places removed 4 places and 4 transitions.
Iterating global reduction 3 with 4 rules applied. Total rules applied 40 place count 56 transition count 58
Applied a total of 40 rules in 39 ms. Remains 56 /92 variables (removed 36) and now considering 58/82 (removed 24) transitions.
[2023-03-13 20:12:59] [INFO ] Flow matrix only has 49 transitions (discarded 9 similar events)
// Phase 1: matrix 49 rows 56 cols
[2023-03-13 20:12:59] [INFO ] Computed 7 place invariants in 1 ms
[2023-03-13 20:12:59] [INFO ] Implicit Places using invariants in 92 ms returned []
[2023-03-13 20:12:59] [INFO ] Flow matrix only has 49 transitions (discarded 9 similar events)
[2023-03-13 20:12:59] [INFO ] Invariant cache hit.
[2023-03-13 20:13:00] [INFO ] State equation strengthened by 3 read => feed constraints.
[2023-03-13 20:13:00] [INFO ] Implicit Places using invariants and state equation in 162 ms returned []
Implicit Place search using SMT with State Equation took 257 ms to find 0 implicit places.
[2023-03-13 20:13:00] [INFO ] Redundant transitions in 2 ms returned []
[2023-03-13 20:13:00] [INFO ] Flow matrix only has 49 transitions (discarded 9 similar events)
[2023-03-13 20:13:00] [INFO ] Invariant cache hit.
[2023-03-13 20:13:00] [INFO ] Dead Transitions using invariants and state equation in 111 ms found 0 transitions.
Starting structural reductions in SI_LTL mode, iteration 1 : 56/92 places, 58/82 transitions.
Finished structural reductions in SI_LTL mode , in 1 iterations and 422 ms. Remains : 56/92 places, 58/82 transitions.
Stuttering acceptance computed with spot in 52 ms :[(NOT p0)]
Running random walk in product with property : NeoElection-PT-4-LTLFireability-05 automaton TGBA Formula[mat=[[{ cond=p0, acceptance={} source=0 dest: 0}, { cond=(NOT p0), acceptance={0} source=0 dest: 0}]], initial=0, aps=[p0:(AND (EQ s49 0) (EQ s50 0) (EQ s48 0) (EQ s51 0))], nbAcceptance=1, properties=[trans-labels, explicit-labels, trans-acc, complete, deterministic, no-univ-branch, unambiguous, semi-deterministic, stutter-invariant], stateDesc=[null][true]]
Product exploration explored 100000 steps with 1030 reset in 830 ms.
Product exploration explored 100000 steps with 1030 reset in 337 ms.
Computed a total of 56 stabilizing places and 58 stable transitions
Complete graph has no SCC; deadlocks are unavoidable. place count 56 transition count 58
Detected that all paths lead to deadlock. Applying this knowledge to assert that all AP eventually converge (and all enablings converge to false).
Detected that all paths lead to deadlock. Applying this knowledge to assert that all AP eventually converge : F ( (Ga|G!a) & (Gb|G!b)...)
Knowledge obtained : [p0, (X (NOT p0)), (F (G p0))]
False Knowledge obtained : [(X (X p0)), (X (X (NOT p0)))]
Property proved to be true thanks to knowledge :(F (G p0))
Knowledge based reduction with 3 factoid took 174 ms. Reduced automaton from 1 states, 2 edges and 1 AP (stutter insensitive) to 1 states, 0 edges and 0 AP (stutter insensitive).
FORMULA NeoElection-PT-4-LTLFireability-05 TRUE TECHNIQUES KNOWLEDGE
Treatment of property NeoElection-PT-4-LTLFireability-05 finished in 1893 ms.
Running Spot : '/home/mcc/BenchKit/itstools/itstools/plugins/fr.lip6.ltl.spot.binaries_1.0.0.202303021504/bin/ltl2tgba-linux64' '--check=stutter' '--hoaf=tv' '-f' '!(X((X(p0)&&G(p1))))'
Support contains 28 out of 92 places. Attempting structural reductions.
Starting structural reductions in LTL mode, iteration 0 : 92/92 places, 82/82 transitions.
Discarding 4 places :
Symmetric choice reduction at 0 with 4 rule applications. Total rules 4 place count 88 transition count 78
Iterating global reduction 0 with 4 rules applied. Total rules applied 8 place count 88 transition count 78
Applied a total of 8 rules in 5 ms. Remains 88 /92 variables (removed 4) and now considering 78/82 (removed 4) transitions.
[2023-03-13 20:13:01] [INFO ] Flow matrix only has 69 transitions (discarded 9 similar events)
// Phase 1: matrix 69 rows 88 cols
[2023-03-13 20:13:01] [INFO ] Computed 19 place invariants in 2 ms
[2023-03-13 20:13:01] [INFO ] Implicit Places using invariants in 114 ms returned []
[2023-03-13 20:13:01] [INFO ] Flow matrix only has 69 transitions (discarded 9 similar events)
[2023-03-13 20:13:01] [INFO ] Invariant cache hit.
[2023-03-13 20:13:01] [INFO ] State equation strengthened by 3 read => feed constraints.
[2023-03-13 20:13:02] [INFO ] Implicit Places using invariants and state equation in 200 ms returned []
Implicit Place search using SMT with State Equation took 317 ms to find 0 implicit places.
[2023-03-13 20:13:02] [INFO ] Flow matrix only has 69 transitions (discarded 9 similar events)
[2023-03-13 20:13:02] [INFO ] Invariant cache hit.
[2023-03-13 20:13:02] [INFO ] Dead Transitions using invariants and state equation in 151 ms found 0 transitions.
Starting structural reductions in LTL mode, iteration 1 : 88/92 places, 78/82 transitions.
Finished structural reductions in LTL mode , in 1 iterations and 479 ms. Remains : 88/92 places, 78/82 transitions.
Stuttering acceptance computed with spot in 292 ms :[true, (OR (NOT p0) (NOT p1)), (OR (NOT p0) (NOT p1)), (OR (NOT p1) (NOT p0)), (NOT p1)]
Running random walk in product with property : NeoElection-PT-4-LTLFireability-06 automaton TGBA Formula[mat=[[{ cond=true, acceptance={0} source=0 dest: 0}], [{ cond=true, acceptance={} source=1 dest: 3}], [{ cond=(OR (NOT p1) (NOT p0)), acceptance={} source=2 dest: 0}, { cond=(AND p1 p0), acceptance={} source=2 dest: 4}], [{ cond=(NOT p1), acceptance={} source=3 dest: 0}, { cond=p1, acceptance={} source=3 dest: 2}], [{ cond=(NOT p1), acceptance={} source=4 dest: 0}, { cond=p1, acceptance={} source=4 dest: 4}]], initial=1, aps=[p1:(OR (EQ s0 1) (EQ s1 1) (EQ s2 1) (EQ s3 1)), p0:(OR (AND (EQ s17 1) (EQ s83 1)) (AND (EQ s11 1) (EQ s77 1)) (AND (EQ s21 1) (EQ s87 1)) (AND (EQ s14 1...], nbAcceptance=1, properties=[trans-labels, explicit-labels, trans-acc, complete, deterministic, no-univ-branch, unambiguous, semi-deterministic, stutter-sensitive, terminal, very-weak, weak, inherently-weak], stateDesc=[null, null, null, null, null][false, false, false, false, false]]
Entered a terminal (fully accepting) state of product in 6 steps with 0 reset in 0 ms.
FORMULA NeoElection-PT-4-LTLFireability-06 FALSE TECHNIQUES STUTTER_TEST
Treatment of property NeoElection-PT-4-LTLFireability-06 finished in 794 ms.
Running Spot : '/home/mcc/BenchKit/itstools/itstools/plugins/fr.lip6.ltl.spot.binaries_1.0.0.202303021504/bin/ltl2tgba-linux64' '--check=stutter' '--hoaf=tv' '-f' '!(F(G(p0)))'
Support contains 1 out of 92 places. Attempting structural reductions.
Starting structural reductions in SI_LTL mode, iteration 0 : 92/92 places, 82/82 transitions.
Reduce places removed 4 places and 4 transitions.
Ensure Unique test removed 4 places
Iterating post reduction 0 with 4 rules applied. Total rules applied 4 place count 84 transition count 78
Performed 3 Pre agglomeration using Quasi-Persistent + Divergent Free condition..
Pre-agglomeration after 1 with 3 Pre rules applied. Total rules applied 4 place count 84 transition count 75
Deduced a syphon composed of 3 places in 0 ms
Reduce places removed 3 places and 0 transitions.
Iterating global reduction 1 with 6 rules applied. Total rules applied 10 place count 81 transition count 75
Discarding 4 places :
Symmetric choice reduction at 1 with 4 rule applications. Total rules 14 place count 77 transition count 71
Iterating global reduction 1 with 4 rules applied. Total rules applied 18 place count 77 transition count 71
Performed 3 Pre agglomeration using Quasi-Persistent + Divergent Free condition..
Pre-agglomeration after 1 with 3 Pre rules applied. Total rules applied 18 place count 77 transition count 68
Deduced a syphon composed of 3 places in 0 ms
Reduce places removed 3 places and 0 transitions.
Iterating global reduction 1 with 6 rules applied. Total rules applied 24 place count 74 transition count 68
Reduce places removed 4 places and 4 transitions.
Iterating global reduction 1 with 4 rules applied. Total rules applied 28 place count 70 transition count 64
Ensure Unique test removed 4 places
Iterating post reduction 1 with 4 rules applied. Total rules applied 32 place count 66 transition count 64
Reduce places removed 4 places and 4 transitions.
Iterating global reduction 2 with 4 rules applied. Total rules applied 36 place count 62 transition count 60
Ensure Unique test removed 4 places
Iterating post reduction 2 with 4 rules applied. Total rules applied 40 place count 58 transition count 60
Reduce places removed 4 places and 4 transitions.
Iterating global reduction 3 with 4 rules applied. Total rules applied 44 place count 54 transition count 56
Reduce places removed 3 places and 0 transitions.
Graph (complete) has 110 edges and 51 vertex of which 42 are kept as prefixes of interest. Removing 9 places using SCC suffix rule.2 ms
Discarding 9 places :
Also discarding 9 output transitions
Drop transitions removed 9 transitions
Drop transitions removed 5 transitions
Trivial Post-agglo rules discarded 5 transitions
Performed 5 trivial Post agglomeration. Transition count delta: 5
Iterating post reduction 3 with 9 rules applied. Total rules applied 53 place count 42 transition count 42
Reduce places removed 5 places and 0 transitions.
Iterating post reduction 4 with 5 rules applied. Total rules applied 58 place count 37 transition count 42
Performed 5 Pre agglomeration using Quasi-Persistent + Divergent Free condition..
Pre-agglomeration after 5 with 5 Pre rules applied. Total rules applied 58 place count 37 transition count 37
Deduced a syphon composed of 5 places in 0 ms
Reduce places removed 5 places and 0 transitions.
Iterating global reduction 5 with 10 rules applied. Total rules applied 68 place count 32 transition count 37
Discarding 6 places :
Symmetric choice reduction at 5 with 6 rule applications. Total rules 74 place count 26 transition count 30
Iterating global reduction 5 with 6 rules applied. Total rules applied 80 place count 26 transition count 30
Performed 2 Pre agglomeration using Quasi-Persistent + Divergent Free condition..
Pre-agglomeration after 5 with 2 Pre rules applied. Total rules applied 80 place count 26 transition count 28
Deduced a syphon composed of 2 places in 0 ms
Reduce places removed 2 places and 0 transitions.
Iterating global reduction 5 with 4 rules applied. Total rules applied 84 place count 24 transition count 28
Discarding 4 places :
Symmetric choice reduction at 5 with 4 rule applications. Total rules 88 place count 20 transition count 22
Iterating global reduction 5 with 4 rules applied. Total rules applied 92 place count 20 transition count 22
Applied a total of 92 rules in 101 ms. Remains 20 /92 variables (removed 72) and now considering 22/82 (removed 60) transitions.
[2023-03-13 20:13:02] [INFO ] Flow matrix only has 16 transitions (discarded 6 similar events)
// Phase 1: matrix 16 rows 20 cols
[2023-03-13 20:13:02] [INFO ] Computed 4 place invariants in 1 ms
[2023-03-13 20:13:02] [INFO ] Implicit Places using invariants in 65 ms returned []
[2023-03-13 20:13:02] [INFO ] Flow matrix only has 16 transitions (discarded 6 similar events)
[2023-03-13 20:13:02] [INFO ] Invariant cache hit.
[2023-03-13 20:13:02] [INFO ] State equation strengthened by 3 read => feed constraints.
[2023-03-13 20:13:02] [INFO ] Implicit Places using invariants and state equation in 66 ms returned []
Implicit Place search using SMT with State Equation took 134 ms to find 0 implicit places.
[2023-03-13 20:13:02] [INFO ] Redundant transitions in 0 ms returned []
[2023-03-13 20:13:02] [INFO ] Flow matrix only has 16 transitions (discarded 6 similar events)
[2023-03-13 20:13:02] [INFO ] Invariant cache hit.
[2023-03-13 20:13:02] [INFO ] Dead Transitions using invariants and state equation in 52 ms found 0 transitions.
Starting structural reductions in SI_LTL mode, iteration 1 : 20/92 places, 22/82 transitions.
Finished structural reductions in SI_LTL mode , in 1 iterations and 298 ms. Remains : 20/92 places, 22/82 transitions.
Stuttering acceptance computed with spot in 63 ms :[(NOT p0)]
Running random walk in product with property : NeoElection-PT-4-LTLFireability-14 automaton TGBA Formula[mat=[[{ cond=p0, acceptance={} source=0 dest: 0}, { cond=(NOT p0), acceptance={0} source=0 dest: 0}]], initial=0, aps=[p0:(EQ s19 0)], nbAcceptance=1, properties=[trans-labels, explicit-labels, trans-acc, complete, deterministic, no-univ-branch, unambiguous, semi-deterministic, stutter-invariant], stateDesc=[null][true]]
Product exploration explored 100000 steps with 2083 reset in 232 ms.
Product exploration explored 100000 steps with 2083 reset in 211 ms.
Computed a total of 20 stabilizing places and 22 stable transitions
Complete graph has no SCC; deadlocks are unavoidable. place count 20 transition count 22
Detected that all paths lead to deadlock. Applying this knowledge to assert that all AP eventually converge (and all enablings converge to false).
Detected that all paths lead to deadlock. Applying this knowledge to assert that all AP eventually converge : F ( (Ga|G!a) & (Gb|G!b)...)
Knowledge obtained : [p0, (F (G p0))]
False Knowledge obtained : [(X p0), (X (NOT p0)), (X (X p0)), (X (X (NOT p0)))]
Property proved to be true thanks to knowledge :(F (G p0))
Knowledge based reduction with 2 factoid took 240 ms. Reduced automaton from 1 states, 2 edges and 1 AP (stutter insensitive) to 1 states, 0 edges and 0 AP (stutter insensitive).
FORMULA NeoElection-PT-4-LTLFireability-14 TRUE TECHNIQUES KNOWLEDGE
Treatment of property NeoElection-PT-4-LTLFireability-14 finished in 1120 ms.
All properties solved by simple procedures.
Total runtime 7915 ms.
ITS solved all properties within timeout
BK_STOP 1678738385022
--------------------
content from stderr:
+ ulimit -s 65536
+ [[ -z '' ]]
+ export LTSMIN_MEM_SIZE=8589934592
+ LTSMIN_MEM_SIZE=8589934592
+ export PYTHONPATH=/home/mcc/BenchKit/itstools/pylibs
+ PYTHONPATH=/home/mcc/BenchKit/itstools/pylibs
+ export LD_LIBRARY_PATH=/home/mcc/BenchKit/itstools/pylibs:
+ LD_LIBRARY_PATH=/home/mcc/BenchKit/itstools/pylibs:
++ sed s/.jar//
++ perl -pe 's/.*\.//g'
++ ls /home/mcc/BenchKit/bin//../reducer/bin//../../itstools//itstools/plugins/fr.lip6.move.gal.application.pnmcc_1.0.0.202303021504.jar
+ VERSION=202303021504
+ echo 'Running Version 202303021504'
+ /home/mcc/BenchKit/bin//../reducer/bin//../../itstools//itstools/its-tools -pnfolder /home/mcc/execution -examination LTLFireability -timeout 360 -rebuildPNML
Sequence of Actions to be Executed by the VM
This is useful if one wants to reexecute the tool in the VM from the submitted image disk.
set -x
# this is for BenchKit: configuration of major elements for the test
export BK_INPUT="NeoElection-PT-4"
export BK_EXAMINATION="LTLFireability"
export BK_TOOL="lolaxred"
export BK_RESULT_DIR="/tmp/BK_RESULTS/OUTPUTS"
export BK_TIME_CONFINEMENT="3600"
export BK_MEMORY_CONFINEMENT="16384"
export BK_BIN_PATH="/home/mcc/BenchKit/bin/"
# this is specific to your benchmark or test
export BIN_DIR="$HOME/BenchKit/bin"
# remove the execution directoty if it exists (to avoid increse of .vmdk images)
if [ -d execution ] ; then
rm -rf execution
fi
# this is for BenchKit: explicit launching of the test
echo "====================================================================="
echo " Generated by BenchKit 2-5348"
echo " Executing tool lolaxred"
echo " Input is NeoElection-PT-4, examination is LTLFireability"
echo " Time confinement is $BK_TIME_CONFINEMENT seconds"
echo " Memory confinement is 16384 MBytes"
echo " Number of cores is 4"
echo " Run identifier is r263-smll-167863537900188"
echo "====================================================================="
echo
echo "--------------------"
echo "preparation of the directory to be used:"
tar xzf /home/mcc/BenchKit/INPUTS/NeoElection-PT-4.tgz
mv NeoElection-PT-4 execution
cd execution
if [ "LTLFireability" = "ReachabilityDeadlock" ] || [ "LTLFireability" = "UpperBounds" ] || [ "LTLFireability" = "QuasiLiveness" ] || [ "LTLFireability" = "StableMarking" ] || [ "LTLFireability" = "Liveness" ] || [ "LTLFireability" = "OneSafe" ] || [ "LTLFireability" = "StateSpace" ]; then
rm -f GenericPropertiesVerdict.xml
fi
pwd
ls -lh
echo
echo "--------------------"
echo "content from stdout:"
echo
echo "=== Data for post analysis generated by BenchKit (invocation template)"
echo
if [ "LTLFireability" = "UpperBounds" ] ; then
echo "The expected result is a vector of positive values"
echo NUM_VECTOR
elif [ "LTLFireability" != "StateSpace" ] ; then
echo "The expected result is a vector of booleans"
echo BOOL_VECTOR
else
echo "no data necessary for post analysis"
fi
echo
if [ -f "LTLFireability.txt" ] ; then
echo "here is the order used to build the result vector(from text file)"
for x in $(grep Property LTLFireability.txt | cut -d ' ' -f 2 | sort -u) ; do
echo "FORMULA_NAME $x"
done
elif [ -f "LTLFireability.xml" ] ; then # for cunf (txt files deleted;-)
echo echo "here is the order used to build the result vector(from xml file)"
for x in $(grep '
echo "FORMULA_NAME $x"
done
elif [ "LTLFireability" = "ReachabilityDeadlock" ] || [ "LTLFireability" = "QuasiLiveness" ] || [ "LTLFireability" = "StableMarking" ] || [ "LTLFireability" = "Liveness" ] || [ "LTLFireability" = "OneSafe" ] ; then
echo "FORMULA_NAME LTLFireability"
fi
echo
echo "=== Now, execution of the tool begins"
echo
echo -n "BK_START "
date -u +%s%3N
echo
timeout -s 9 $BK_TIME_CONFINEMENT bash -c "/home/mcc/BenchKit/BenchKit_head.sh 2> STDERR ; echo ; echo -n \"BK_STOP \" ; date -u +%s%3N"
if [ $? -eq 137 ] ; then
echo
echo "BK_TIME_CONFINEMENT_REACHED"
fi
echo
echo "--------------------"
echo "content from stderr:"
echo
cat STDERR ;