About the Execution of ITS-Tools for PhilosophersDyn-PT-03
Execution Summary | |||||
Max Memory Used (MB) |
Time wait (ms) | CPU Usage (ms) | I/O Wait (ms) | Computed Result | Execution Status |
15741.700 | 3770.00 | 7997.00 | 82.00 | FFFFTFFTTFFFFFTF | normal |
Execution Chart
We display below the execution chart for this examination (boot time has been removed).
Trace from the execution
Waiting for the VM to be ready (probing ssh)
................................................................
/home/mcc/execution
total 324K
-rw-r--r-- 1 mcc users 5.0K May 15 18:54 CTLCardinality.txt
-rw-r--r-- 1 mcc users 22K May 15 18:54 CTLCardinality.xml
-rw-r--r-- 1 mcc users 6.5K May 15 18:54 CTLFireability.txt
-rw-r--r-- 1 mcc users 29K May 15 18:54 CTLFireability.xml
-rw-r--r-- 1 mcc users 4.0K May 15 18:50 GenericPropertiesDefinition.xml
-rw-r--r-- 1 mcc users 5.9K May 15 18:50 GenericPropertiesVerdict.xml
-rw-r--r-- 1 mcc users 3.5K May 15 18:54 LTLCardinality.txt
-rw-r--r-- 1 mcc users 13K May 15 18:54 LTLCardinality.xml
-rw-r--r-- 1 mcc users 3.4K May 15 18:54 LTLFireability.txt
-rw-r--r-- 1 mcc users 13K May 15 18:54 LTLFireability.xml
-rw-r--r-- 1 mcc users 5.2K May 15 18:54 ReachabilityCardinality.txt
-rw-r--r-- 1 mcc users 22K May 15 18:54 ReachabilityCardinality.xml
-rw-r--r-- 1 mcc users 112 May 15 18:54 ReachabilityDeadlock.txt
-rw-r--r-- 1 mcc users 350 May 15 18:54 ReachabilityDeadlock.xml
-rw-r--r-- 1 mcc users 8.2K May 15 18:54 ReachabilityFireability.txt
-rw-r--r-- 1 mcc users 34K May 15 18:54 ReachabilityFireability.xml
-rw-r--r-- 1 mcc users 2.0K May 15 18:54 UpperBounds.txt
-rw-r--r-- 1 mcc users 4.3K May 15 18:54 UpperBounds.xml
-rw-r--r-- 1 mcc users 5 May 15 18:50 equiv_col
-rw-r--r-- 1 mcc users 3 May 15 18:50 instance
-rw-r--r-- 1 mcc users 6 May 15 18:50 iscolored
-rw-r--r-- 1 mcc users 87K May 15 18:50 model.pnml
=====================================================================
Generated by BenchKit 2-3637
Executing tool itstools
Input is PhilosophersDyn-PT-03, examination is CTLFireability
Time confinement is 3600 seconds
Memory confinement is 16384 MBytes
Number of cores is 4
Run identifier is r116-csrt-152666476000872
=====================================================================
--------------------
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 PhilosophersDyn-PT-03-CTLFireability-00
FORMULA_NAME PhilosophersDyn-PT-03-CTLFireability-01
FORMULA_NAME PhilosophersDyn-PT-03-CTLFireability-02
FORMULA_NAME PhilosophersDyn-PT-03-CTLFireability-03
FORMULA_NAME PhilosophersDyn-PT-03-CTLFireability-04
FORMULA_NAME PhilosophersDyn-PT-03-CTLFireability-05
FORMULA_NAME PhilosophersDyn-PT-03-CTLFireability-06
FORMULA_NAME PhilosophersDyn-PT-03-CTLFireability-07
FORMULA_NAME PhilosophersDyn-PT-03-CTLFireability-08
FORMULA_NAME PhilosophersDyn-PT-03-CTLFireability-09
FORMULA_NAME PhilosophersDyn-PT-03-CTLFireability-10
FORMULA_NAME PhilosophersDyn-PT-03-CTLFireability-11
FORMULA_NAME PhilosophersDyn-PT-03-CTLFireability-12
FORMULA_NAME PhilosophersDyn-PT-03-CTLFireability-13
FORMULA_NAME PhilosophersDyn-PT-03-CTLFireability-14
FORMULA_NAME PhilosophersDyn-PT-03-CTLFireability-15
=== Now, execution of the tool begins
BK_START 1527202843433
Invoking ITS tools like this :CommandLine [args=[/home/mcc/BenchKit/itstools/plugins/fr.lip6.move.gal.itstools.binaries_1.0.0.201805151631/bin/its-ctl-linux64, --gc-threshold, 2000000, --quiet, -i, /home/mcc/execution/CTLFireability.pnml.gal, -t, CGAL, -ctl, /home/mcc/execution/CTLFireability.ctl], workingDir=/home/mcc/execution]
its-ctl command run as :
/home/mcc/BenchKit/itstools/plugins/fr.lip6.move.gal.itstools.binaries_1.0.0.201805151631/bin/its-ctl-linux64 --gc-threshold 2000000 --quiet -i /home/mcc/execution/CTLFireability.pnml.gal -t CGAL -ctl /home/mcc/execution/CTLFireability.ctl
No direction supplied, using forward translation only.
Parsed 16 CTL formulae.
Model ,|S| ,Time ,Mem(kb) ,fin. SDD ,fin. DDD ,peak SDD ,peak DDD ,SDD Hom ,SDD cache peak ,DDD Hom ,DDD cachepeak ,SHom cache
reachable,325,0.044762,5204,2,486,5,2123,6,0,221,1608,0
Converting to forward existential form...Done !
original formula: (!(AX(((((Forks_3>=1)&&(WaitLeft_3>=1))||((WaitLeft_1>=1)&&(Forks_1>=1)))||((Forks_2>=1)&&(WaitLeft_2>=1))))) * (AF(((((Forks_3>=1)&&(WaitLeft_3>=1))||((WaitLeft_1>=1)&&(Forks_1>=1)))||((Forks_2>=1)&&(WaitLeft_2>=1)))) + ((!(((((((((((HasRight_3>=1)&&(HasLeft_3>=1))&&(Neighbourhood_3_2>=1))||(((HasRight_1>=1)&&(Neighbourhood_1_3>=1))&&(HasLeft_1>=1)))||(((HasRight_1>=1)&&(HasLeft_1>=1))&&(Neighbourhood_1_2>=1)))||(((Neighbourhood_2_2>=1)&&(HasLeft_2>=1))&&(HasRight_2>=1)))||(((Neighbourhood_3_1>=1)&&(HasLeft_3>=1))&&(HasRight_3>=1)))||(((HasRight_2>=1)&&(HasLeft_2>=1))&&(Neighbourhood_2_1>=1)))||(((HasRight_2>=1)&&(Neighbourhood_2_3>=1))&&(HasLeft_2>=1)))||(((HasRight_1>=1)&&(Neighbourhood_1_1>=1))&&(HasLeft_1>=1)))||(((HasRight_3>=1)&&(Neighbourhood_3_3>=1))&&(HasLeft_3>=1))))&&((((((((((((WaitRight_1>=1)&&(Neighbourhood_1_1>=1))&&(Forks_1>=1))||(((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(WaitRight_2>=1)))||(((Neighbourhood_2_1>=1)&&(WaitRight_2>=1))&&(Forks_1>=1)))||(((Forks_1>=1)&&(Neighbourhood_3_1>=1))&&(WaitRight_3>=1)))||(((Neighbourhood_1_3>=1)&&(Forks_3>=1))&&(WaitRight_1>=1)))||(((WaitRight_3>=1)&&(Forks_2>=1))&&(Neighbourhood_3_2>=1)))||(((WaitRight_1>=1)&&(Neighbourhood_1_2>=1))&&(Forks_2>=1)))||(((Forks_2>=1)&&(Neighbourhood_2_2>=1))&&(WaitRight_2>=1)))||(((Neighbourhood_3_3>=1)&&(WaitRight_3>=1))&&(Forks_3>=1)))||((((Forks_3>=1)&&(WaitLeft_3>=1))||((WaitLeft_1>=1)&&(Forks_1>=1)))||((Forks_2>=1)&&(WaitLeft_2>=1)))))))
=> equivalent forward existential formula: ([(Init * !(EX(!(((((Forks_3>=1)&&(WaitLeft_3>=1))||((WaitLeft_1>=1)&&(Forks_1>=1)))||((Forks_2>=1)&&(WaitLeft_2>=1)))))))] = FALSE * [FwdG((Init * !(((!(((((((((((HasRight_3>=1)&&(HasLeft_3>=1))&&(Neighbourhood_3_2>=1))||(((HasRight_1>=1)&&(Neighbourhood_1_3>=1))&&(HasLeft_1>=1)))||(((HasRight_1>=1)&&(HasLeft_1>=1))&&(Neighbourhood_1_2>=1)))||(((Neighbourhood_2_2>=1)&&(HasLeft_2>=1))&&(HasRight_2>=1)))||(((Neighbourhood_3_1>=1)&&(HasLeft_3>=1))&&(HasRight_3>=1)))||(((HasRight_2>=1)&&(HasLeft_2>=1))&&(Neighbourhood_2_1>=1)))||(((HasRight_2>=1)&&(Neighbourhood_2_3>=1))&&(HasLeft_2>=1)))||(((HasRight_1>=1)&&(Neighbourhood_1_1>=1))&&(HasLeft_1>=1)))||(((HasRight_3>=1)&&(Neighbourhood_3_3>=1))&&(HasLeft_3>=1))))&&((((((((((((WaitRight_1>=1)&&(Neighbourhood_1_1>=1))&&(Forks_1>=1))||(((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(WaitRight_2>=1)))||(((Neighbourhood_2_1>=1)&&(WaitRight_2>=1))&&(Forks_1>=1)))||(((Forks_1>=1)&&(Neighbourhood_3_1>=1))&&(WaitRight_3>=1)))||(((Neighbourhood_1_3>=1)&&(Forks_3>=1))&&(WaitRight_1>=1)))||(((WaitRight_3>=1)&&(Forks_2>=1))&&(Neighbourhood_3_2>=1)))||(((WaitRight_1>=1)&&(Neighbourhood_1_2>=1))&&(Forks_2>=1)))||(((Forks_2>=1)&&(Neighbourhood_2_2>=1))&&(WaitRight_2>=1)))||(((Neighbourhood_3_3>=1)&&(WaitRight_3>=1))&&(Forks_3>=1)))||((((Forks_3>=1)&&(WaitLeft_3>=1))||((WaitLeft_1>=1)&&(Forks_1>=1)))||((Forks_2>=1)&&(WaitLeft_2>=1))))))),!(((((Forks_3>=1)&&(WaitLeft_3>=1))||((WaitLeft_1>=1)&&(Forks_1>=1)))||((Forks_2>=1)&&(WaitLeft_2>=1)))))] = FALSE)
Hit Full ! (commute/partial/dont) 0/64/83
(forward)formula 0,0,0.148199,8744,1,0,11,13606,22,3,1883,8902,10
FORMULA PhilosophersDyn-PT-03-CTLFireability-00 FALSE TECHNIQUES DECISION_DIAGRAMS TOPOLOGICAL
Formula is FALSE !
***************************************
original formula: AF(((((Forks_3>=1)&&(WaitLeft_3>=1))||((WaitLeft_1>=1)&&(Forks_1>=1)))||((Forks_2>=1)&&(WaitLeft_2>=1))))
=> equivalent forward existential formula: [FwdG(Init,!(((((Forks_3>=1)&&(WaitLeft_3>=1))||((WaitLeft_1>=1)&&(Forks_1>=1)))||((Forks_2>=1)&&(WaitLeft_2>=1)))))] = FALSE
(forward)formula 1,0,0.14989,9008,1,0,11,13606,22,3,1883,8902,10
FORMULA PhilosophersDyn-PT-03-CTLFireability-01 FALSE TECHNIQUES DECISION_DIAGRAMS TOPOLOGICAL
Formula is FALSE !
***************************************
original formula: AF(((((Forks_3>=1)&&(WaitLeft_3>=1))||((WaitLeft_1>=1)&&(Forks_1>=1)))||((Forks_2>=1)&&(WaitLeft_2>=1))))
=> equivalent forward existential formula: [FwdG(Init,!(((((Forks_3>=1)&&(WaitLeft_3>=1))||((WaitLeft_1>=1)&&(Forks_1>=1)))||((Forks_2>=1)&&(WaitLeft_2>=1)))))] = FALSE
(forward)formula 2,0,0.150895,9008,1,0,11,13606,22,3,1883,8902,10
FORMULA PhilosophersDyn-PT-03-CTLFireability-02 FALSE TECHNIQUES DECISION_DIAGRAMS TOPOLOGICAL
Formula is FALSE !
***************************************
original formula: AF((EG(((((((((((((HasRight_3>=1)&&(HasLeft_3>=1))&&(Neighbourhood_3_2>=1))||(((HasRight_1>=1)&&(Neighbourhood_1_3>=1))&&(HasLeft_1>=1)))||(((HasRight_1>=1)&&(HasLeft_1>=1))&&(Neighbourhood_1_2>=1)))||(((Neighbourhood_2_2>=1)&&(HasLeft_2>=1))&&(HasRight_2>=1)))||(((Neighbourhood_3_1>=1)&&(HasLeft_3>=1))&&(HasRight_3>=1)))||(((HasRight_2>=1)&&(HasLeft_2>=1))&&(Neighbourhood_2_1>=1)))||(((HasRight_2>=1)&&(Neighbourhood_2_3>=1))&&(HasLeft_2>=1)))||(((HasRight_1>=1)&&(Neighbourhood_1_1>=1))&&(HasLeft_1>=1)))||(((HasRight_3>=1)&&(Neighbourhood_3_3>=1))&&(HasLeft_3>=1)))||((((Forks_3>=1)&&(WaitLeft_3>=1))||((WaitLeft_1>=1)&&(Forks_1>=1)))||((Forks_2>=1)&&(WaitLeft_2>=1))))) * ((((((((((((((((((((((((((((((Think_2>=1)&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_2>=1))&&(Forks_2>=1))||((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(Neighbourhood_3_3>=1))&&(Think_3>=1)))||((((Neighbourhood_1_1>=1)&&(Neighbourhood_1_2>=1))&&(Think_1>=1))&&(Forks_1>=1)))||((((Forks_3>=1)&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_1>=1))&&(Think_3>=1)))||((((Forks_3>=1)&&(Neighbourhood_3_3>=1))&&(Think_3>=1))&&(Neighbourhood_3_2>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_1_1>=1))&&(Neighbourhood_2_1>=1)))||((((Neighbourhood_1_3>=1)&&(Think_1>=1))&&(Neighbourhood_1_1>=1))&&(Forks_1>=1)))||((((Neighbourhood_2_3>=1)&&(Neighbourhood_2_2>=1))&&(Forks_2>=1))&&(Think_2>=1)))||((((Neighbourhood_3_1>=1)&&(Neighbourhood_3_3>=1))&&(Forks_3>=1))&&(Think_3>=1)))||((((Neighbourhood_3_2>=1)&&(Forks_2>=1))&&(Think_2>=1))&&(Neighbourhood_2_3>=1)))||((((Think_2>=1)&&(Forks_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_2_1>=1)))||((((Think_1>=1)&&(Neighbourhood_1_2>=1))&&(Neighbourhood_3_1>=1))&&(Forks_1>=1)))||((((Think_2>=1)&&(Forks_2>=1))&&(Neighbourhood_3_2>=1))&&(Neighbourhood_2_1>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_1>=1)))||((((Neighbourhood_2_2>=1)&&(Think_2>=1))&&(Forks_2>=1))&&(Neighbourhood_3_2>=1)))||((((Neighbourhood_1_1>=1)&&(Think_1>=1))&&(Neighbourhood_3_1>=1))&&(Forks_1>=1)))||((((Forks_3>=1)&&(Think_3>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_3>=1)))||((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_1>=1))&&(Think_1>=1))&&(Forks_1>=1)))||(((Think_3>=1)&&(Forks_3>=1))&&(Neighbourhood_3_3>=2)))||((((Neighbourhood_3_1>=1)&&(Forks_3>=1))&&(Think_3>=1))&&(Neighbourhood_2_3>=1)))||((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_3>=1))&&(Think_2>=1))&&(Forks_2>=1)))||((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(Neighbourhood_3_2>=1))&&(Think_3>=1)))||(((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=2)))||((((Neighbourhood_1_3>=1)&&(Forks_3>=1))&&(Neighbourhood_3_2>=1))&&(Think_3>=1)))||(((Neighbourhood_1_1>=2)&&(Think_1>=1))&&(Forks_1>=1)))||((((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_1_2>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_3>=1)))))
=> equivalent forward existential formula: [FwdG(Init,!((EG(((((((((((((HasRight_3>=1)&&(HasLeft_3>=1))&&(Neighbourhood_3_2>=1))||(((HasRight_1>=1)&&(Neighbourhood_1_3>=1))&&(HasLeft_1>=1)))||(((HasRight_1>=1)&&(HasLeft_1>=1))&&(Neighbourhood_1_2>=1)))||(((Neighbourhood_2_2>=1)&&(HasLeft_2>=1))&&(HasRight_2>=1)))||(((Neighbourhood_3_1>=1)&&(HasLeft_3>=1))&&(HasRight_3>=1)))||(((HasRight_2>=1)&&(HasLeft_2>=1))&&(Neighbourhood_2_1>=1)))||(((HasRight_2>=1)&&(Neighbourhood_2_3>=1))&&(HasLeft_2>=1)))||(((HasRight_1>=1)&&(Neighbourhood_1_1>=1))&&(HasLeft_1>=1)))||(((HasRight_3>=1)&&(Neighbourhood_3_3>=1))&&(HasLeft_3>=1)))||((((Forks_3>=1)&&(WaitLeft_3>=1))||((WaitLeft_1>=1)&&(Forks_1>=1)))||((Forks_2>=1)&&(WaitLeft_2>=1))))) * ((((((((((((((((((((((((((((((Think_2>=1)&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_2>=1))&&(Forks_2>=1))||((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(Neighbourhood_3_3>=1))&&(Think_3>=1)))||((((Neighbourhood_1_1>=1)&&(Neighbourhood_1_2>=1))&&(Think_1>=1))&&(Forks_1>=1)))||((((Forks_3>=1)&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_1>=1))&&(Think_3>=1)))||((((Forks_3>=1)&&(Neighbourhood_3_3>=1))&&(Think_3>=1))&&(Neighbourhood_3_2>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_1_1>=1))&&(Neighbourhood_2_1>=1)))||((((Neighbourhood_1_3>=1)&&(Think_1>=1))&&(Neighbourhood_1_1>=1))&&(Forks_1>=1)))||((((Neighbourhood_2_3>=1)&&(Neighbourhood_2_2>=1))&&(Forks_2>=1))&&(Think_2>=1)))||((((Neighbourhood_3_1>=1)&&(Neighbourhood_3_3>=1))&&(Forks_3>=1))&&(Think_3>=1)))||((((Neighbourhood_3_2>=1)&&(Forks_2>=1))&&(Think_2>=1))&&(Neighbourhood_2_3>=1)))||((((Think_2>=1)&&(Forks_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_2_1>=1)))||((((Think_1>=1)&&(Neighbourhood_1_2>=1))&&(Neighbourhood_3_1>=1))&&(Forks_1>=1)))||((((Think_2>=1)&&(Forks_2>=1))&&(Neighbourhood_3_2>=1))&&(Neighbourhood_2_1>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_1>=1)))||((((Neighbourhood_2_2>=1)&&(Think_2>=1))&&(Forks_2>=1))&&(Neighbourhood_3_2>=1)))||((((Neighbourhood_1_1>=1)&&(Think_1>=1))&&(Neighbourhood_3_1>=1))&&(Forks_1>=1)))||((((Forks_3>=1)&&(Think_3>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_3>=1)))||((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_1>=1))&&(Think_1>=1))&&(Forks_1>=1)))||(((Think_3>=1)&&(Forks_3>=1))&&(Neighbourhood_3_3>=2)))||((((Neighbourhood_3_1>=1)&&(Forks_3>=1))&&(Think_3>=1))&&(Neighbourhood_2_3>=1)))||((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_3>=1))&&(Think_2>=1))&&(Forks_2>=1)))||((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(Neighbourhood_3_2>=1))&&(Think_3>=1)))||(((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=2)))||((((Neighbourhood_1_3>=1)&&(Forks_3>=1))&&(Neighbourhood_3_2>=1))&&(Think_3>=1)))||(((Neighbourhood_1_1>=2)&&(Think_1>=1))&&(Forks_1>=1)))||((((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_1_2>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_3>=1))))))] = FALSE
Reverse transition relation is NOT exact ! Due to transitions Leave_2_1_1, Leave_3_1_1, Leave_2_3_3, Leave_1_3_2, Leave_2_3_1, Leave_1_3_3, Leave_1_2_2, Leave_3_2_1, Leave_2_1_3, Leave_3_2_2, Leave_3_1_2, Leave_1_2_3, Intersection with reachable at each step enabled. (destroyed/reverse/intersect/total) :40/32/12/84
(forward)formula 3,0,0.248241,11384,1,0,133,22194,164,66,2559,20031,176
FORMULA PhilosophersDyn-PT-03-CTLFireability-03 FALSE TECHNIQUES DECISION_DIAGRAMS TOPOLOGICAL
Formula is FALSE !
***************************************
original formula: !(((((((((((((((HasRight_3>=1)&&(HasLeft_3>=1))&&(Neighbourhood_3_2>=1))||(((HasRight_1>=1)&&(Neighbourhood_1_3>=1))&&(HasLeft_1>=1)))||(((HasRight_1>=1)&&(HasLeft_1>=1))&&(Neighbourhood_1_2>=1)))||(((Neighbourhood_2_2>=1)&&(HasLeft_2>=1))&&(HasRight_2>=1)))||(((Neighbourhood_3_1>=1)&&(HasLeft_3>=1))&&(HasRight_3>=1)))||(((HasRight_2>=1)&&(HasLeft_2>=1))&&(Neighbourhood_2_1>=1)))||(((HasRight_2>=1)&&(Neighbourhood_2_3>=1))&&(HasLeft_2>=1)))||(((HasRight_1>=1)&&(Neighbourhood_1_1>=1))&&(HasLeft_1>=1)))||(((HasRight_3>=1)&&(Neighbourhood_3_3>=1))&&(HasLeft_3>=1)))&&(((((((((((((WaitRight_1>=1)&&(Neighbourhood_1_1>=1))&&(Forks_1>=1))||(((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(WaitRight_2>=1)))||(((Neighbourhood_2_1>=1)&&(WaitRight_2>=1))&&(Forks_1>=1)))||(((Forks_1>=1)&&(Neighbourhood_3_1>=1))&&(WaitRight_3>=1)))||(((Neighbourhood_1_3>=1)&&(Forks_3>=1))&&(WaitRight_1>=1)))||(((WaitRight_3>=1)&&(Forks_2>=1))&&(Neighbourhood_3_2>=1)))||(((WaitRight_1>=1)&&(Neighbourhood_1_2>=1))&&(Forks_2>=1)))||(((Forks_2>=1)&&(Neighbourhood_2_2>=1))&&(WaitRight_2>=1)))||(((Neighbourhood_3_3>=1)&&(WaitRight_3>=1))&&(Forks_3>=1)))||(((((((((((HasRight_3>=1)&&(HasLeft_3>=1))&&(Neighbourhood_3_2>=1))||(((HasRight_1>=1)&&(Neighbourhood_1_3>=1))&&(HasLeft_1>=1)))||(((HasRight_1>=1)&&(HasLeft_1>=1))&&(Neighbourhood_1_2>=1)))||(((Neighbourhood_2_2>=1)&&(HasLeft_2>=1))&&(HasRight_2>=1)))||(((Neighbourhood_3_1>=1)&&(HasLeft_3>=1))&&(HasRight_3>=1)))||(((HasRight_2>=1)&&(HasLeft_2>=1))&&(Neighbourhood_2_1>=1)))||(((HasRight_2>=1)&&(Neighbourhood_2_3>=1))&&(HasLeft_2>=1)))||(((HasRight_1>=1)&&(Neighbourhood_1_1>=1))&&(HasLeft_1>=1)))||(((HasRight_3>=1)&&(Neighbourhood_3_3>=1))&&(HasLeft_3>=1))))&&(!((((((((((((((((((((((((((((((Neighbourhood_1_2>=1)&&(Outside_2>=1))&&(Forks_2>=1))&&(Forks_1>=1))||(((Forks_1>=2)&&(Neighbourhood_1_1>=1))&&(Outside_2>=1)))||((((Neighbourhood_3_2>=1)&&(Forks_2>=1))&&(Forks_3>=1))&&(Outside_2>=1)))||((((Neighbourhood_1_2>=1)&&(Forks_2>=1))&&(Forks_1>=1))&&(Outside_1>=1)))||(((Forks_1>=2)&&(Outside_3>=1))&&(Neighbourhood_1_1>=1)))||((((Forks_2>=1)&&(Forks_3>=1))&&(Neighbourhood_2_3>=1))&&(Outside_3>=1)))||((((Forks_2>=1)&&(Forks_1>=1))&&(Outside_1>=1))&&(Neighbourhood_2_1>=1)))||((((Outside_3>=1)&&(Neighbourhood_3_2>=1))&&(Forks_3>=1))&&(Forks_2>=1)))||((((Neighbourhood_3_1>=1)&&(Outside_3>=1))&&(Forks_3>=1))&&(Forks_1>=1)))||((((Forks_2>=1)&&(Outside_2>=1))&&(Neighbourhood_2_3>=1))&&(Forks_3>=1)))||((((Forks_1>=1)&&(Outside_2>=1))&&(Forks_3>=1))&&(Neighbourhood_3_1>=1)))||(((Neighbourhood_2_2>=1)&&(Forks_2>=2))&&(Outside_3>=1)))||((((Neighbourhood_3_1>=1)&&(Forks_3>=1))&&(Outside_1>=1))&&(Forks_1>=1)))||(((Neighbourhood_3_3>=1)&&(Forks_3>=2))&&(Outside_1>=1)))||((((Neighbourhood_3_2>=1)&&(Outside_1>=1))&&(Forks_3>=1))&&(Forks_2>=1)))||(((Outside_1>=1)&&(Neighbourhood_2_2>=1))&&(Forks_2>=2)))||((((Forks_1>=1)&&(Outside_2>=1))&&(Neighbourhood_1_3>=1))&&(Forks_3>=1)))||((((Forks_1>=1)&&(Neighbourhood_2_1>=1))&&(Forks_2>=1))&&(Outside_3>=1)))||(((Forks_2>=2)&&(Neighbourhood_2_2>=1))&&(Outside_2>=1)))||(((Neighbourhood_3_3>=1)&&(Outside_2>=1))&&(Forks_3>=2)))||((((Neighbourhood_2_1>=1)&&(Forks_1>=1))&&(Forks_2>=1))&&(Outside_2>=1)))||((((Neighbourhood_1_3>=1)&&(Outside_1>=1))&&(Forks_1>=1))&&(Forks_3>=1)))||(((Neighbourhood_3_3>=1)&&(Forks_3>=2))&&(Outside_3>=1)))||((((Outside_1>=1)&&(Forks_3>=1))&&(Neighbourhood_2_3>=1))&&(Forks_2>=1)))||(((Outside_1>=1)&&(Neighbourhood_1_1>=1))&&(Forks_1>=2)))||((((Outside_3>=1)&&(Forks_1>=1))&&(Forks_3>=1))&&(Neighbourhood_1_3>=1)))||((((Forks_1>=1)&&(Forks_2>=1))&&(Neighbourhood_1_2>=1))&&(Outside_3>=1)))))) * (EG((((Think_1>=1)||(Think_3>=1))||(Think_2>=1))) * !(((((((((((((((((((((((((((((((Think_2>=1)&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_2>=1))&&(Forks_2>=1))||((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(Neighbourhood_3_3>=1))&&(Think_3>=1)))||((((Neighbourhood_1_1>=1)&&(Neighbourhood_1_2>=1))&&(Think_1>=1))&&(Forks_1>=1)))||((((Forks_3>=1)&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_1>=1))&&(Think_3>=1)))||((((Forks_3>=1)&&(Neighbourhood_3_3>=1))&&(Think_3>=1))&&(Neighbourhood_3_2>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_1_1>=1))&&(Neighbourhood_2_1>=1)))||((((Neighbourhood_1_3>=1)&&(Think_1>=1))&&(Neighbourhood_1_1>=1))&&(Forks_1>=1)))||((((Neighbourhood_2_3>=1)&&(Neighbourhood_2_2>=1))&&(Forks_2>=1))&&(Think_2>=1)))||((((Neighbourhood_3_1>=1)&&(Neighbourhood_3_3>=1))&&(Forks_3>=1))&&(Think_3>=1)))||((((Neighbourhood_3_2>=1)&&(Forks_2>=1))&&(Think_2>=1))&&(Neighbourhood_2_3>=1)))||((((Think_2>=1)&&(Forks_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_2_1>=1)))||((((Think_1>=1)&&(Neighbourhood_1_2>=1))&&(Neighbourhood_3_1>=1))&&(Forks_1>=1)))||((((Think_2>=1)&&(Forks_2>=1))&&(Neighbourhood_3_2>=1))&&(Neighbourhood_2_1>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_1>=1)))||((((Neighbourhood_2_2>=1)&&(Think_2>=1))&&(Forks_2>=1))&&(Neighbourhood_3_2>=1)))||((((Neighbourhood_1_1>=1)&&(Think_1>=1))&&(Neighbourhood_3_1>=1))&&(Forks_1>=1)))||((((Forks_3>=1)&&(Think_3>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_3>=1)))||((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_1>=1))&&(Think_1>=1))&&(Forks_1>=1)))||(((Think_3>=1)&&(Forks_3>=1))&&(Neighbourhood_3_3>=2)))||((((Neighbourhood_3_1>=1)&&(Forks_3>=1))&&(Think_3>=1))&&(Neighbourhood_2_3>=1)))||((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_3>=1))&&(Think_2>=1))&&(Forks_2>=1)))||((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(Neighbourhood_3_2>=1))&&(Think_3>=1)))||(((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=2)))||((((Neighbourhood_1_3>=1)&&(Forks_3>=1))&&(Neighbourhood_3_2>=1))&&(Think_3>=1)))||(((Neighbourhood_1_1>=2)&&(Think_1>=1))&&(Forks_1>=1)))||((((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_1_2>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_3>=1)))))) + AF(((((Forks_3>=1)&&(WaitLeft_3>=1))||((WaitLeft_1>=1)&&(Forks_1>=1)))||((Forks_2>=1)&&(WaitLeft_2>=1))))))
=> equivalent forward existential formula: [FwdG((Init * !((((((((((((((HasRight_3>=1)&&(HasLeft_3>=1))&&(Neighbourhood_3_2>=1))||(((HasRight_1>=1)&&(Neighbourhood_1_3>=1))&&(HasLeft_1>=1)))||(((HasRight_1>=1)&&(HasLeft_1>=1))&&(Neighbourhood_1_2>=1)))||(((Neighbourhood_2_2>=1)&&(HasLeft_2>=1))&&(HasRight_2>=1)))||(((Neighbourhood_3_1>=1)&&(HasLeft_3>=1))&&(HasRight_3>=1)))||(((HasRight_2>=1)&&(HasLeft_2>=1))&&(Neighbourhood_2_1>=1)))||(((HasRight_2>=1)&&(Neighbourhood_2_3>=1))&&(HasLeft_2>=1)))||(((HasRight_1>=1)&&(Neighbourhood_1_1>=1))&&(HasLeft_1>=1)))||(((HasRight_3>=1)&&(Neighbourhood_3_3>=1))&&(HasLeft_3>=1)))&&(((((((((((((WaitRight_1>=1)&&(Neighbourhood_1_1>=1))&&(Forks_1>=1))||(((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(WaitRight_2>=1)))||(((Neighbourhood_2_1>=1)&&(WaitRight_2>=1))&&(Forks_1>=1)))||(((Forks_1>=1)&&(Neighbourhood_3_1>=1))&&(WaitRight_3>=1)))||(((Neighbourhood_1_3>=1)&&(Forks_3>=1))&&(WaitRight_1>=1)))||(((WaitRight_3>=1)&&(Forks_2>=1))&&(Neighbourhood_3_2>=1)))||(((WaitRight_1>=1)&&(Neighbourhood_1_2>=1))&&(Forks_2>=1)))||(((Forks_2>=1)&&(Neighbourhood_2_2>=1))&&(WaitRight_2>=1)))||(((Neighbourhood_3_3>=1)&&(WaitRight_3>=1))&&(Forks_3>=1)))||(((((((((((HasRight_3>=1)&&(HasLeft_3>=1))&&(Neighbourhood_3_2>=1))||(((HasRight_1>=1)&&(Neighbourhood_1_3>=1))&&(HasLeft_1>=1)))||(((HasRight_1>=1)&&(HasLeft_1>=1))&&(Neighbourhood_1_2>=1)))||(((Neighbourhood_2_2>=1)&&(HasLeft_2>=1))&&(HasRight_2>=1)))||(((Neighbourhood_3_1>=1)&&(HasLeft_3>=1))&&(HasRight_3>=1)))||(((HasRight_2>=1)&&(HasLeft_2>=1))&&(Neighbourhood_2_1>=1)))||(((HasRight_2>=1)&&(Neighbourhood_2_3>=1))&&(HasLeft_2>=1)))||(((HasRight_1>=1)&&(Neighbourhood_1_1>=1))&&(HasLeft_1>=1)))||(((HasRight_3>=1)&&(Neighbourhood_3_3>=1))&&(HasLeft_3>=1))))&&(!((((((((((((((((((((((((((((((Neighbourhood_1_2>=1)&&(Outside_2>=1))&&(Forks_2>=1))&&(Forks_1>=1))||(((Forks_1>=2)&&(Neighbourhood_1_1>=1))&&(Outside_2>=1)))||((((Neighbourhood_3_2>=1)&&(Forks_2>=1))&&(Forks_3>=1))&&(Outside_2>=1)))||((((Neighbourhood_1_2>=1)&&(Forks_2>=1))&&(Forks_1>=1))&&(Outside_1>=1)))||(((Forks_1>=2)&&(Outside_3>=1))&&(Neighbourhood_1_1>=1)))||((((Forks_2>=1)&&(Forks_3>=1))&&(Neighbourhood_2_3>=1))&&(Outside_3>=1)))||((((Forks_2>=1)&&(Forks_1>=1))&&(Outside_1>=1))&&(Neighbourhood_2_1>=1)))||((((Outside_3>=1)&&(Neighbourhood_3_2>=1))&&(Forks_3>=1))&&(Forks_2>=1)))||((((Neighbourhood_3_1>=1)&&(Outside_3>=1))&&(Forks_3>=1))&&(Forks_1>=1)))||((((Forks_2>=1)&&(Outside_2>=1))&&(Neighbourhood_2_3>=1))&&(Forks_3>=1)))||((((Forks_1>=1)&&(Outside_2>=1))&&(Forks_3>=1))&&(Neighbourhood_3_1>=1)))||(((Neighbourhood_2_2>=1)&&(Forks_2>=2))&&(Outside_3>=1)))||((((Neighbourhood_3_1>=1)&&(Forks_3>=1))&&(Outside_1>=1))&&(Forks_1>=1)))||(((Neighbourhood_3_3>=1)&&(Forks_3>=2))&&(Outside_1>=1)))||((((Neighbourhood_3_2>=1)&&(Outside_1>=1))&&(Forks_3>=1))&&(Forks_2>=1)))||(((Outside_1>=1)&&(Neighbourhood_2_2>=1))&&(Forks_2>=2)))||((((Forks_1>=1)&&(Outside_2>=1))&&(Neighbourhood_1_3>=1))&&(Forks_3>=1)))||((((Forks_1>=1)&&(Neighbourhood_2_1>=1))&&(Forks_2>=1))&&(Outside_3>=1)))||(((Forks_2>=2)&&(Neighbourhood_2_2>=1))&&(Outside_2>=1)))||(((Neighbourhood_3_3>=1)&&(Outside_2>=1))&&(Forks_3>=2)))||((((Neighbourhood_2_1>=1)&&(Forks_1>=1))&&(Forks_2>=1))&&(Outside_2>=1)))||((((Neighbourhood_1_3>=1)&&(Outside_1>=1))&&(Forks_1>=1))&&(Forks_3>=1)))||(((Neighbourhood_3_3>=1)&&(Forks_3>=2))&&(Outside_3>=1)))||((((Outside_1>=1)&&(Forks_3>=1))&&(Neighbourhood_2_3>=1))&&(Forks_2>=1)))||(((Outside_1>=1)&&(Neighbourhood_1_1>=1))&&(Forks_1>=2)))||((((Outside_3>=1)&&(Forks_1>=1))&&(Forks_3>=1))&&(Neighbourhood_1_3>=1)))||((((Forks_1>=1)&&(Forks_2>=1))&&(Neighbourhood_1_2>=1))&&(Outside_3>=1)))))) * (EG((((Think_1>=1)||(Think_3>=1))||(Think_2>=1))) * !(((((((((((((((((((((((((((((((Think_2>=1)&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_2>=1))&&(Forks_2>=1))||((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(Neighbourhood_3_3>=1))&&(Think_3>=1)))||((((Neighbourhood_1_1>=1)&&(Neighbourhood_1_2>=1))&&(Think_1>=1))&&(Forks_1>=1)))||((((Forks_3>=1)&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_1>=1))&&(Think_3>=1)))||((((Forks_3>=1)&&(Neighbourhood_3_3>=1))&&(Think_3>=1))&&(Neighbourhood_3_2>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_1_1>=1))&&(Neighbourhood_2_1>=1)))||((((Neighbourhood_1_3>=1)&&(Think_1>=1))&&(Neighbourhood_1_1>=1))&&(Forks_1>=1)))||((((Neighbourhood_2_3>=1)&&(Neighbourhood_2_2>=1))&&(Forks_2>=1))&&(Think_2>=1)))||((((Neighbourhood_3_1>=1)&&(Neighbourhood_3_3>=1))&&(Forks_3>=1))&&(Think_3>=1)))||((((Neighbourhood_3_2>=1)&&(Forks_2>=1))&&(Think_2>=1))&&(Neighbourhood_2_3>=1)))||((((Think_2>=1)&&(Forks_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_2_1>=1)))||((((Think_1>=1)&&(Neighbourhood_1_2>=1))&&(Neighbourhood_3_1>=1))&&(Forks_1>=1)))||((((Think_2>=1)&&(Forks_2>=1))&&(Neighbourhood_3_2>=1))&&(Neighbourhood_2_1>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_1>=1)))||((((Neighbourhood_2_2>=1)&&(Think_2>=1))&&(Forks_2>=1))&&(Neighbourhood_3_2>=1)))||((((Neighbourhood_1_1>=1)&&(Think_1>=1))&&(Neighbourhood_3_1>=1))&&(Forks_1>=1)))||((((Forks_3>=1)&&(Think_3>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_3>=1)))||((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_1>=1))&&(Think_1>=1))&&(Forks_1>=1)))||(((Think_3>=1)&&(Forks_3>=1))&&(Neighbourhood_3_3>=2)))||((((Neighbourhood_3_1>=1)&&(Forks_3>=1))&&(Think_3>=1))&&(Neighbourhood_2_3>=1)))||((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_3>=1))&&(Think_2>=1))&&(Forks_2>=1)))||((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(Neighbourhood_3_2>=1))&&(Think_3>=1)))||(((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=2)))||((((Neighbourhood_1_3>=1)&&(Forks_3>=1))&&(Neighbourhood_3_2>=1))&&(Think_3>=1)))||(((Neighbourhood_1_1>=2)&&(Think_1>=1))&&(Forks_1>=1)))||((((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_1_2>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_3>=1)))))))),!(((((Forks_3>=1)&&(WaitLeft_3>=1))||((WaitLeft_1>=1)&&(Forks_1>=1)))||((Forks_2>=1)&&(WaitLeft_2>=1)))))] != FALSE
(forward)formula 4,1,0.341794,13880,1,0,153,28665,171,79,2681,25013,203
FORMULA PhilosophersDyn-PT-03-CTLFireability-04 TRUE TECHNIQUES DECISION_DIAGRAMS TOPOLOGICAL
Formula is TRUE !
***************************************
original formula: (EX((AF((((((((((((WaitRight_1>=1)&&(Neighbourhood_1_1>=1))&&(Forks_1>=1))||(((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(WaitRight_2>=1)))||(((Neighbourhood_2_1>=1)&&(WaitRight_2>=1))&&(Forks_1>=1)))||(((Forks_1>=1)&&(Neighbourhood_3_1>=1))&&(WaitRight_3>=1)))||(((Neighbourhood_1_3>=1)&&(Forks_3>=1))&&(WaitRight_1>=1)))||(((WaitRight_3>=1)&&(Forks_2>=1))&&(Neighbourhood_3_2>=1)))||(((WaitRight_1>=1)&&(Neighbourhood_1_2>=1))&&(Forks_2>=1)))||(((Forks_2>=1)&&(Neighbourhood_2_2>=1))&&(WaitRight_2>=1)))||(((Neighbourhood_3_3>=1)&&(WaitRight_3>=1))&&(Forks_3>=1)))) + ((((((((((((((((((((((((((((((Think_2>=1)&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_2>=1))&&(Forks_2>=1))||((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(Neighbourhood_3_3>=1))&&(Think_3>=1)))||((((Neighbourhood_1_1>=1)&&(Neighbourhood_1_2>=1))&&(Think_1>=1))&&(Forks_1>=1)))||((((Forks_3>=1)&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_1>=1))&&(Think_3>=1)))||((((Forks_3>=1)&&(Neighbourhood_3_3>=1))&&(Think_3>=1))&&(Neighbourhood_3_2>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_1_1>=1))&&(Neighbourhood_2_1>=1)))||((((Neighbourhood_1_3>=1)&&(Think_1>=1))&&(Neighbourhood_1_1>=1))&&(Forks_1>=1)))||((((Neighbourhood_2_3>=1)&&(Neighbourhood_2_2>=1))&&(Forks_2>=1))&&(Think_2>=1)))||((((Neighbourhood_3_1>=1)&&(Neighbourhood_3_3>=1))&&(Forks_3>=1))&&(Think_3>=1)))||((((Neighbourhood_3_2>=1)&&(Forks_2>=1))&&(Think_2>=1))&&(Neighbourhood_2_3>=1)))||((((Think_2>=1)&&(Forks_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_2_1>=1)))||((((Think_1>=1)&&(Neighbourhood_1_2>=1))&&(Neighbourhood_3_1>=1))&&(Forks_1>=1)))||((((Think_2>=1)&&(Forks_2>=1))&&(Neighbourhood_3_2>=1))&&(Neighbourhood_2_1>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_1>=1)))||((((Neighbourhood_2_2>=1)&&(Think_2>=1))&&(Forks_2>=1))&&(Neighbourhood_3_2>=1)))||((((Neighbourhood_1_1>=1)&&(Think_1>=1))&&(Neighbourhood_3_1>=1))&&(Forks_1>=1)))||((((Forks_3>=1)&&(Think_3>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_3>=1)))||((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_1>=1))&&(Think_1>=1))&&(Forks_1>=1)))||(((Think_3>=1)&&(Forks_3>=1))&&(Neighbourhood_3_3>=2)))||((((Neighbourhood_3_1>=1)&&(Forks_3>=1))&&(Think_3>=1))&&(Neighbourhood_2_3>=1)))||((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_3>=1))&&(Think_2>=1))&&(Forks_2>=1)))||((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(Neighbourhood_3_2>=1))&&(Think_3>=1)))||(((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=2)))||((((Neighbourhood_1_3>=1)&&(Forks_3>=1))&&(Neighbourhood_3_2>=1))&&(Think_3>=1)))||(((Neighbourhood_1_1>=2)&&(Think_1>=1))&&(Forks_1>=1)))||((((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_1_2>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_3>=1))))) * AF(((((((((((((WaitRight_1>=1)&&(Neighbourhood_1_1>=1))&&(Forks_1>=1))||(((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(WaitRight_2>=1)))||(((Neighbourhood_2_1>=1)&&(WaitRight_2>=1))&&(Forks_1>=1)))||(((Forks_1>=1)&&(Neighbourhood_3_1>=1))&&(WaitRight_3>=1)))||(((Neighbourhood_1_3>=1)&&(Forks_3>=1))&&(WaitRight_1>=1)))||(((WaitRight_3>=1)&&(Forks_2>=1))&&(Neighbourhood_3_2>=1)))||(((WaitRight_1>=1)&&(Neighbourhood_1_2>=1))&&(Forks_2>=1)))||(((Forks_2>=1)&&(Neighbourhood_2_2>=1))&&(WaitRight_2>=1)))||(((Neighbourhood_3_3>=1)&&(WaitRight_3>=1))&&(Forks_3>=1)))||(((((((((((HasRight_3>=1)&&(HasLeft_3>=1))&&(Neighbourhood_3_2>=1))||(((HasRight_1>=1)&&(Neighbourhood_1_3>=1))&&(HasLeft_1>=1)))||(((HasRight_1>=1)&&(HasLeft_1>=1))&&(Neighbourhood_1_2>=1)))||(((Neighbourhood_2_2>=1)&&(HasLeft_2>=1))&&(HasRight_2>=1)))||(((Neighbourhood_3_1>=1)&&(HasLeft_3>=1))&&(HasRight_3>=1)))||(((HasRight_2>=1)&&(HasLeft_2>=1))&&(Neighbourhood_2_1>=1)))||(((HasRight_2>=1)&&(Neighbourhood_2_3>=1))&&(HasLeft_2>=1)))||(((HasRight_1>=1)&&(Neighbourhood_1_1>=1))&&(HasLeft_1>=1)))||(((HasRight_3>=1)&&(Neighbourhood_3_3>=1))&&(HasLeft_3>=1))))))
=> equivalent forward existential formula: ([(Init * !(EX((!(EG(!((((((((((((WaitRight_1>=1)&&(Neighbourhood_1_1>=1))&&(Forks_1>=1))||(((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(WaitRight_2>=1)))||(((Neighbourhood_2_1>=1)&&(WaitRight_2>=1))&&(Forks_1>=1)))||(((Forks_1>=1)&&(Neighbourhood_3_1>=1))&&(WaitRight_3>=1)))||(((Neighbourhood_1_3>=1)&&(Forks_3>=1))&&(WaitRight_1>=1)))||(((WaitRight_3>=1)&&(Forks_2>=1))&&(Neighbourhood_3_2>=1)))||(((WaitRight_1>=1)&&(Neighbourhood_1_2>=1))&&(Forks_2>=1)))||(((Forks_2>=1)&&(Neighbourhood_2_2>=1))&&(WaitRight_2>=1)))||(((Neighbourhood_3_3>=1)&&(WaitRight_3>=1))&&(Forks_3>=1)))))) + ((((((((((((((((((((((((((((((Think_2>=1)&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_2>=1))&&(Forks_2>=1))||((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(Neighbourhood_3_3>=1))&&(Think_3>=1)))||((((Neighbourhood_1_1>=1)&&(Neighbourhood_1_2>=1))&&(Think_1>=1))&&(Forks_1>=1)))||((((Forks_3>=1)&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_1>=1))&&(Think_3>=1)))||((((Forks_3>=1)&&(Neighbourhood_3_3>=1))&&(Think_3>=1))&&(Neighbourhood_3_2>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_1_1>=1))&&(Neighbourhood_2_1>=1)))||((((Neighbourhood_1_3>=1)&&(Think_1>=1))&&(Neighbourhood_1_1>=1))&&(Forks_1>=1)))||((((Neighbourhood_2_3>=1)&&(Neighbourhood_2_2>=1))&&(Forks_2>=1))&&(Think_2>=1)))||((((Neighbourhood_3_1>=1)&&(Neighbourhood_3_3>=1))&&(Forks_3>=1))&&(Think_3>=1)))||((((Neighbourhood_3_2>=1)&&(Forks_2>=1))&&(Think_2>=1))&&(Neighbourhood_2_3>=1)))||((((Think_2>=1)&&(Forks_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_2_1>=1)))||((((Think_1>=1)&&(Neighbourhood_1_2>=1))&&(Neighbourhood_3_1>=1))&&(Forks_1>=1)))||((((Think_2>=1)&&(Forks_2>=1))&&(Neighbourhood_3_2>=1))&&(Neighbourhood_2_1>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_1>=1)))||((((Neighbourhood_2_2>=1)&&(Think_2>=1))&&(Forks_2>=1))&&(Neighbourhood_3_2>=1)))||((((Neighbourhood_1_1>=1)&&(Think_1>=1))&&(Neighbourhood_3_1>=1))&&(Forks_1>=1)))||((((Forks_3>=1)&&(Think_3>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_3>=1)))||((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_1>=1))&&(Think_1>=1))&&(Forks_1>=1)))||(((Think_3>=1)&&(Forks_3>=1))&&(Neighbourhood_3_3>=2)))||((((Neighbourhood_3_1>=1)&&(Forks_3>=1))&&(Think_3>=1))&&(Neighbourhood_2_3>=1)))||((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_3>=1))&&(Think_2>=1))&&(Forks_2>=1)))||((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(Neighbourhood_3_2>=1))&&(Think_3>=1)))||(((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=2)))||((((Neighbourhood_1_3>=1)&&(Forks_3>=1))&&(Neighbourhood_3_2>=1))&&(Think_3>=1)))||(((Neighbourhood_1_1>=2)&&(Think_1>=1))&&(Forks_1>=1)))||((((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_1_2>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_3>=1)))))))] = FALSE * [FwdG(Init,!(((((((((((((WaitRight_1>=1)&&(Neighbourhood_1_1>=1))&&(Forks_1>=1))||(((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(WaitRight_2>=1)))||(((Neighbourhood_2_1>=1)&&(WaitRight_2>=1))&&(Forks_1>=1)))||(((Forks_1>=1)&&(Neighbourhood_3_1>=1))&&(WaitRight_3>=1)))||(((Neighbourhood_1_3>=1)&&(Forks_3>=1))&&(WaitRight_1>=1)))||(((WaitRight_3>=1)&&(Forks_2>=1))&&(Neighbourhood_3_2>=1)))||(((WaitRight_1>=1)&&(Neighbourhood_1_2>=1))&&(Forks_2>=1)))||(((Forks_2>=1)&&(Neighbourhood_2_2>=1))&&(WaitRight_2>=1)))||(((Neighbourhood_3_3>=1)&&(WaitRight_3>=1))&&(Forks_3>=1)))||(((((((((((HasRight_3>=1)&&(HasLeft_3>=1))&&(Neighbourhood_3_2>=1))||(((HasRight_1>=1)&&(Neighbourhood_1_3>=1))&&(HasLeft_1>=1)))||(((HasRight_1>=1)&&(HasLeft_1>=1))&&(Neighbourhood_1_2>=1)))||(((Neighbourhood_2_2>=1)&&(HasLeft_2>=1))&&(HasRight_2>=1)))||(((Neighbourhood_3_1>=1)&&(HasLeft_3>=1))&&(HasRight_3>=1)))||(((HasRight_2>=1)&&(HasLeft_2>=1))&&(Neighbourhood_2_1>=1)))||(((HasRight_2>=1)&&(Neighbourhood_2_3>=1))&&(HasLeft_2>=1)))||(((HasRight_1>=1)&&(Neighbourhood_1_1>=1))&&(HasLeft_1>=1)))||(((HasRight_3>=1)&&(Neighbourhood_3_3>=1))&&(HasLeft_3>=1))))))] = FALSE)
Hit Full ! (commute/partial/dont) 0/75/83
(forward)formula 5,0,0.419324,15200,1,0,156,32377,179,81,2791,29329,207
FORMULA PhilosophersDyn-PT-03-CTLFireability-05 FALSE TECHNIQUES DECISION_DIAGRAMS TOPOLOGICAL
Formula is FALSE !
***************************************
original formula: EG(A(!(((((((((((((((((((((((((((((((Think_2>=1)&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_2>=1))&&(Forks_2>=1))||((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(Neighbourhood_3_3>=1))&&(Think_3>=1)))||((((Neighbourhood_1_1>=1)&&(Neighbourhood_1_2>=1))&&(Think_1>=1))&&(Forks_1>=1)))||((((Forks_3>=1)&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_1>=1))&&(Think_3>=1)))||((((Forks_3>=1)&&(Neighbourhood_3_3>=1))&&(Think_3>=1))&&(Neighbourhood_3_2>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_1_1>=1))&&(Neighbourhood_2_1>=1)))||((((Neighbourhood_1_3>=1)&&(Think_1>=1))&&(Neighbourhood_1_1>=1))&&(Forks_1>=1)))||((((Neighbourhood_2_3>=1)&&(Neighbourhood_2_2>=1))&&(Forks_2>=1))&&(Think_2>=1)))||((((Neighbourhood_3_1>=1)&&(Neighbourhood_3_3>=1))&&(Forks_3>=1))&&(Think_3>=1)))||((((Neighbourhood_3_2>=1)&&(Forks_2>=1))&&(Think_2>=1))&&(Neighbourhood_2_3>=1)))||((((Think_2>=1)&&(Forks_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_2_1>=1)))||((((Think_1>=1)&&(Neighbourhood_1_2>=1))&&(Neighbourhood_3_1>=1))&&(Forks_1>=1)))||((((Think_2>=1)&&(Forks_2>=1))&&(Neighbourhood_3_2>=1))&&(Neighbourhood_2_1>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_1>=1)))||((((Neighbourhood_2_2>=1)&&(Think_2>=1))&&(Forks_2>=1))&&(Neighbourhood_3_2>=1)))||((((Neighbourhood_1_1>=1)&&(Think_1>=1))&&(Neighbourhood_3_1>=1))&&(Forks_1>=1)))||((((Forks_3>=1)&&(Think_3>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_3>=1)))||((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_1>=1))&&(Think_1>=1))&&(Forks_1>=1)))||(((Think_3>=1)&&(Forks_3>=1))&&(Neighbourhood_3_3>=2)))||((((Neighbourhood_3_1>=1)&&(Forks_3>=1))&&(Think_3>=1))&&(Neighbourhood_2_3>=1)))||((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_3>=1))&&(Think_2>=1))&&(Forks_2>=1)))||((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(Neighbourhood_3_2>=1))&&(Think_3>=1)))||(((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=2)))||((((Neighbourhood_1_3>=1)&&(Forks_3>=1))&&(Neighbourhood_3_2>=1))&&(Think_3>=1)))||(((Neighbourhood_1_1>=2)&&(Think_1>=1))&&(Forks_1>=1)))||((((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_1_2>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_3>=1)))) U ((((((((((((((((((((((((((((((Neighbourhood_1_2>=1)&&(Outside_2>=1))&&(Forks_2>=1))&&(Forks_1>=1))||(((Forks_1>=2)&&(Neighbourhood_1_1>=1))&&(Outside_2>=1)))||((((Neighbourhood_3_2>=1)&&(Forks_2>=1))&&(Forks_3>=1))&&(Outside_2>=1)))||((((Neighbourhood_1_2>=1)&&(Forks_2>=1))&&(Forks_1>=1))&&(Outside_1>=1)))||(((Forks_1>=2)&&(Outside_3>=1))&&(Neighbourhood_1_1>=1)))||((((Forks_2>=1)&&(Forks_3>=1))&&(Neighbourhood_2_3>=1))&&(Outside_3>=1)))||((((Forks_2>=1)&&(Forks_1>=1))&&(Outside_1>=1))&&(Neighbourhood_2_1>=1)))||((((Outside_3>=1)&&(Neighbourhood_3_2>=1))&&(Forks_3>=1))&&(Forks_2>=1)))||((((Neighbourhood_3_1>=1)&&(Outside_3>=1))&&(Forks_3>=1))&&(Forks_1>=1)))||((((Forks_2>=1)&&(Outside_2>=1))&&(Neighbourhood_2_3>=1))&&(Forks_3>=1)))||((((Forks_1>=1)&&(Outside_2>=1))&&(Forks_3>=1))&&(Neighbourhood_3_1>=1)))||(((Neighbourhood_2_2>=1)&&(Forks_2>=2))&&(Outside_3>=1)))||((((Neighbourhood_3_1>=1)&&(Forks_3>=1))&&(Outside_1>=1))&&(Forks_1>=1)))||(((Neighbourhood_3_3>=1)&&(Forks_3>=2))&&(Outside_1>=1)))||((((Neighbourhood_3_2>=1)&&(Outside_1>=1))&&(Forks_3>=1))&&(Forks_2>=1)))||(((Outside_1>=1)&&(Neighbourhood_2_2>=1))&&(Forks_2>=2)))||((((Forks_1>=1)&&(Outside_2>=1))&&(Neighbourhood_1_3>=1))&&(Forks_3>=1)))||((((Forks_1>=1)&&(Neighbourhood_2_1>=1))&&(Forks_2>=1))&&(Outside_3>=1)))||(((Forks_2>=2)&&(Neighbourhood_2_2>=1))&&(Outside_2>=1)))||(((Neighbourhood_3_3>=1)&&(Outside_2>=1))&&(Forks_3>=2)))||((((Neighbourhood_2_1>=1)&&(Forks_1>=1))&&(Forks_2>=1))&&(Outside_2>=1)))||((((Neighbourhood_1_3>=1)&&(Outside_1>=1))&&(Forks_1>=1))&&(Forks_3>=1)))||(((Neighbourhood_3_3>=1)&&(Forks_3>=2))&&(Outside_3>=1)))||((((Outside_1>=1)&&(Forks_3>=1))&&(Neighbourhood_2_3>=1))&&(Forks_2>=1)))||(((Outside_1>=1)&&(Neighbourhood_1_1>=1))&&(Forks_1>=2)))||((((Outside_3>=1)&&(Forks_1>=1))&&(Forks_3>=1))&&(Neighbourhood_1_3>=1)))||((((Forks_1>=1)&&(Forks_2>=1))&&(Neighbourhood_1_2>=1))&&(Outside_3>=1)))))
=> equivalent forward existential formula: [FwdG(Init,!((E(!(((((((((((((((((((((((((((((((Neighbourhood_1_2>=1)&&(Outside_2>=1))&&(Forks_2>=1))&&(Forks_1>=1))||(((Forks_1>=2)&&(Neighbourhood_1_1>=1))&&(Outside_2>=1)))||((((Neighbourhood_3_2>=1)&&(Forks_2>=1))&&(Forks_3>=1))&&(Outside_2>=1)))||((((Neighbourhood_1_2>=1)&&(Forks_2>=1))&&(Forks_1>=1))&&(Outside_1>=1)))||(((Forks_1>=2)&&(Outside_3>=1))&&(Neighbourhood_1_1>=1)))||((((Forks_2>=1)&&(Forks_3>=1))&&(Neighbourhood_2_3>=1))&&(Outside_3>=1)))||((((Forks_2>=1)&&(Forks_1>=1))&&(Outside_1>=1))&&(Neighbourhood_2_1>=1)))||((((Outside_3>=1)&&(Neighbourhood_3_2>=1))&&(Forks_3>=1))&&(Forks_2>=1)))||((((Neighbourhood_3_1>=1)&&(Outside_3>=1))&&(Forks_3>=1))&&(Forks_1>=1)))||((((Forks_2>=1)&&(Outside_2>=1))&&(Neighbourhood_2_3>=1))&&(Forks_3>=1)))||((((Forks_1>=1)&&(Outside_2>=1))&&(Forks_3>=1))&&(Neighbourhood_3_1>=1)))||(((Neighbourhood_2_2>=1)&&(Forks_2>=2))&&(Outside_3>=1)))||((((Neighbourhood_3_1>=1)&&(Forks_3>=1))&&(Outside_1>=1))&&(Forks_1>=1)))||(((Neighbourhood_3_3>=1)&&(Forks_3>=2))&&(Outside_1>=1)))||((((Neighbourhood_3_2>=1)&&(Outside_1>=1))&&(Forks_3>=1))&&(Forks_2>=1)))||(((Outside_1>=1)&&(Neighbourhood_2_2>=1))&&(Forks_2>=2)))||((((Forks_1>=1)&&(Outside_2>=1))&&(Neighbourhood_1_3>=1))&&(Forks_3>=1)))||((((Forks_1>=1)&&(Neighbourhood_2_1>=1))&&(Forks_2>=1))&&(Outside_3>=1)))||(((Forks_2>=2)&&(Neighbourhood_2_2>=1))&&(Outside_2>=1)))||(((Neighbourhood_3_3>=1)&&(Outside_2>=1))&&(Forks_3>=2)))||((((Neighbourhood_2_1>=1)&&(Forks_1>=1))&&(Forks_2>=1))&&(Outside_2>=1)))||((((Neighbourhood_1_3>=1)&&(Outside_1>=1))&&(Forks_1>=1))&&(Forks_3>=1)))||(((Neighbourhood_3_3>=1)&&(Forks_3>=2))&&(Outside_3>=1)))||((((Outside_1>=1)&&(Forks_3>=1))&&(Neighbourhood_2_3>=1))&&(Forks_2>=1)))||(((Outside_1>=1)&&(Neighbourhood_1_1>=1))&&(Forks_1>=2)))||((((Outside_3>=1)&&(Forks_1>=1))&&(Forks_3>=1))&&(Neighbourhood_1_3>=1)))||((((Forks_1>=1)&&(Forks_2>=1))&&(Neighbourhood_1_2>=1))&&(Outside_3>=1)))) U (!(!(((((((((((((((((((((((((((((((Think_2>=1)&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_2>=1))&&(Forks_2>=1))||((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(Neighbourhood_3_3>=1))&&(Think_3>=1)))||((((Neighbourhood_1_1>=1)&&(Neighbourhood_1_2>=1))&&(Think_1>=1))&&(Forks_1>=1)))||((((Forks_3>=1)&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_1>=1))&&(Think_3>=1)))||((((Forks_3>=1)&&(Neighbourhood_3_3>=1))&&(Think_3>=1))&&(Neighbourhood_3_2>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_1_1>=1))&&(Neighbourhood_2_1>=1)))||((((Neighbourhood_1_3>=1)&&(Think_1>=1))&&(Neighbourhood_1_1>=1))&&(Forks_1>=1)))||((((Neighbourhood_2_3>=1)&&(Neighbourhood_2_2>=1))&&(Forks_2>=1))&&(Think_2>=1)))||((((Neighbourhood_3_1>=1)&&(Neighbourhood_3_3>=1))&&(Forks_3>=1))&&(Think_3>=1)))||((((Neighbourhood_3_2>=1)&&(Forks_2>=1))&&(Think_2>=1))&&(Neighbourhood_2_3>=1)))||((((Think_2>=1)&&(Forks_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_2_1>=1)))||((((Think_1>=1)&&(Neighbourhood_1_2>=1))&&(Neighbourhood_3_1>=1))&&(Forks_1>=1)))||((((Think_2>=1)&&(Forks_2>=1))&&(Neighbourhood_3_2>=1))&&(Neighbourhood_2_1>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_1>=1)))||((((Neighbourhood_2_2>=1)&&(Think_2>=1))&&(Forks_2>=1))&&(Neighbourhood_3_2>=1)))||((((Neighbourhood_1_1>=1)&&(Think_1>=1))&&(Neighbourhood_3_1>=1))&&(Forks_1>=1)))||((((Forks_3>=1)&&(Think_3>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_3>=1)))||((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_1>=1))&&(Think_1>=1))&&(Forks_1>=1)))||(((Think_3>=1)&&(Forks_3>=1))&&(Neighbourhood_3_3>=2)))||((((Neighbourhood_3_1>=1)&&(Forks_3>=1))&&(Think_3>=1))&&(Neighbourhood_2_3>=1)))||((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_3>=1))&&(Think_2>=1))&&(Forks_2>=1)))||((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(Neighbourhood_3_2>=1))&&(Think_3>=1)))||(((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=2)))||((((Neighbourhood_1_3>=1)&&(Forks_3>=1))&&(Neighbourhood_3_2>=1))&&(Think_3>=1)))||(((Neighbourhood_1_1>=2)&&(Think_1>=1))&&(Forks_1>=1)))||((((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_1_2>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_3>=1))))) * !(((((((((((((((((((((((((((((((Neighbourhood_1_2>=1)&&(Outside_2>=1))&&(Forks_2>=1))&&(Forks_1>=1))||(((Forks_1>=2)&&(Neighbourhood_1_1>=1))&&(Outside_2>=1)))||((((Neighbourhood_3_2>=1)&&(Forks_2>=1))&&(Forks_3>=1))&&(Outside_2>=1)))||((((Neighbourhood_1_2>=1)&&(Forks_2>=1))&&(Forks_1>=1))&&(Outside_1>=1)))||(((Forks_1>=2)&&(Outside_3>=1))&&(Neighbourhood_1_1>=1)))||((((Forks_2>=1)&&(Forks_3>=1))&&(Neighbourhood_2_3>=1))&&(Outside_3>=1)))||((((Forks_2>=1)&&(Forks_1>=1))&&(Outside_1>=1))&&(Neighbourhood_2_1>=1)))||((((Outside_3>=1)&&(Neighbourhood_3_2>=1))&&(Forks_3>=1))&&(Forks_2>=1)))||((((Neighbourhood_3_1>=1)&&(Outside_3>=1))&&(Forks_3>=1))&&(Forks_1>=1)))||((((Forks_2>=1)&&(Outside_2>=1))&&(Neighbourhood_2_3>=1))&&(Forks_3>=1)))||((((Forks_1>=1)&&(Outside_2>=1))&&(Forks_3>=1))&&(Neighbourhood_3_1>=1)))||(((Neighbourhood_2_2>=1)&&(Forks_2>=2))&&(Outside_3>=1)))||((((Neighbourhood_3_1>=1)&&(Forks_3>=1))&&(Outside_1>=1))&&(Forks_1>=1)))||(((Neighbourhood_3_3>=1)&&(Forks_3>=2))&&(Outside_1>=1)))||((((Neighbourhood_3_2>=1)&&(Outside_1>=1))&&(Forks_3>=1))&&(Forks_2>=1)))||(((Outside_1>=1)&&(Neighbourhood_2_2>=1))&&(Forks_2>=2)))||((((Forks_1>=1)&&(Outside_2>=1))&&(Neighbourhood_1_3>=1))&&(Forks_3>=1)))||((((Forks_1>=1)&&(Neighbourhood_2_1>=1))&&(Forks_2>=1))&&(Outside_3>=1)))||(((Forks_2>=2)&&(Neighbourhood_2_2>=1))&&(Outside_2>=1)))||(((Neighbourhood_3_3>=1)&&(Outside_2>=1))&&(Forks_3>=2)))||((((Neighbourhood_2_1>=1)&&(Forks_1>=1))&&(Forks_2>=1))&&(Outside_2>=1)))||((((Neighbourhood_1_3>=1)&&(Outside_1>=1))&&(Forks_1>=1))&&(Forks_3>=1)))||(((Neighbourhood_3_3>=1)&&(Forks_3>=2))&&(Outside_3>=1)))||((((Outside_1>=1)&&(Forks_3>=1))&&(Neighbourhood_2_3>=1))&&(Forks_2>=1)))||(((Outside_1>=1)&&(Neighbourhood_1_1>=1))&&(Forks_1>=2)))||((((Outside_3>=1)&&(Forks_1>=1))&&(Forks_3>=1))&&(Neighbourhood_1_3>=1)))||((((Forks_1>=1)&&(Forks_2>=1))&&(Neighbourhood_1_2>=1))&&(Outside_3>=1)))))) + EG(!(((((((((((((((((((((((((((((((Neighbourhood_1_2>=1)&&(Outside_2>=1))&&(Forks_2>=1))&&(Forks_1>=1))||(((Forks_1>=2)&&(Neighbourhood_1_1>=1))&&(Outside_2>=1)))||((((Neighbourhood_3_2>=1)&&(Forks_2>=1))&&(Forks_3>=1))&&(Outside_2>=1)))||((((Neighbourhood_1_2>=1)&&(Forks_2>=1))&&(Forks_1>=1))&&(Outside_1>=1)))||(((Forks_1>=2)&&(Outside_3>=1))&&(Neighbourhood_1_1>=1)))||((((Forks_2>=1)&&(Forks_3>=1))&&(Neighbourhood_2_3>=1))&&(Outside_3>=1)))||((((Forks_2>=1)&&(Forks_1>=1))&&(Outside_1>=1))&&(Neighbourhood_2_1>=1)))||((((Outside_3>=1)&&(Neighbourhood_3_2>=1))&&(Forks_3>=1))&&(Forks_2>=1)))||((((Neighbourhood_3_1>=1)&&(Outside_3>=1))&&(Forks_3>=1))&&(Forks_1>=1)))||((((Forks_2>=1)&&(Outside_2>=1))&&(Neighbourhood_2_3>=1))&&(Forks_3>=1)))||((((Forks_1>=1)&&(Outside_2>=1))&&(Forks_3>=1))&&(Neighbourhood_3_1>=1)))||(((Neighbourhood_2_2>=1)&&(Forks_2>=2))&&(Outside_3>=1)))||((((Neighbourhood_3_1>=1)&&(Forks_3>=1))&&(Outside_1>=1))&&(Forks_1>=1)))||(((Neighbourhood_3_3>=1)&&(Forks_3>=2))&&(Outside_1>=1)))||((((Neighbourhood_3_2>=1)&&(Outside_1>=1))&&(Forks_3>=1))&&(Forks_2>=1)))||(((Outside_1>=1)&&(Neighbourhood_2_2>=1))&&(Forks_2>=2)))||((((Forks_1>=1)&&(Outside_2>=1))&&(Neighbourhood_1_3>=1))&&(Forks_3>=1)))||((((Forks_1>=1)&&(Neighbourhood_2_1>=1))&&(Forks_2>=1))&&(Outside_3>=1)))||(((Forks_2>=2)&&(Neighbourhood_2_2>=1))&&(Outside_2>=1)))||(((Neighbourhood_3_3>=1)&&(Outside_2>=1))&&(Forks_3>=2)))||((((Neighbourhood_2_1>=1)&&(Forks_1>=1))&&(Forks_2>=1))&&(Outside_2>=1)))||((((Neighbourhood_1_3>=1)&&(Outside_1>=1))&&(Forks_1>=1))&&(Forks_3>=1)))||(((Neighbourhood_3_3>=1)&&(Forks_3>=2))&&(Outside_3>=1)))||((((Outside_1>=1)&&(Forks_3>=1))&&(Neighbourhood_2_3>=1))&&(Forks_2>=1)))||(((Outside_1>=1)&&(Neighbourhood_1_1>=1))&&(Forks_1>=2)))||((((Outside_3>=1)&&(Forks_1>=1))&&(Forks_3>=1))&&(Neighbourhood_1_3>=1)))||((((Forks_1>=1)&&(Forks_2>=1))&&(Neighbourhood_1_2>=1))&&(Outside_3>=1))))))))] != FALSE
(forward)formula 6,0,0.610638,18044,1,0,207,46074,190,123,2794,43720,301
FORMULA PhilosophersDyn-PT-03-CTLFireability-06 FALSE TECHNIQUES DECISION_DIAGRAMS TOPOLOGICAL
Formula is FALSE !
***************************************
original formula: EG(!((AF(((((Forks_3>=1)&&(WaitLeft_3>=1))||((WaitLeft_1>=1)&&(Forks_1>=1)))||((Forks_2>=1)&&(WaitLeft_2>=1)))) * EF(((((((((((((((((((((((((((((((Think_2>=1)&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_2>=1))&&(Forks_2>=1))||((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(Neighbourhood_3_3>=1))&&(Think_3>=1)))||((((Neighbourhood_1_1>=1)&&(Neighbourhood_1_2>=1))&&(Think_1>=1))&&(Forks_1>=1)))||((((Forks_3>=1)&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_1>=1))&&(Think_3>=1)))||((((Forks_3>=1)&&(Neighbourhood_3_3>=1))&&(Think_3>=1))&&(Neighbourhood_3_2>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_1_1>=1))&&(Neighbourhood_2_1>=1)))||((((Neighbourhood_1_3>=1)&&(Think_1>=1))&&(Neighbourhood_1_1>=1))&&(Forks_1>=1)))||((((Neighbourhood_2_3>=1)&&(Neighbourhood_2_2>=1))&&(Forks_2>=1))&&(Think_2>=1)))||((((Neighbourhood_3_1>=1)&&(Neighbourhood_3_3>=1))&&(Forks_3>=1))&&(Think_3>=1)))||((((Neighbourhood_3_2>=1)&&(Forks_2>=1))&&(Think_2>=1))&&(Neighbourhood_2_3>=1)))||((((Think_2>=1)&&(Forks_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_2_1>=1)))||((((Think_1>=1)&&(Neighbourhood_1_2>=1))&&(Neighbourhood_3_1>=1))&&(Forks_1>=1)))||((((Think_2>=1)&&(Forks_2>=1))&&(Neighbourhood_3_2>=1))&&(Neighbourhood_2_1>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_1>=1)))||((((Neighbourhood_2_2>=1)&&(Think_2>=1))&&(Forks_2>=1))&&(Neighbourhood_3_2>=1)))||((((Neighbourhood_1_1>=1)&&(Think_1>=1))&&(Neighbourhood_3_1>=1))&&(Forks_1>=1)))||((((Forks_3>=1)&&(Think_3>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_3>=1)))||((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_1>=1))&&(Think_1>=1))&&(Forks_1>=1)))||(((Think_3>=1)&&(Forks_3>=1))&&(Neighbourhood_3_3>=2)))||((((Neighbourhood_3_1>=1)&&(Forks_3>=1))&&(Think_3>=1))&&(Neighbourhood_2_3>=1)))||((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_3>=1))&&(Think_2>=1))&&(Forks_2>=1)))||((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(Neighbourhood_3_2>=1))&&(Think_3>=1)))||(((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=2)))||((((Neighbourhood_1_3>=1)&&(Forks_3>=1))&&(Neighbourhood_3_2>=1))&&(Think_3>=1)))||(((Neighbourhood_1_1>=2)&&(Think_1>=1))&&(Forks_1>=1)))||((((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_1_2>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_3>=1)))))))
=> equivalent forward existential formula: [FwdG(Init,!((!(EG(!(((((Forks_3>=1)&&(WaitLeft_3>=1))||((WaitLeft_1>=1)&&(Forks_1>=1)))||((Forks_2>=1)&&(WaitLeft_2>=1)))))) * E(TRUE U ((((((((((((((((((((((((((((((Think_2>=1)&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_2>=1))&&(Forks_2>=1))||((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(Neighbourhood_3_3>=1))&&(Think_3>=1)))||((((Neighbourhood_1_1>=1)&&(Neighbourhood_1_2>=1))&&(Think_1>=1))&&(Forks_1>=1)))||((((Forks_3>=1)&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_1>=1))&&(Think_3>=1)))||((((Forks_3>=1)&&(Neighbourhood_3_3>=1))&&(Think_3>=1))&&(Neighbourhood_3_2>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_1_1>=1))&&(Neighbourhood_2_1>=1)))||((((Neighbourhood_1_3>=1)&&(Think_1>=1))&&(Neighbourhood_1_1>=1))&&(Forks_1>=1)))||((((Neighbourhood_2_3>=1)&&(Neighbourhood_2_2>=1))&&(Forks_2>=1))&&(Think_2>=1)))||((((Neighbourhood_3_1>=1)&&(Neighbourhood_3_3>=1))&&(Forks_3>=1))&&(Think_3>=1)))||((((Neighbourhood_3_2>=1)&&(Forks_2>=1))&&(Think_2>=1))&&(Neighbourhood_2_3>=1)))||((((Think_2>=1)&&(Forks_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_2_1>=1)))||((((Think_1>=1)&&(Neighbourhood_1_2>=1))&&(Neighbourhood_3_1>=1))&&(Forks_1>=1)))||((((Think_2>=1)&&(Forks_2>=1))&&(Neighbourhood_3_2>=1))&&(Neighbourhood_2_1>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_1>=1)))||((((Neighbourhood_2_2>=1)&&(Think_2>=1))&&(Forks_2>=1))&&(Neighbourhood_3_2>=1)))||((((Neighbourhood_1_1>=1)&&(Think_1>=1))&&(Neighbourhood_3_1>=1))&&(Forks_1>=1)))||((((Forks_3>=1)&&(Think_3>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_3>=1)))||((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_1>=1))&&(Think_1>=1))&&(Forks_1>=1)))||(((Think_3>=1)&&(Forks_3>=1))&&(Neighbourhood_3_3>=2)))||((((Neighbourhood_3_1>=1)&&(Forks_3>=1))&&(Think_3>=1))&&(Neighbourhood_2_3>=1)))||((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_3>=1))&&(Think_2>=1))&&(Forks_2>=1)))||((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(Neighbourhood_3_2>=1))&&(Think_3>=1)))||(((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=2)))||((((Neighbourhood_1_3>=1)&&(Forks_3>=1))&&(Neighbourhood_3_2>=1))&&(Think_3>=1)))||(((Neighbourhood_1_1>=2)&&(Think_1>=1))&&(Forks_1>=1)))||((((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_1_2>=1)))||((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_3>=1)))))))] != FALSE
(forward)formula 7,1,0.724869,21124,1,0,264,57992,202,163,2818,55280,405
FORMULA PhilosophersDyn-PT-03-CTLFireability-07 TRUE TECHNIQUES DECISION_DIAGRAMS TOPOLOGICAL
Formula is TRUE !
***************************************
original formula: !((((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(WaitRight_2>=1)) * EF(((((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=2))&&((((Neighbourhood_3_1>=1)&&(Outside_3>=1))&&(Forks_3>=1))&&(Forks_1>=1))))) * !(((((Outside_1>=1)&&(Neighbourhood_1_1>=1))&&(Forks_1>=2))&&((((((Neighbourhood_1_3>=1)&&(Outside_1>=1))&&(Forks_1>=1))&&(Forks_3>=1))&&(((HasRight_1>=1)&&(HasLeft_1>=1))&&(Neighbourhood_1_2>=1)))||(!(((Outside_3>=1)&&(Outside_1>=1))&&(Outside_2>=1))))))))
=> equivalent forward existential formula: (([(Init * !((((Forks_3>=1)&&(Neighbourhood_2_3>=1))&&(WaitRight_2>=1))))] != FALSE + [(Init * !(E(TRUE U ((((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=2))&&((((Neighbourhood_3_1>=1)&&(Outside_3>=1))&&(Forks_3>=1))&&(Forks_1>=1))))))] != FALSE) + [(Init * ((((Outside_1>=1)&&(Neighbourhood_1_1>=1))&&(Forks_1>=2))&&((((((Neighbourhood_1_3>=1)&&(Outside_1>=1))&&(Forks_1>=1))&&(Forks_3>=1))&&(((HasRight_1>=1)&&(HasLeft_1>=1))&&(Neighbourhood_1_2>=1)))||(!(((Outside_3>=1)&&(Outside_1>=1))&&(Outside_2>=1))))))] != FALSE)
(forward)formula 8,1,0.725533,21388,1,0,265,57992,204,163,2818,55280,406
FORMULA PhilosophersDyn-PT-03-CTLFireability-08 TRUE TECHNIQUES DECISION_DIAGRAMS TOPOLOGICAL
Formula is TRUE !
***************************************
original formula: (((HasRight_2>=1)&&(HasLeft_2>=1))&&(Neighbourhood_2_1>=1))
=> equivalent forward existential formula: [(Init * (((HasRight_2>=1)&&(HasLeft_2>=1))&&(Neighbourhood_2_1>=1)))] != FALSE
(forward)formula 9,0,0.726011,21388,1,0,266,57998,205,163,2818,55280,407
FORMULA PhilosophersDyn-PT-03-CTLFireability-09 FALSE TECHNIQUES DECISION_DIAGRAMS TOPOLOGICAL
Formula is FALSE !
***************************************
original formula: (((((Forks_1>=1)&&(Outside_2>=1))&&(Neighbourhood_1_3>=1))&&(Forks_3>=1))||(((HasRight_1>=1)&&(Neighbourhood_1_1>=1))&&(HasLeft_1>=1)))
=> equivalent forward existential formula: [(Init * (((((Forks_1>=1)&&(Outside_2>=1))&&(Neighbourhood_1_3>=1))&&(Forks_3>=1))||(((HasRight_1>=1)&&(Neighbourhood_1_1>=1))&&(HasLeft_1>=1))))] != FALSE
(forward)formula 10,0,0.72708,21388,1,0,267,58003,206,163,2820,55281,408
FORMULA PhilosophersDyn-PT-03-CTLFireability-10 FALSE TECHNIQUES DECISION_DIAGRAMS TOPOLOGICAL
Formula is FALSE !
***************************************
original formula: !((EF(EX(((((Forks_3>=1)&&(Think_3>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_3>=1)))) + (!(((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_3>=1))&&(Think_2>=1))&&(Forks_2>=1))) + EG((((((Neighbourhood_2_2>=1)&&(Think_2>=1))&&(Forks_2>=1))&&(Neighbourhood_3_2>=1))||((((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_1_2>=1)))))))
=> equivalent forward existential formula: [((Init * !((!(((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_3>=1))&&(Think_2>=1))&&(Forks_2>=1))) + EG((((((Neighbourhood_2_2>=1)&&(Think_2>=1))&&(Forks_2>=1))&&(Neighbourhood_3_2>=1))||((((Forks_2>=1)&&(Think_2>=1))&&(Neighbourhood_2_2>=1))&&(Neighbourhood_1_2>=1))))))) * !(E(TRUE U EX(((((Forks_3>=1)&&(Think_3>=1))&&(Neighbourhood_1_3>=1))&&(Neighbourhood_3_3>=1))))))] != FALSE
(forward)formula 11,0,0.732202,21652,1,0,269,58043,214,165,2823,55417,411
FORMULA PhilosophersDyn-PT-03-CTLFireability-11 FALSE TECHNIQUES DECISION_DIAGRAMS TOPOLOGICAL
Formula is FALSE !
***************************************
original formula: (((HasRight_3>=1)&&(HasLeft_3>=1))&&(Neighbourhood_3_2>=1))
=> equivalent forward existential formula: [(Init * (((HasRight_3>=1)&&(HasLeft_3>=1))&&(Neighbourhood_3_2>=1)))] != FALSE
(forward)formula 12,0,0.732624,21652,1,0,269,58043,215,165,2823,55417,412
FORMULA PhilosophersDyn-PT-03-CTLFireability-12 FALSE TECHNIQUES DECISION_DIAGRAMS TOPOLOGICAL
Formula is FALSE !
***************************************
original formula: E(((((HasRight_1>=1)&&(HasLeft_1>=1))&&(Neighbourhood_1_2>=1))||(((Neighbourhood_1_3>=1)&&(Forks_3>=1))&&(WaitRight_1>=1))) U (((HasRight_3>=1)&&(HasLeft_3>=1))&&(Neighbourhood_3_2>=1)))
=> equivalent forward existential formula: [(FwdU(Init,((((HasRight_1>=1)&&(HasLeft_1>=1))&&(Neighbourhood_1_2>=1))||(((Neighbourhood_1_3>=1)&&(Forks_3>=1))&&(WaitRight_1>=1)))) * (((HasRight_3>=1)&&(HasLeft_3>=1))&&(Neighbourhood_3_2>=1)))] != FALSE
Hit Full ! (commute/partial/dont) 24/0/59
(forward)formula 13,0,0.734559,21652,1,0,270,58060,222,166,2835,55422,416
FORMULA PhilosophersDyn-PT-03-CTLFireability-13 FALSE TECHNIQUES DECISION_DIAGRAMS TOPOLOGICAL
Formula is FALSE !
***************************************
original formula: (AG((EG(((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_1>=1))&&(Think_1>=1))&&(Forks_1>=1))) + (((((Neighbourhood_3_3>=1)&&(Forks_3>=2))&&(Outside_1>=1))||(((Neighbourhood_3_1>=1)&&(HasLeft_3>=1))&&(HasRight_3>=1)))&&(((((Outside_3>=1)&&(Forks_1>=1))&&(Forks_3>=1))&&(Neighbourhood_1_3>=1))&&((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_3>=1)))))) + AX(EX(!((((Outside_2>=1)&&(Outside_1>=1))&&(Outside_3>=1))))))
=> equivalent forward existential formula: [(EY((Init * !(!(E(TRUE U !((EG(((((Neighbourhood_1_2>=1)&&(Neighbourhood_2_1>=1))&&(Think_1>=1))&&(Forks_1>=1))) + (((((Neighbourhood_3_3>=1)&&(Forks_3>=2))&&(Outside_1>=1))||(((Neighbourhood_3_1>=1)&&(HasLeft_3>=1))&&(HasRight_3>=1)))&&(((((Outside_3>=1)&&(Forks_1>=1))&&(Forks_3>=1))&&(Neighbourhood_1_3>=1))&&((((Think_1>=1)&&(Forks_1>=1))&&(Neighbourhood_2_1>=1))&&(Neighbourhood_1_3>=1))))))))))) * !(EX(!((((Outside_2>=1)&&(Outside_1>=1))&&(Outside_3>=1))))))] = FALSE
(forward)formula 14,1,0.743033,21652,1,0,284,58576,230,178,2841,56317,447
FORMULA PhilosophersDyn-PT-03-CTLFireability-14 TRUE TECHNIQUES DECISION_DIAGRAMS TOPOLOGICAL
Formula is TRUE !
***************************************
original formula: AF(E(!(((((Neighbourhood_3_1>=1)&&(Forks_3>=1))&&(Outside_1>=1))&&(Forks_1>=1))) U (((((Neighbourhood_1_3>=1)&&(Think_1>=1))&&(Neighbourhood_1_1>=1))&&(Forks_1>=1))&&(((Neighbourhood_3_3>=1)&&(Forks_3>=2))&&(Outside_1>=1)))))
=> equivalent forward existential formula: [FwdG(Init,!(E(!(((((Neighbourhood_3_1>=1)&&(Forks_3>=1))&&(Outside_1>=1))&&(Forks_1>=1))) U (((((Neighbourhood_1_3>=1)&&(Think_1>=1))&&(Neighbourhood_1_1>=1))&&(Forks_1>=1))&&(((Neighbourhood_3_3>=1)&&(Forks_3>=2))&&(Outside_1>=1))))))] = FALSE
(forward)formula 15,0,0.751948,21652,1,0,284,58753,234,180,2867,57196,452
FORMULA PhilosophersDyn-PT-03-CTLFireability-15 FALSE TECHNIQUES DECISION_DIAGRAMS TOPOLOGICAL
Formula is FALSE !
***************************************
BK_STOP 1527202847203
--------------------
content from stderr:
+ export BINDIR=/home/mcc/BenchKit/
+ BINDIR=/home/mcc/BenchKit/
++ pwd
+ export MODEL=/home/mcc/execution
+ MODEL=/home/mcc/execution
+ /home/mcc/BenchKit//runeclipse.sh /home/mcc/execution CTLFireability -its -ltsminpath /home/mcc/BenchKit//lts_install_dir/ -smt
+ ulimit -s 65536
+ [[ -z '' ]]
+ export LTSMIN_MEM_SIZE=8589934592
+ LTSMIN_MEM_SIZE=8589934592
+ /home/mcc/BenchKit//itstools/its-tools -consoleLog -data /home/mcc/execution/workspace -pnfolder /home/mcc/execution -examination CTLFireability -z3path /home/mcc/BenchKit//z3/bin/z3 -yices2path /home/mcc/BenchKit//yices/bin/yices -its -ltsminpath /home/mcc/BenchKit//lts_install_dir/ -smt -vmargs -Dosgi.locking=none -Declipse.stateSaveDelayInterval=-1 -Dosgi.configuration.area=/tmp/.eclipse -Xss8m -Xms40m -Xmx8192m -Dfile.encoding=UTF-8 -Dosgi.requiredJavaVersion=1.6
May 24, 2018 11:00:45 PM fr.lip6.move.gal.application.Application start
INFO: Running its-tools with arguments : [-pnfolder, /home/mcc/execution, -examination, CTLFireability, -z3path, /home/mcc/BenchKit//z3/bin/z3, -yices2path, /home/mcc/BenchKit//yices/bin/yices, -its, -ltsminpath, /home/mcc/BenchKit//lts_install_dir/, -smt]
May 24, 2018 11:00:45 PM fr.lip6.move.gal.application.MccTranslator transformPNML
INFO: Parsing pnml file : /home/mcc/execution/model.pnml
May 24, 2018 11:00:45 PM fr.lip6.move.gal.nupn.PTNetReader loadFromXML
INFO: Load time of PNML (sax parser for PT used): 62 ms
May 24, 2018 11:00:45 PM fr.lip6.move.gal.pnml.togal.PTGALTransformer handlePage
INFO: Transformed 30 places.
May 24, 2018 11:00:45 PM fr.lip6.move.gal.pnml.togal.PTGALTransformer handlePage
INFO: Transformed 84 transitions.
May 24, 2018 11:00:45 PM fr.lip6.move.serialization.SerializationUtil systemToFile
INFO: Time to serialize gal into /home/mcc/execution/model.pnml.img.gal : 22 ms
May 24, 2018 11:00:46 PM fr.lip6.move.gal.instantiate.GALRewriter flatten
INFO: Flatten gal took : 87 ms
May 24, 2018 11:00:46 PM fr.lip6.move.serialization.SerializationUtil systemToFile
INFO: Time to serialize gal into /home/mcc/execution/CTLFireability.pnml.gal : 6 ms
May 24, 2018 11:00:46 PM fr.lip6.move.serialization.SerializationUtil serializePropertiesForITSCTLTools
INFO: Time to serialize properties into /home/mcc/execution/CTLFireability.ctl : 7 ms
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="PhilosophersDyn-PT-03"
export BK_EXAMINATION="CTLFireability"
export BK_TOOL="itstools"
export BK_RESULT_DIR="/tmp/BK_RESULTS/OUTPUTS"
export BK_TIME_CONFINEMENT="3600"
export BK_MEMORY_CONFINEMENT="16384"
# 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
tar xzf /home/mcc/BenchKit/INPUTS/PhilosophersDyn-PT-03.tgz
mv PhilosophersDyn-PT-03 execution
cd execution
pwd
ls -lh
# this is for BenchKit: explicit launching of the test
echo "====================================================================="
echo " Generated by BenchKit 2-3637"
echo " Executing tool itstools"
echo " Input is PhilosophersDyn-PT-03, examination is CTLFireability"
echo " Time confinement is $BK_TIME_CONFINEMENT seconds"
echo " Memory confinement is 16384 MBytes"
echo " Number of cores is 4"
echo " Run identifier is r116-csrt-152666476000872"
echo "====================================================================="
echo
echo "--------------------"
echo "content from stdout:"
echo
echo "=== Data for post analysis generated by BenchKit (invocation template)"
echo
if [ "CTLFireability" = "UpperBounds" ] ; then
echo "The expected result is a vector of positive values"
echo NUM_VECTOR
elif [ "CTLFireability" != "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 "CTLFireability.txt" ] ; then
echo "here is the order used to build the result vector(from text file)"
for x in $(grep Property CTLFireability.txt | cut -d ' ' -f 2 | sort -u) ; do
echo "FORMULA_NAME $x"
done
elif [ -f "CTLFireability.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
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 ;